-
page 1/165
Всички цитати
Звено: ( ИФХ ) Институт по физикохимия „Академик Ростислав
Каишев” Година: 2015 ÷ 2015
Брой цитирани публикации: 576 Брой цитиращи източници: 1762
1959
1. Scheludko, A., Exerowa, D., Uber den elektrostatischen Druck
in Schaumfilmen aus wasserigen Elektrolytlosungen.
Kolloid-Zeitschrift, 165, 2, Springer-Verlag, 1959, ISSN:0303402X,
DOI:10.1007/BF01809974, 148 - 151
Цитира се в:
1. Danov, K.D., Kralchevsky, P.A., Radulova, G.M., Basheva,
E.S., Stoyanov, S.D., Pelan, E.G., Shear rheology of mixed protein
adsorption layers vs their structure studied by surface force
measurements, Advances in Colloid and Interface Science 222,
148-161 (2015)
1960
2. Scheludko, A., Exerowa, D., Uber den elektrostatischen und
van der Waalsschen zusatzlichen Druck in wasserigen Schaumfilmen.
Kolloid-Zeitschrift, 168, 1, Springer-Verlag, 1960, ISSN:0303402X,
DOI:10.1007/BF01513550, 24 - 28
Цитира се в:
2. Dhayal, S.K., Delahaije, R.J.B.M., De Vries, R.J., Gruppen,
H., Wierenga, P.A., Enzymatic cross-linking of α-lactalbumin to
produce nanoparticles with increased foam stability, Soft Matter,
11 (40), pp. 7888-7898 (2015)
3. Peng, T., Peng, K., Li, Q., Methodology for disjoining
pressure of free water nanofilms, Journal of Physical Chemistry C,
119 (25), pp. 14273-14280 (2015)
1969
3. Kashchiev, D., Nucleation at variable supersaturation.
Surface Science, 18, 2, 1969, ISSN:396028, 293 - 297
Цитира се в:
4. M.A.Duran-Olivencia, J.F.Lutsko, Mesoscopic nucleation theory
for confined systems: A one-parameter model, Phys.Rev. E
91(2015)022402.
5. MA Durán-Olivencia, JF Lutsko, Unification of classical
nucleation theories via unified Ito-Stratonovich stochastic
equation, Phys.Rev. E 92(2015)032407.
4. Kashchiev, D., Nucleation at existing cluster size
distributions. Surface Science, 18, 2, 1969, ISSN:396028, 389 -
397
Цитира се в:
-
page 2/165
6. NS Yuritsyn, Influence of preformed nuclei on crystal
nucleation kinetics in soda–lime–silica glass, J.Non-Cryst.Solids
427(2015)139.
5. Exerowa, D., "Effect of adsorption, ionic strength and pH on
the potential of the diffuse electric layer?. Kolloid-Zeitschrift
& Zeitschrift f?r Polymere, 232, 1, Steinkopff-Verlag, 1969,
ISSN:0303402X, DOI:10.1007/BF01500168, 703 - 710
Цитира се в:
7. Lech, F.J., Wierenga, P.A., Gruppen, H., Meinders, M.B.J.,
Stability properties of surfactant-free thin films at different
ionic strengths: Measurements and modeling, Langmuir, 31 (9), pp.
2777-2782 (2015)
6. Kashchiev, D., Solution of the non-steady state problem in
nucleation kinetics. Surface Science, 14, 1, 1969, ISSN:396028, 209
- 220
Цитира се в:
8. L.S.A.Gallo, T.D.M.Mosca, B.H.Teider, I.Polyakova,
A.C.M.Rodrigues, E.D.Zanotto, V.M.Fokin, “Effects of lithium oxide
on the crystallization kinetics of Na< sub> 2 O• 2CaO•
3SiO< sub> 2 glass”, J.Non-Cryst.Sol. 408(2015)102.
9. Chr.N.Nanev, “Theory of Nucleation”, in: “Handbook of Crystal
Growth”, Ed. T.Nishinaga, Elsevier, Amsterdam, 2015, p.315.
10. NS Yuritsyn, Nucleation of crystals in
sodium-calcium-silicate glasses of the metasilicate section, Glass
Phys.Chem. 41(2015)112.
11. A.V.Mokshin, B.N.Galimzyanov, Scaling law for crystal
nucleation time in glasses, J.Chem.Phys. 142 (2015)104502.
12. S Kruger, J Deubener, Lag time to crystal nucleation of
supercooled lithium disilicate melts: A test of the classical
nucleation theory, J.Non-Crys.Sol. 426(2015)1.
13. CN Nanev, VD Tonchev, Sigmoid kinetics of protein crystal
nucleation, J.,Cryst.Growth 427(2015)48.
14. NS Yuritsyn, Influence of preformed nuclei on crystal
nucleation kinetics in soda–lime–silica glass, J.Non-Cryst.Solids
427(2015)139.
1972
7. Rashkov, St., Stoichev, D., Tomov, I., Influence of Current
Density and Temperature on the Morphology and Preferred Orientation
of Electrodeposited Copper Coatings. Electrochimica Acta, 17, 11,
Elsevier, 1972, ISSN:0013-4686, DOI:10.1016/0013-4686(72)80020-3,
1955 - 1964. SJR:1.288, ISI IF:4.504
Цитира се в:
15. М. Г. Георгиева, “Безтоково отлагане на медни композитни
покрития върху полимерни подложки”, Дисертация, “Доктор”, ИФХ-БАН,
София
8. Markov, I., Kashchiev, D., Nucleation on active centres. I.
General theory. Journal of Crystal Growth, 16, 2, 1972,
ISSN:220248, DOI:10.1016/0022-0248(72)90109-1, 170 - 176
Цитира се в:
16. ND Nikolic, ER Ivanovic, G Brankovic, UC Lacnjevac, SI
Stevanovic, JS Stevanovic, MG Pavlovic, Electrochemical and
Crystallographic Aspects of Lead Granular Growth,
-
page 3/165
Metall.Mater.Trans. B 46(2015)1760.
9. Kashchiev, D., Nucleation in external electric field. Journal
of Crystal Growth, 13-14, C, 1972, ISSN:220248,
DOI:10.1016/0022-0248(72)90074-7, 128 - 130
Цитира се в:
17. P.Hicher, R.Haumont, R.Saint-Martin, P.Berthet,
A.Revkolevschi, “Experimental evidence that a high electric field
acts as an efficient external parameter during crystalline growth
of bulk oxide”, J.Cryst.Growth 409(2015)23.
1973
10. Stoichev, D., Rashkov, St., Effect of Some Addends on the
Electrolytic Deposition and Structure of Copper Coatings from Acid
Solutions. Compt. Rand. Acad. Bulg.Sci, 26, 1973, 243 - 246
Цитира се в:
18. М. Г. Георгиева, “Безтоково отлагане на медни композитни
покрития върху полимерни подложки”, Дисертация, “Доктор”, ИФХ-БАН,
София (Юли, 2015 г.).
1974
11. Manev, E., Scheludko, A., Exerowa, D., Effect of surfactant
concentration on the critical thicknesses of liquid films. Colloid
and Polymer Science Kolloid Zeitschrift & Zeitschrift f?r
Polymere, 252, 8-Jul, Steinkopff-Verlag, 1974, ISSN:0303402X,
DOI:10.1007/BF01558157, 586 - 593
Цитира се в:
19. Deng, Q., Li, H., Li, C., Lv, W., Li, Y. Enhancement of
foamability and foam stability induced by interactions between a
hyperbranched exopolysaccharide and a zwitterionic surfactant
dodecyl sulfobetaine, RSC Advances, 5 (76), pp. 61868-61875
(2015)
1975
12. Kashchiev, D. Kinetics of the initial stage of electrolytic
deposition of metals. II. Potentiostatic conditions. , 1975
Цитира се в:
20. A Zimmer, L Broch, C Boulanger, N Stein, Growth Mechanism
during the Early Stages of electrodeposition of Bismuth telluride
films, Electrochim.Acta
13. Kashchiev, D. Kinetics of the initial stage of electrolytic
deposition of metals. I. General theory. , 1975
Цитира се в:
21. A Zimmer, L Broch, C Boulanger, N Stein, Growth Mechanism
during the Early Stages of electrodeposition of Bismuth telluride
films, Electrochim.Acta 174(2015)376.
1976
-
page 4/165
14. Rashkov, St., Stoichev, D., Influence of some surface active
additives on morphology and texture ofcopper electroplates.
Izestiya po Khimiya B’lgarska AN, 9, 1976, 633 - 652
Цитира се в:
22. М. Г. Георгиева, “Безтоково отлагане на медни композитни
покрития върху полимерни подложки”, Дисертация, “Доктор”, ИФХ-БАН,
София (Юли, 2015 г.).
1977
15. Gutzow, I., The mechanism of crystal growth in glass forming
systems. Journal of Crystal Growth, 42, C, 1977, ISSN:220248,
DOI:10.1016/0022-0248(77)90172-5, 15 - 23. ISI IF:1.698
Цитира се в:
23. J. Gerges, F. Affouard, Predictive Calculation of the
Crystallization Tendency of Model Pharmaceuticals in the
Supercooled State from Molecular Dynamics Simulations, Journal of
Physical Chemistry B 119, 33 (2015) 10768-10783.
1978
16. Stoychev, D., Tomov, I., Vitanova, I., Rashkov, St.,
Determination of the size of the crystallites that form bright
galvanic copper coatings. Surface Technology, 7, 6, Elsevier, 1978,
ISSN:03764583, DOI:10.1016/0376-4583(78)90021-3, 433 - 441
Цитира се в:
24. I Djaghout, AM Affoune, ML Chelaghmia and M. Bendjaballah,
Experimental Investigation of Nickel Electrodeposits Brightness in
the Presence of Surfactants: Modeling, Optimization and
Polarization Studies, Portugaliae Electrochimica Acta , 33(4),
209-222, 2015
25. М. Г. Георгиева, “Безтоково отлагане на медни композитни
покрития върху полимерни подложки”, Дисертация, “Доктор”, ИФХ-БАН,
София
17. Stoychev, D.S., Vitanova, I., Rashkov, St., Vitanov, T.,
Adsorption of substances acting as brighteners in the electrolytic
deposition of copper. Surface Technology, 7, 6, 1978,
ISSN:0257-8972, DOI:10.1016/0376-4583(78)90020-1, 427 - 432.
SJR:0.96, ISI IF:1.998
Цитира се в:
26. T. HERNANDEZ-SELVA, D. L. ENGELBERG, F. SCENINI, D. FOX AND
A. MCCLUSKY, Manufacturing technology for implementing geological
disposal: electroforming of copper canisters, Mineralogical
Magazine, Vol. 79(6), pp. 1521–1528, 2015
27. I. Djaghout , A. M. Affoune , M. L. Chelaghmia and M.
Bendjaballah, Experimental Investigation of Nickel Electrodeposits
Brightness in the Presence of Surfactants: Modeling, Optimization
and Polarization Studies, Port. Electrochim. Acta vol.33 no.4,
2015
1979
18. Petkanchin I., Bruckner R., Sokerov S., Radeva Ts.,
Comparison of electric light scattering and birefringence for
polydisperse suspensions. Colloid and Polymer Science, 257, 1979,
160 - 165. ISI IF:1.865
-
page 5/165
Цитира се в:
28. Lu J., Zhou W., Chen J., Jin Y., Walters K.B., Ding S.,
Pickering emulsions stabilized by palygorskite particles grafted
with pH-responsive polymer brushes, RSC Advances 5(13)
9416-9424
19. Exerowa, D., Zacharieva, M., Cohen, R., Platikanov, D.,
Dependence of the equilibrium thickness and double layer potential
of foam films on the surfactant concentration. Colloid and Polymer
Science Kolloid-Zeitschrift & Zeitschrift f?r Polymere, 257,
10, Steinkopff-Verlag, 1979, ISSN:0303402X,DOI:10.1007/BF01761121,
1089 - 1098
Цитира се в:
29. Firouzi, M., Howes, T., Nguyen, A.V., A quantitative review
of the transition salt concentration for inhibiting bubble
coalescence, Advances in Colloid and Interface Science, 222, pp.
305-318 (2015)
20. Kashchiev, D., Recent progress in the theory of thin film
growth. Surface Science, 86, C, 1979, ISSN:396028,
DOI:10.1016/0039-6028(79)90373-X, 14 - 27
Цитира се в:
30. F Borghi, Engineering the structural and functional
properties of transition metal oxide interfaces by cluster
assembling, Ph.D.Thesis, Universita degli Studi di Milano, Milano,
2015.
1981
21. Milchev, A., Paunov, M., A unified model description of
mobile and localized adsorption. II. Adsorption on crystalline
surfaces - a gradual transition between mobile and localized
adsorption. Surface Science, 108, 1, 1981, ISSN:396028,
DOI:10.1016/0039-6028(81)90356-3, 38 - 48
Цитира се в:
31. Pinto, O. A., Pasinetti, P. M., Ramirez-Pastor, A. J.,
Nieto, F. D. (2015). The adsorption of a mixture of particles with
non-additive interactions: a Monte Carlo study. Physical Chemistry
Chemical Physics, 17(5), 3050-3058.
22. Ma?ysa, K., Cohen, R., Exerowa, D., Pomianowski, A.,
Steady-state foaming and the properties of thin liquid films from
aqueous alcohol solutions. Journal of Colloid And Interface
Science, 80, 1, 1981, ISSN:219797,
DOI:10.1016/0021-9797(81)90153-3, 1 - 6
Цитира се в:
32. Bournival, G., de Oliveira e Souza, L., Ata, S., Wanless,
E.J., Effect of alcohol frothing agents on the coalescence of
bubbles coated with hydrophobized silica particles, Chemical
Engineering Science 131, pp. 1-11 (2015)
1982
23. Armyanov, S., Vangelova, T., Stoyanchev, R., Pretreatment of
Al-Mg alloys for electrodeposition by immersion zinc and
electroless nickel. Surface Technology, 17, 2, 1982, ISSN:3764583,
DOI:10.1016/0376-4583(82)90011-5, 89 - 100
Цитира се в:
33. S. R. Anvari, S. M. Monirvaghefi, M. H. Enayati, Novel
Investigation on Nanostructured
-
page 6/165
Multilayer and Functionally Graded Ni-P Electroless Coatings on
Stainless Steel J Mater. Engineer. & Performance, 24 (6)
2373-2381 (2015).
24. Kashchiev, D. On the relation between nucleation work,
nucleus size and nucleation rate. J.Chem.Phys., 1982
Цитира се в:
34. K.Mullick, A.Bhabhe, A.Manka, J.Wolk, R.Strey,
B.E.Wyslouzil, “Isothermal nucleation rates of n-propanol,
n-butanol, and n-pentanol in supersonic nozzles: critical cluster
sizes and the role of coagulation”, J.Phys.Chem. B
119(2015)9009.
35. M.Olin, T.Ronkko, M. Dal Maso, CFD modeling of a vehicle
exhaust laboratory sampling system: sulfur driven nucleation and
growth in diluting diesel exhaust, Atmos.Chem.Phys.Discuss.
15(2015)2905.
36. Chr.N.Nanev, “Theory of Nucleation”, in: “Handbook of
Crystal Growth”, Ed. T.Nishinaga, Elsevier, Amsterdam, 2015,
p.315.
37. P.G.Vekilov, “Nucleation and Growth Mechanisms of Protein
Crystals”, in: “Handbook of Crystal Growth”, Ed. T.Nishinaga,
Elsevier, Amsterdam, 2015, p.795.
38. G Ren, Y Wang, Saturated Sodium Chloride Solution under an
External Static Electric Field: a Molecular Dynamics Study,
Chin.Phys. B 24(2015)126402.
39. J Li, Q Wu, J Wu, Synthesis of Nanoparticles via
Solvothermal and Hydrothermal Methods, in: “Handbook of
Nanoparticles”, Ed. M. Aliofkhazraei, Springer, Berlin, 2015.
40. K Neitola, Experimental studies on nucleation and new
particle formation, Ph.D.Thesis, Finnish Meteorological Institute,
Helsinki, 2015.
41. MALJ Fransen, Experimental study of homogeneous water
nucleation in a pulse-expansion wave tube, Ph.D.Thesis, Eindhoven
University of Technology, Eindhoven, 2015.
42. R Gan, W Yan-Ting, Saturated sodium chloride solution under
an external static electric field: A molecular dynamics study,
Chin.Phys. B 24(2015)126492.
43. CFD modeling of a vehicle exhaust laboratory sampling
system: sulfur driven nucleation and growth in diluting diesel
exhaust M Olin, T Ronkko, M Dal Maso, Atmos.Chem.Phys.
15(2015)5305.
1983
25. Milchev, A., The quasichemical approximation for a lattice
gas model with nonadditive lateral interactions. The Journal of
Chemical Physics, 78, 4, 1983, ISSN:219606, 1994 - 1998
Цитира се в:
44. Pinto, O. A., Pasinetti, P. M., Ramirez-Pastor, A. J., &
Nieto, F. D. (2015). The adsorption of a mixture of particles with
non-additive interactions: a Monte Carlo study. Physical Chemistry
Chemical Physics, 17(5), 3050-3058.
26. Kashchiev, D., Exerowa, D., Bilayer lipid membrane
permeation and rupture due to hole formation. BBA - Biomembranes,
732, 1, 1983, ISSN:52736, DOI:10.1016/0005-2736(83)90196-7, 133 -
145
Цитира се в:
45. R.Zappacosta, A.Fontana, A.Credi, A.Arduini, A.Secchi,
Incorporation of Calix [6] Arene Macrocycles and (Pseudo) Rotaxanes
in Bilayer Membranes: Towards Controllable Liposomal Artificial
Channels, Asian J.Org.Chem. 4(2015)262.
-
page 7/165
46. VA Hernandez, EK Eriksson, K Edwards, Ubiquinone-10 Alters
Mechanical Properties and Increases Stability of Phospholipid
Membranes, BBA Biomembr. 1848(2015)2233.
47. P Bakardzhiev, D Momekova, K Edwards, S Konstantinov, S
Rangelov, Novel Polyglycidol-Lipid Conjugates Create a Stabilizing
Hydrogen-Bonded Layer around Cholesterol-Containing Dipalmitoyl
Phosphatidylcholine Liposomes, J.Drug Deliv.Sci.Technol.
29(2015)90.
1984
27. Exerowa, D., Lalchev, Z., Kashchiev, D., Stability of foam
lipid bilayers of amniotic fluid. Colloids and Surfaces, 10, 1,
1984, ISSN:1666622, 113 - 121
Цитира се в:
48. E.Parra, J. Perez-Gil, “Structure-function relationships and
mechanical properties of pulmonary surfactant membranes”,
Chem.Phys.Lipids 185(2015)153.
28. Penkov, I., Gutzow, I., Nucleation kinetics in a
glass-ceramic enamel. Journal of Materials Science, 19, 1, Kluwer
Academic Publishers, 1984, ISSN:222461, DOI:10.1007/BF00553013, 233
- 244. ISI IF:2.371
Цитира се в:
49. L. Vidal, E. Joussein, M. Colas, J. Absi, S. Rossignol,
Effect of the addition of ammonium molybdate on metakaolin-based
geopolymer formation: Shrinkage and crystallization, Powder
Technology 275 (2015) 211-219.
29. Markov, I., Milchev, A., "The effect of anharmonicity in
epitaxial interfaces. III. Energy, mean dislocation density and
mean strain?. Surface Science, 145, 3-Feb, 1984, ISSN:396028,
DOI:10.1016/0039-6028(84)90085-2, 313 - 328
Цитира се в:
50. Lupichev, L. N., Savin, A. V., & Kadantsev, V. N.
(2015). Topological Solitons. In Synergetics of Molecular Systems
(pp. 53-121). Springer International Publishing.
1985
30. Milchev, A. Monte Carlo study of a lattice gas model with
non-additive lateral interactions. , 1985
Цитира се в:
51. Pinto, O. A., Pasinetti, P. M., Ramirez-Pastor, A. J., &
Nieto, F. D. (2015). The adsorption of a mixture of particles with
non-additive interactions: a Monte Carlo study. Physical Chemistry
Chemical Physics, 17(5), 3050-3058.
31. Stoychev, D., Tomov, I., Vitanova, I., Recovery and
recrystallization of electrodeposited bright copper coatings at
room temperature. I. Microhardness in relation to coating
structure. Journal of Applied Electrochemistry, 15, 6, Kluwer
Academic Publishers, 1985, ISSN:0021891X, DOI:10.1007/BF00614363,
879 - 886. ISI IF:2.409
Цитира се в:
52. Yazhou Zhang, Guifu Ding, Hong Wang, Ping Cheng,
Microstructure of Electrodeposited Cu Micro-cylinders in
High-Aspect-Ratio Blind Holes and Crystallographic Texture of the
Cu
-
page 8/165
Overburden Film, Journal of Materials Science & Technology,
in press 2015
53. М. Г. Георгиева, “Безтоково отлагане на медни композитни
покрития върху полимерни подложки”, Дисертация, “Доктор”, ИФХ-БАН,
София (Юли, 2015 г.).
32. Tomov, I., Stoychev, D., Vitanova, I., Recovery and
recrystallization of electrodeposited bright copper coatings at
room temperature. II. X-ray investigation of primary
recrystallization. Journal of Applied Electrochemistry, 15, 6,
Kluwer Academic Publishers, 1985, ISSN:0021891X,
DOI:10.1007/BF00614364, 887 - 894. ISI IF:2.409
Цитира се в:
54. М. Г. Георгиева,“Безтоково отлагане на медни композитни
покрития върху полимерни подложки”, Дисертация, “Доктор”, ИФХ-БАН,
София (Юли, 2015 г.)
33. Markov, I., Milchev, A., Theory of epitaxy in a Frank-van
der Merwe model with anharmonic interactions. Thin Solid Films,
126, 2-Jan, 1985, ISSN:406090, DOI:10.1016/0040-6090(85)90179-8, 83
- 93
Цитира се в:
55. Lupichev, L. N., Savin, A. V., Kadantsev, V. N. (2015).
Topological Solitons. In Synergetics of Molecular Systems (pp.
53-121). Springer International Publishing
34. Mirkova, L., Rashkov, St., Nanev, Chr., The levelling
mechanism during bright acid copper plating. Surface Technology,
15, 3, 1985, ISSN:3764583, DOI:10.1016/0376-4583(85)90060-3, 181 -
190
Цитира се в:
56. ABOUZEID, F. M., Influence of Vitamin C on Copper
Electrorefining from Acidic Solution of Copper Sulfate, Asian
Journal of Chemistry . 2015, Vol. 27 Issue 12, p4337-4343. 7p.
35. Gutzow, I., Kashchiev, D., Avramov, I., Nucleation and
crystallization in glass-forming melts: Olds problems and new
questions. Journal of Non-Crystalline Solids, 73, 3-Jan, 1985,
ISSN:223093, DOI:10.1016/0022-3093(85)90370-9, 477 - 499
Цитира се в:
57. Rozwadowski, T., Massalska-Arodź, M., Kolek, A., Grzybowska,
K., Bak, A., Chedowska, K., Kinetics of cold crystallization of
4-cyano-3-fluorophenyl 4-butylbenzoate (4cfpb) glass forming liquid
crystal. i. nonisothermal process as studied by microscopic,
calorimetric, and dielectric methods, Crystal Growth and Design ,
15 ( 6 ) (2015) pp. 2891 - 2900
1986
36. Kashchiev, D. Hole-mediated stability and permeability of
bilayers. , 1986
Цитира се в:
58. R Todorov, Thin liquid films in biomedical studies,
Curr.Opin.Colloid Interface Sci. 20(2015)130.
37. Milchev, A. Fluctuations and lack of self-averaging in the
kinetics of domain growth. , 1986
Цитира се в:
59. Gazit, Snir. "Dynamics and Conductivity Near Quantum
Criticality." Dynamics Near Quantum Criticality in Two Space
Dimensions. Springer International Publishing, 2015. 15-
-
page 9/165
34.
60. Bonati, Claudio, Massimo D'Elia, and Aurora Scapellato. "Θ-
dependence in SU (3) Yang-Mills theory from analytic continuation."
arXiv preprint arXiv:1512.01544 (2015).
61. Velonakis, Ioannis N. "Efficient energy cumulants for the
Baxter-Wu model." Physica A: Statistical Mechanics and its
Applications 422 (2015): 153-166.
62. Estimator, A. "Probability Densities in Complex Systems,
Measuring." MLA, APA, Harvard, Chicago, Vancouver (2015).
38. Milchev, A. Finite-size scaling analysis of the �4 field
theory on the square lattice. , 1986
Цитира се в:
63. Kaupuzs, J. (2015). Critical two-point correlation functions
and" equation of motion" in the phi^ 4 model. arXiv preprint
arXiv:1511.05764.
39. Exerowa, D., Lalchev, Z., Bilayer and multilayer foam films:
Model for study of the alveolar surface and stability. Langmuir, 2,
5, 1986, ISSN:7437463, 668 - 671
Цитира се в:
64. Parra, E., Pérez-Gil, J., Composition, structure and
mechanical properties define performance of pulmonary surfactant
membranes and films, Chemistry &Physics of Lipids, 185, pp.
153-175 (2015)
65. Todorov, R., Thin liquid films in biomedical studies,
Current Opinion in Colloid and Interface Science 20 (2), pp.
130-138 (2015)
40. Exerowa, D., Lalchev, Z., Marinov, B., Ognyanov, K., Method
for assessment of fetal lung maturity. Langmuir, 2, 5, 1986,
ISSN:7437463, 664 - 668
Цитира се в:
66. Todorov, R., Thin liquid films in biomedical studies,
Current Opinion in Colloid and Interface Science 20 (2), pp.
130-138 (2015)
1987
41. Exerowa, D., Kolarov, T., Khristov, Khr., Direct measurement
of disjoining pressure in black foam films. I. Films from an ionic
surfactant. Colloids and Surfaces, 22, 2, 1987, ISSN:1666622,
DOI:10.1016/0166-6622(87)80218-4, 161 - 169
Цитира се в:
67. Danov, K.D., Kralchevsky, P.A., Radulova, G.M., Basheva,
E.S., Stoyanov, S.D., Pelan, E.G., Shear rheology of mixed protein
adsorption layers vs their structure studied by surface force
measurements, Advances in Colloid and Interface Science, 222, pp.
148-161 (2015)
68. Peng, T., Peng, K., Li, Q., Methodology for disjoining
pressure of free water nanofilms, Journal of Physical Chemistry C,
119 (25), pp. 14273-14280 (2015)
69. Zhang, Y., Sharma, V. Domain expansion dynamics in
stratifying foam films: Experiments, Soft Matter, 11 (22), pp.
4408-4417 (2015)
70. Feng, H., Ershov, D., Krebs, T., Schroen, K., Cohen Stuart,
M.A., Van Der Gucht, J., Sprakel, J., Manipulating and quantifying
temperature-triggered coalescence with microcentrifugation, Lab on
a Chip - Miniaturisation for Chemistry and Biology 15 (1), pp.
188-194 (2015)
-
page 10/165
71. Schelero, N., von Klitzing, R., Ion specific effects in foam
films, Current Opinion in Colloid and Interface Science 20 (2), pp.
124-129 (2015)
1988
42. Milchev, A. Monte-Carlo simulation of the Cahn-Hillard model
of spinodal decomposition. , 1988
Цитира се в:
72. Zheng, X., Yang, C., Cai, X. C., & Keyes, D. (2015). A
parallel domain decomposition-based implicit method for the
Cahn-Hilliard-Cook phase-field equation in 3D. Journal of
Computational Physics, 285, 55-70.
73. Sibatov, R. T., & Svetukhin, V. V. (2015). Subdiffusion
kinetics of nanoprecipitate growth and destruction in solid
solutions." Theoretical and Mathematical Physics 183.3 (2015):
846-859.
43. Michailov, M., Meyer, G., Henzler, M., LEED Studies of the
Epitaxy of Pb on Cu(111). SurfaceScience, 202, 20, ELSEVIER, 1988,
ISSN:ISSN: 0039-6028,
DOI:http://dx.doi.org/10.1016/0039-6028(88)90065-9, 125 - 141. ISI
IF:1.925
Цитира се в:
74. Wu, Ju, and Peng Jin. "Self-assembly of InAs quantum dots on
GaAs (001) by molecular beam epitaxy." Frontiers of Physics 10.1
(2015): 7-58.
75. Yuanyuan Chen, Xiangxiang Cui, Xin Yaoa, „Peritectic melting
of thin films, superheating and applications in growth of REBCO
superconductors“, Progress in Materials Science, Volume 68, March
2015, Pages 97–159
44. Stoyanov, S., Michailov, M., Non-steady state effects in
MBE: Oscillations of the step density at the crystal surface.
Surface Science, 202, 2-Jan, 1988, ISSN:396028,
DOI:10.1016/0039-6028(88)90064-7, 109 - 124
Цитира се в:
76. G. Koster, M. Huijben, A. Janssen, G. Rijnders, "Growth
studies of heteroepitaxial oxide thin films using reflection
high-energy electron diffraction (RHEED)" in: Epitaxial Growth of
Complex Metal Oxide, Edited by G. Koster, M. Huijben and G.
Rijnders, 2015, p. 3-29 Elsevier, ISBN 978-1-78242-255-6
77. Chencheng Xu, , Marco Moors, Regina Dittmann, "Impact of
cation stoichiometry on the early stage of growth of SrTiO3
deposited by pulsed laser deposition", Applied Surface Science,
Volume 359, 30 December 2015, Pages 68–72
45. Nedyalkov, M., Krustev, R., Kashchiev, D., Platikanov, D.,
Exerowa, D., Permeability of Newtonian black foam films to gas.
Colloid & Polymer Science, 266, 3, Steinkopff-Verlag, 1988,
ISSN:0303402X, DOI:10.1007/BF01452592, 291 - 296
Цитира се в:
78. L Saulnier, W Drenckhan, P-E Larre, C Anglade, D Langevin, E
Janiaud, E Rio, In situ measurement of the permeability of foam
films using quasi-two-dimensional foams, Coll.Surf. A
473(2015)32.
46. Avramov, I., Gutzow, I., Heating rate and glass transition
temperature. Journal of Non-Crystalline Solids, 104, 1, 1988,
ISSN:223093, DOI:10.1016/0022-3093(88)90194-9, 148 - 150
-
page 11/165
Цитира се в:
79. P. Grabowski, , J.L. Nowinski, K. Kwatek, High and low
temperature syntheses of AgI-AgPO3 glasses: Structural and thermal
studies, J. Non-Crystalline Solids 415, ( 2015), 51–56
47. Armyanov, S., Sotirova, G., Diffusion-elastic phenomena in
nickel and cobalt electrodeposits plated on to strip cathodes.
Surface and Coatings Technology, 34, 4, 1988, ISSN:2578972,
DOI:10.1016/0257-8972(88)90099-0, 441 - 454
Цитира се в:
80. Z. Zhao, L. Du, Quantitative relationship between
crystallite size and adhesion strength of the electroforming layer
during microelectroforming process, Micro & Nano Letters, 10,
64-66 (2015).
81. L. Du, Z. Tan, C. Song, Z. Zhao, Q. Li, P. Yin, Study on
internal stress in micro-electroformed layer, Key Engineering
Materials, 645, 178-183 (2015).
48. Avramov, I., Milchev, A., Effect of disorder on diffusion
and viscosity in condensed systems. Journal of Non-Crystalline
Solids, 104, 3-Feb, 1988, ISSN:223093,
DOI:10.1016/0022-3093(88)90396-1, 253 - 260
Цитира се в:
82. Novikov, V. N.; Sokolov, A. P., PHYSICAL REVIEW E, 92
(6):10.1103/ PhysRevE. 92.062304 DEC 14 2015
83. Hao, T., Physical Chemistry Chemical Physics , 17 ( 34 )
2015 pp. 21885 - 21893
84. Liu, WD; Zhang, LC, APPLIED OPTICS, 54 (22):6841-6849;
10.1364/ AO.54.006841 AUG 1 2015
85. Han, Y.-U., Min, D.J. Journal of the American Ceramic
Society Volume 98, Issue 8, 1 August 2015, Pages 2438-2444
86. M. Paula Longinotti, José A. Trejo González, Horacio R.
Corti, j.Cryobiol.84-90.05.00
87. Koštál, P., Málek, J., Pure and Applied Chemistry ,87 ( 3 )
2015 pp. 239 – 247
88. Mokshin, A.V., Galimzyanov, B.N., Journal of Chemical
Physics ,2015 142 ( 10 ) , art. no. 104502
89. Trejo González, J.A., Longinotti, M.P., Corti, H.R., Journal
of Physical Chemistry B Volume 119, Issue 1, 8 January 2015, Pages
257-262
90. V. Liu, L. Zhang, Applied Optics 54 (2015) 6841.
49. Milchev, A., Mazzucchelli, G.M., Frenkel-Kontorova model
with anharmonic interactions. Physical Review B, 38, 4, 1988,
ISSN:1631829, DOI:10.1103/PhysRevB.38.2808, 2808 - 2812
Цитира се в:
91. Pantic, M., Kandidat, J. T., Mali, P. Nelinearna dinamika u
okviru Frenkel-Kontorova modela pod dejstvom spolja snjih
periodicnih sila. PhD Thesis, University of Novi Sad, Serbia, 2015
Scholar Google citation
1989
50. Gutzow, I., Zlateva, E., Angelov, S., Levy, S., Structure
and properties of thermoluminescent calcium fluoride glass-ceramic
materials. Journal of Materials Science, 24, 4, Kluwer Academic
Publishers,
-
page 12/165
1989, ISSN:222461, DOI:10.1007/BF00553154, 1281 - 1286. ISI
IF:2.371
Цитира се в:
92. M. Rodriguez Chialanza, R. Keuchkerian, A. Cárdenas, A.
Olivera, S. Vazquez, R. Faccio, J. Castiglioni, J. F. Schneider, L.
Fornaro, Correlation between structure, crystallization and
thermally stimulated luminescence response of some borate glass and
glass-ceramics, Journal of Non-Crystalline Solids 427 (2015)
191-198.
51. Popov, A., Dimitrov, N., Kashchiev, D., Vitanov, T.,
Budevski, E., A model of the structural transformation processes in
lead adsorbate on Ag(111) faces at low coverages. Electrochimica
Acta, 34, 2, 1989, ISSN:134686, DOI:10.1016/0013-4686(89)87096-3,
269 - 271
Цитира се в:
93. MP Mercer, D Plana, DJ Fermin, DJ Morgan, N Vasiljevic,
Growth of epitaxial Pt1-x Pbx alloys by Surface Limited Redox
Replacement and study of their adsorption properties, Lanfmuir
31(2015)10904.
52. Sotirova, G., Sarnev, S., Armyanov, S., "Evolution of the
included hydrogen, internal stress, microhardness and
microstructure of electrodeposited cobalt?. Electrochimica Acta,
34, 8, 1989, ISSN:134686, DOI:10.1016/0013-4686(89)87164-6, 1237 -
1242
Цитира се в:
94. D. K. Singh, M. K. Tripathi, V.B. Singh, Electrolytic
Preparation of Ni-B C Composite Coating and its Characterization,
J. Mater. Engin. & Perform., 24, 1213-1219 (2015).
53. Kolarov, T., Cohen, R., Exerowa, D., Direct measurement of
disjoining pressure in black foam films II. Films from nonionic
surfactants. Colloids and Surfaces, 42, 1, 1989, ISSN:1666622,
DOI:10.1016/0166-6622(89)80076-9, 49 - 57
Цитира се в:
95. Peng, T., Peng, K., Li, Q., Methodology for disjoining
pressure of free water nanofilms, Journal of Physical Chemistry C
119 (25), pp. 14273-14280 (2015)
54. Obreten, W., Kashchiev, D., Bostanov, V., Unified
description of the rate of nucleation-mediated crystal growth.
Journal of Crystal Growth, 96, 4, 1989, ISSN:220248,
DOI:10.1016/0022-0248(89)90644-1, 843 - 848
Цитира се в:
96. AJ Shahani, EB Gulsoy, VJ Roussochatzakis, JW Gibbs, JL
Five, PW Voorhees, The dynamics of coarsening in highly anisotropic
systems: Si particles in Al–Si liquids, Acta Materialia
97(2015)325.
1990
55. Milchev, A., Breakup threshold of solitons in systems with
nonconvex interactions. Physical Review B, 42, 10, 1990,
ISSN:1631829, DOI:10.1103/PhysRevB.42.6727, 6727 - 6729
Цитира се в:
97. Archilla, J. F. R., Kosevich, Y. A., Jimenez, N.,
Sanchez-Morcillo, V. J., Garcia-Raffi, L. M. (2015). Ultradiscrete
kinks with supersonic speed in a layered crystal with realistic
potentials. Physical Review E, 91(2), 022912.
-
page 13/165
98. J. F. R. Archilla, Yuriy A. Kosevich, Noé Jiménez, Víctor J.
Sánchez-Morcillo, Luis M. García-Raffi "A supersonic crowdion in
mica: Ultradiscrete kink with energy between 40 K recoil and
transmission sputtering." arXiv preprint arXiv:1505.00900
(2015).
99. Lupichev, L. N., Savin, A. V., Kadantsev, V. N. (2015).
Topological Solitons. In Synergetics of Molecular Systems (pp.
53-121). Springer International Publishing.
100. Archilla, J. F., Kosevich, Y. A., Jimenez, N.,
Sanchez-Morcillo, V. J., & Garcia-Raffi, L. M. (2015). A
supersonic crowdion in mica. arXiv preprint arXiv:1505.00900.
56. Radoev,B.P., Alexandrova,L.B., Tchaljovska, S.D. On the
kinetics of froth flotation International Journal of Mineral
Processing. Journal of Mineral Processing, 28, 1990, 127 - 138. ISI
IF:1.31
Цитира се в:
101. Asghar, A., Ahmad, H., Behnam, F.,Investigating the
first-order flotation kinetics models for Sarcheshmeh copper
sulfide ore, International Journal of Mining Science and
Technology, 25 ( 5 ), 2015, pp. 849 - 854 .
57. Schmelzer, J., Pascova, R., Gutzow, I. Cluster Growth and
Ostwald Ripening in Viscoelastic Media. physica status solidi (a),
117, 2, Wiley, 1990, ISSN:1862-6300, DOI:10.1002/pssa.2211170205,
363 -375. ISI IF:1.616
Цитира се в:
102. Kellermann, G., Gorgeski, A., Craievich, A.F., Montoro,
L.A., Determination of the melting and freezing temperatures of Pb
nanoparticles embedded in a PbO-B2O3-SnO2 glass by using only the
SAXS method, Journal of Applied Crystallography 48 (2015) pp.
520-527, doi:10.1107/S1600576715002976
1991
58. Kashchiev, D. Advances in Industrial Crystallization. ,
1991
Цитира се в:
103. RD Davis, S Lance, JA Gordon, MA Tolbert, A
long-working-distance optical trap for in-situ analysis of
contact-induced phase transformations, Analyt.Chem.
87(2015)6186.
104. W Li, N Liao, X Duan, C Pei, X Zhou, Investigation of
nucleation kinetics and crystal defects of HMX, Cryst.Res.Technol.
50(2015)505.
59. D?nweg, B., Milchev, A., Rikvold, P.A., A model for
adsorption of O on Mo(110): Phase transitions with nonuniversal
behavior. The Journal of Chemical Physics, 94, 5, 1991,
ISSN:219606, 3958 - 3973
Цитира се в:
105. Kundu, J., & Rajesh, R. (2015). Asymptotic behavior of
the isotropic-nematic and nematic-columnar phase boundaries for the
system of hard rectangles on a square lattice. Physical Review E,
91(1), 012105.
106. Kundu, J., & Rajesh, R. (2015). Phase transitions in
systems of hard rectangles with non-integer aspect ratio. The
European Physical Journal B, 88(5), 1-6.
107. Kundu, J. (2015). Phase Transitions in systems of hard
anisotropic particles on lattices [HBNI Th82].
108. Kundu, Joyjit, Juergen F. Stilck, and R. Rajesh. "Phase
diagram of a bidispersed hard rod lattice gas in two dimensions."
arXiv preprint arXiv:1510.07375 (2015).
-
page 14/165
60. Avramov, I., Influence of disorder on viscosity of
undercooled melts. The Journal of Chemical Physics, 95, 6, 1991,
ISSN:219606, 4439 - 4443
Цитира се в:
109. Grzybowska, K; Grzybowski, A; Pawlus, S; Pionteck, J;
Paluch, M, PHYSICAL REVIEW E, 91 (6):10.1103/PhysRevE.91.062305 JUN
15 2015
61. Kashchiev, D., Verdoes, D., van Rosmalen, G.M., Induction
time and metastability limit in new phase formation. Journal of
Crystal Growth, 110, 3, 1991, ISSN:220248,
DOI:10.1016/0022-0248(91)90273-8, 373 - 380
Цитира се в:
110. X.F.Lv, B.H.Shi, Y.Wang, Y.X.Tang, L.Y.Wang, J.Gong,
“Experimental Study on Hydrate Induction Time of Gas-Saturated
Water-in-Oil Emulsion using a High-Pressure Flow Loop”, Oil Gas
Sci.Technol.-Rev.IFP Energ.Nouv. 70(2015)1111.
111. E.Spangenberg, M.Priegnitz, K.Heeschen, J.M.Schicks, “Are
Laboratory-Formed Hydrate-Bearing Systems Analogous to Those in
Nature?”, J.Chem.Eng.Data 60(2015)258.
112. F.Zou, W.Zhuang, J.Wu, J.Zhou, P.Yang, Q.Liu, Y.Chen,
H.Ying, “Determination of metastable zone widths and the primary
nucleation and growth mechanisms for the crystallization of
disodium guanosine 5′-monophosphate”, Industr.Eng.Chem.Res.
54(2015)137.
113. G.M.Maggioni, M.Mazzotti, “Modelling the stochastic
behaviour of primary nucleation”, Farad.Discuss. 179(2015)359.
114. N Kubota, Analysis of the effect of volume on induction
time and metastable zone width using a stochastic model,
J.Cryst.Growth 418(2015)15.
115. S.Veesler, Puel, “Crystallization of Pharmaceutical
Crystals,”, in: “Handbook of Crystal Growth”, Ed. T.Nishinaga,
Elsevier, Amsterdam, 2015, p.915.
116. D Rossi, A Gavriilidis, S Kuhn, MA Candel, AG Jones, C
Price, L.Mazzei, Adipic acid primary nucleation kinetics from
probability distributions in droplet-based systems under stagnant
and flow conditions, Cryst.Growth Des. 15(2015)1784.
117. H Kakati, A Mandal, S Laik, Phase Stability and Kinetics of
CH4+ CO2+ N2 Hydrates in Synthetic Seawater and Aqueous Electrolyte
Solutions of NaCl and CaCl2, J.Chem.Eng.Data 60(2015)1835.
118. W Li, N Liao, X Duan, C Pei, X Zhou, Investigation of
nucleation kinetics and crystal defects of HMX, Cryst.Res.Technol.
50(2015)505.
119. H Li, PROCESS MEASUREMENTS AND KINETICS OF UNSEEDED BATCH
COOLING CRYSTALLIZATION, Ph.D.Thesis, Georgia Institute of
Technology, Atlanta (GA), 2015.
120. Q Yuan, Z Lu, P Zhang, X Luo, X Ren, TD Golden, Study of
the synthesis and crystallization kinetics of magnesium hydroxide,
Mater.Chem.Phys. 162(2015)734.
121. N Candoni, Z Hammadi, R Grossier, M Ildefonso, S Zhang, R
Morin, S Veesler, Addressing the Stochasticity of Nucleation:
Practical Approaches, in: “Advances in Organic Crystal Chemistry”,
Eds. Springer, Tokyo, 2015, p.95.
122. D Zhu, X Zhou, B Zheng, A Double Emulsion-Based,
Plastic-Glass Hybrid Microfluidic Platform for Protein
Crystallization, Micromachines 6(2015)1629.
123. S Zhang, Approche Microfluidique Polyvalente de la
Cristallisation, Ph.D.Thesis, Universite d’Aix-Marseille,
Marseille, 2015.
-
page 15/165
124. NER Zimmermann, B Vorselaars, D Quigley, B Peters,
Nucleation of NaCl from Aqueous Solution: Critical Sizes,
Ion-Attachment Kinetics, and Rates, J.Am.Chem.Soc.
137(2015)13352.
125. J Song, M-W Li, H-W Yin, Study on the induction period and
nucleation characteristics of ZTS solution with different
concentration of EDTA, J.Synth.Cryst.(China) 44(2015)2330.
1992
62. Milchev, A., Fraggis, T., Formation of cracks from kinks in
a Frenkel-Kontorova model with anharmonic interactions. Physical
Review B, 45, 18, 1992, DOI:10.1103/PhysRevB.45.10348, 10348
-10355. ISI IF:3.66
Цитира се в:
126. Lupichev, Lev N., Alexander V. Savin, and Vasiliy N.
Kadantsev. "Topological Solitons." In Synergetics of Molecular
Systems, pp. 53-121. Springer International Publishing, 2015.
63. Exerowa, D., Kashchiev, D., Platikanov, D., Stability and
permeability of amphiphile bilayers. Advances in Colloid and
Interface Science, 40, C, 1992, ISSN:18686,
DOI:10.1016/0001-8686(92)80077-B, 201 - 256
Цитира се в:
127. D Langevin, Bubble coalescence in pure liquids and in
surfactant solutions, Curr.Opin.Colloid Interface Sci.
20(2015)92.
128. G Gochev, Thin Liquid Films Stabilized by Polymers and
Polymer/Surfactant Mixtures, Curr.Opin.Colloid Interface Sci.
20(2015)115.
129. EA Disalvo, OA Pinto, MF Martini, AM Bouchet, A Hollmann,
MA Frias, Functional Role of Water in Membranes Updated: A Tribute
to Trauble, Biochim.Biophys.Acta - Biomembranes 1848(2015)1552.
64. Verdoes, D., Kashchiev, D., van Rosmalen, G.M.,
Determination of nucleation and growth rates from induction times
in seeded and unseeded precipitation of calcium carbonate. Journal
of Crystal Growth, 118, 4-Mar, 1992, ISSN:220248,
DOI:10.1016/0022-0248(92)90089-2, 401 - 413
Цитира се в:
130. F.Zou, W.Zhuang, J.Wu, J.Zhou, P.Yang, Q.Liu, Y.Chen,
H.Ying, “Determination of metastable zone widths and the primary
nucleation and growth mechanisms for the crystallization of
disodium guanosine 5′-monophosphate”, Industr.Eng.Chem.Res.
54(2015)137.
131. G.Ilevbare, P.Marsac, A.Mitra, “Performance and
Characterization of Amorphous Solid Dispersions: An Overview”, in:
“Discovering and Developing Molecules with Optimal Drug-Like
Properties”, Eds. A.C.Templeton et al., Springer, New York, 2015,
p.287.
132. CMS Figueiredo, AGB Junior, EM Flaten, R Beck, M Seiersten,
Crystal growth of FeCO3 in mixed monoethylene glycol and water,
Cryst.Res.Technol. 50(2015)354.
65. van der Leeden, M.C., Kashchiev, D., Van Rosmalen, G.M.,
Precipitation of barium sulfate: Induction time and the effect of
an additive on nucleation and growth. Journal of Colloid And
Interface Science, 152, 2, 1992, ISSN:219797,
DOI:10.1016/0021-9797(92)90036-L, 338 - 350
Цитира се в:
133. H.Wu, Z.Dong, H.Li, M.A.Khan, “An Integrated Process
Analytical Technology (PAT)
-
page 16/165
Approach for Pharmaceutical Crystallization Process
Understanding to Ensure Product Quality and Safety”, Org.Process
Res.Develop. 19(2015)89.
134. C Yan, AT Kan, F Zhang, Y Liu, RC Tomson, MB Tomson,
Systematic study of barite nucleation and inhibition with various
polymeric scale inhibitors by novel laser apparatus, SPE J.
20(2015)642.
66. Iliev, I., Atanasov, P., Gamburzev, S., Kaisheva, A.,
Tonchev, V., Transient response of electrochemical biosensors with
asymmetrical sandwich membranes. Sensors and Actuators: B.
Chemical, 8, 1, 1992, ISSN:9254005,
DOI:10.1016/0925-4005(92)85010-T, 65 - 72
Цитира се в:
135. F. Garay, How low does the oxygen concentration go within a
sandwich-type amperometric biosensor? Part 2: theory for PPO
biosensors, Sensors and Actuators B: Chemical 207, Part A, February
2015, 581-587.
67. Stoychev, D., Vitanova, I., Bujukliev, R., Petkova, N.,
Popova, I., Pojarliev, I., Effect of some dialkyl-, diaryl-, and
diarylalkyl-disulphide derivatives on copper electrodeposition.
Journal of Applied Electrochemistry, 22, 10, Elsevier, 1992, 978 -
986. ISI IF:2.409
Цитира се в:
136. Г. А. Ходжаоглу, “Селективно извличане на цветни метали от
полиметални електролити”, Дисертация, “Доктор”, ИФХ-БАН, София
(Октомври, 2015 г.).
68. Stoychev, D., Vitanova, I., Buyukliev, R., Petkova, N.,
Popova, I., Pojarliev, I., Effect of the structure of aromatic
disulphides on some physico-mechanical properties of
electrodeposited copper coatings. Journal of Applied
Electrochemistry, 22, 10, Elsevier, 1992, ISSN:0021-891X, 987 -
990. ISI IF:2.409
Цитира се в:
137. Г. А. Ходжаоглу, “Селективно извличане на цветни метали от
полиметални електролити”, Дисертация, “Доктор”, ИФХ-БАН, София
(Октомври, 2015 г.).
69. K. Bade, V. Tsakova, J.W. Schultze. Nucleation, growth and
branching of polyaniline from microelectrode experiments.
Electrochimica Acta, 1992
Цитира се в:
138. А.А. Daryakenari, A. Apostoluk, D. Aradilla, S. Sadki,
J.-J. Delaunay, Pulse electropolymerization synthesis of PPy(DBS)
nanoparticle layers, J. Solid State Electrochem. 19 (2015)
655-661.
139. S. Bhandari, D. Khastgir, Synergistic effect of dopant
combination and switchover in formation mechanism of polyaniline
nanowire, J. Appl. Polym. Sci. 132 (2015), Article number 4152.
140. A.E. Jiménez, A. Rossi, M. fantauzzi, T. Espinosa, J.
Arias-Pardilla, G. Martínez-Nicolás, M.D. Bermúdez, Surface coating
from phosphonate ionic liquid electrolyte for the enhancement of
the tribological performance of magnesium alloy, ACS Appl. Mater.
Interf. 7 (2015) 10337-10347
1993
70. Dobreva, A., Gutzow, I., Activity of substrates in the
catalyzed nucleation of glass-forming melts. II. Experimental
evidence. Journal of Non-Crystalline Solids, 162, 2-Jan, Elsevier,
1993, ISSN:223093,
-
page 17/165
DOI:10.1016/0022-3093(93)90737-I, 13 - 25. ISI IF:1.766
Цитира се в:
141. P. Ma, L. Jiang, P. Xu, W. Dong, M. Chen, P. J. Lemstra,
Rapid Stereocomplexation between Enantiomeric Comb-Shaped
Cellulose-g-poly(l-lactide) Nanohybrids and Poly(d-lactide) from
the Melt, Biomacromolecules 16, 11 (2015) 3723-3729
142. D. Hu, J. Chen, L. Zhao, T. Liu, Melting and non-isothermal
crystallization behaviors of polypropylene and
polypropylene/montmorillonite nanocomposites under pressurized
carbon dioxide, Thermochimica Acta 617 (2015) 65-75
143. S. Sadeghi, A. Zehtab Yazdi, U. Sundararaj, Controlling
Short-Range Interactions by Tuning Surface Chemistry in
HDPE/Graphene Nanoribbon Nanocomposites, Journal of Physical
Chemistry B 119, 35 (2015) 11867-11878
144. P. Ma, Y. Xu, T. Shen, W. Dong, M. Chen, P. J. Lemstra,
Tailoring the crystallization behavior of poly(L-lactide) with
self-assembly-type oxalamide compounds as nucleators: 1. Effect of
terminal configuration of the nucleators, European Polymer Journal
70 (2015) 400-411
145. G. Z. Papageorgiou, Z. Terzopoulou, V. Tsanaktsis, D. S.
Achilias, K. Triantafyllidis, E. K. Diamanti, D. Gournis, D. N.
Bikiaris, Effect of graphene oxide and its modification on the
microstructure, thermal properties and enzymatic hydrolysis of
poly(ethylene succinate) nanocomposites, Thermochimica Acta 614
(2015) 116-128
146. G. Dou, Q. Dou, Crystallization kinetics, spherulitic
morphology, mechanical properties and heat resistance of
β-nucleated impact-resistant propylene-ethylene copolymer,
Thermochimica Acta 614, art. no. 77258 (2015) 21-32
147. Q. Lv, D. Wu, Y. Qiu, J. Chen, X. Yao, K. Ding, N. Wei,
Crystallization of Poly(ε-caprolactone) composites with graphite
nanoplatelets: Relations between nucleation and platelet thickness,
Thermochimica Acta 612 (2015) 25-33
148. C. J. Perez, V. A. Alvarez, Non-isothermal crystallization
of biodegradable polymer (MaterBi)/polyolefin (PP)/hemp fibres
ternary composites, Journal of Thermal Analysis and Calorimetry
120, 2 (2015) 1445-1455
149. G. S. Deshmukh, D. R. Peshwe, S. U. Pathak, J. D. Ekhe,
Nonisothermal crystallization kinetics and melting behavior of poly
(butylene terephthalate) and calcium carbonate nanocomposites,
Thermochimica Acta 606, art. no. 77166 (2015) 66-76.
150. M. S. Abdel Aziz, G. R. Saad, H. F. Naguib, Non-isothermal
crystallization kinetics of poly(3-hydroxybutyrate) in
copoly(ester-urethane) nanocomposites based on
poly(3-hydroxybutyrate) and cloisite 30B, Thermochimica Acta 605
(2015) 52-62
151. X. Dai, Z. Zhang, C. Chen, M. Li, Y. Tan, K. Mai,
Non-isothermal crystallization kinetics of montmorillonite filled
β-isotactic polypropylene nanocomposites, Journal of Thermal
Analysis and Calorimetry 121, 2, art. no. 4635 (2015) 829-838
152. G. Xu, K. Min, Nonisothermal Crystallization and Melting
Behavior of EVA/OMWNTs Nanocomposites, Polymer - Plastics
Technology and Engineering 54, 4 (2015) 390-401
153. W. Shichao, X. Hengxue, W. Renlin, Z. Zhe, Z. Meifang,
Influence of amorphous alkaline lignin on the crystallization
behavior and thermal properties of bacterial polyester, Journal of
Applied Polymer Science 132, 4, art. no. 41325 (2015).
154. M. Naffakh, P. S. Shuttleworth, G. Ellis, Bio-based polymer
nanocomposites based on nylon 11 and WS2 inorganic nanotubes, RSC
Advances 5, 23 (2015) 17879-17887
155. R. Sharma, S. N. Maiti, Effects of SEBS-g-MA copolymer on
non-isothermal crystallization kinetics of polypropylene, Journal
of Materials Science 50, 1 (2015) 447-456
-
page 18/165
156. L. Guo, F. Chen, Y. Zhou, X. Liu, W. Xu, The influence of
interface and thermal conductivity of filler on the nonisothermal
crystallization kinetics of polypropylene/natural protein fiber
composites, Composites Part B: Engineering 68 (2015) 300-309
157. E. Roumeli, N. Nianias, M. Filippousi, A. Avgeropoulos, K.
Chrissafis, G. Z. Papageorgiou, D. N. Bikiaris, Combined and
distinct contributions of different carbon nano-forms in
polypropylene, Macromolecular Materials and Engineering 300, 6
(2015) 611-626
71. Dobreva, A., Gutzow, I., Activity of substrates in the
catalyzed nucleation of glass-forming melts. I. Theory. Journal of
Non-Crystalline Solids, 162, 2-Jan, Elsevier, 1993, ISSN:223093,
DOI:10.1016/0022-3093(93)90736-H, 1 - 12. ISI IF:1.766
Цитира се в:
158. E. Roumeli, N. Nianias, M. Filippousi, A. Avgeropoulos, K.
Chrissafis, G. Z. Papageorgiou, D. N. Bikiaris, Combined and
distinct contributions of different carbon nano-forms in
polypropylene, Macromolecular Materials and Engineering 300, 6
(2015) 611-626.
159. R. Sharma, S. N. Maiti, Effects of SEBS-g-MA copolymer on
non-isothermal crystallization kinetics of polypropylene, Journal
of Materials Science 50, 1 (2015) 447-456.
160. K. Rinawa, S. N. Maiti, R. Sonnier, J.-M. Lopez Cuesta,
Non-isothermal crystallization kinetics and thermal behaviour of
PA12/SEBS-g-MA blends, Bulletin of Materials Science 38, 5 (2015)
1315-1327.
161. S. Biswas, B. Dutta, S. Bhattacharya, Correlation between
nucleation, phase transition and dynamic melt-crystallization
kinetics in PAni/PVDF blends, RSC Advances 5, 91 (2015)
74486-74498
162. G. Z. Papageorgiou, Z. Terzopoulou, V. Tsanaktsis, D. S.
Achilias, K. Triantafyllidis, E. K. Diamanti, D. Gournis, D. N.
Bikiaris, Effect of graphene oxide and its modification on the
microstructure, thermal properties and enzymatic hydrolysis of
poly(ethylene succinate) nanocomposites, Thermochimica Acta 614
(2015) 116-128.
163. H. Liu, J. Ma, J. Gong, J. Xu, The effect of Pglass state
on the non-isothermal cold and melt crystallization processes of
PET matrix, Thermochimica Acta 613 (2015) 1-8.
164. Q. Lv, D. Wu, Y. Qiu, J. Chen, X. Yao, K. Ding, N. Wei,
Crystallization of Poly(ε-caprolactone) composites with graphite
nanoplatelets: Relations between nucleation and platelet thickness,
Thermochimica Acta 612 (2015) 25-33.
165. G. S. Deshmukh, D. R. Peshwe, S. U. Pathak, J. D. Ekhe,
Nonisothermal crystallization kinetics and melting behavior of poly
(butylene terephthalate) and calcium carbonate nanocomposites,
Thermochimica Acta 606, art. no. 77166 (2015) 66-76.
166. X. Dai, Z. Zhang, C. Chen, M. Li, Y. Tan, K. Mai,
Non-isothermal crystallization kinetics of montmorillonite filled
β-isotactic polypropylene nanocomposites, Journal of Thermal
Analysis and Calorimetry 121, 2, art. no. 4635 (2015) 829-838
167. L. Guo, F. Chen, Y. Zhou, X. Liu, W. Xu, The influence of
interface and thermal conductivity of filler on the nonisothermal
crystallization kinetics of polypropylene/natural protein fiber
composites, Composites Part B: Engineering 68 (2015) 300-309.
168. W. Shichao, X. Hengxue, W. Renlin, Z. Zhe, Z. Meifang,
Influence of amorphous alkaline lignin on the crystallization
behavior and thermal properties of bacterial polyester, Journal of
Applied Polymer Science 132, 4, art. no. 41325 (2015).
169. M. Naffakh, P. S. Shuttleworth, G. Ellis, Bio-based polymer
nanocomposites based on nylon 11 and WS2 inorganic nanotubes, RSC
Advances 5, 23 (2015) 17879-17887
72. Schmelzer, J., Pascova, R., Möller, J., Gutzow, I.,
Surface-induced devitrification of glasses: the
-
page 19/165
influence of elastic strains. Journal of Non-Crystalline Solids,
162, 2-Jan, 1993, ISSN:223093, DOI:10.1016/0022-3093(93)90738-J, 26
- 39. SJR:0.753, ISI IF:1.766
Цитира се в:
170. Liu, S., Tao, H., Zhang, Y., & Yue, Y. ,
Reduction‐Induced Inward Diffusion and Crystal Growth on the
Surfaces of Iron‐Bearing Silicate Glasses, Journal of the American
Ceramic Society, 98(6) (2015) 1799-1806.
171. Powell, C. T., Xi, H., Sun, Y., Gunn, E., Chen, Y., Ediger,
M. D., Yu, L., Fast Crystal Growth in o-Terphenyl Glasses: A
Possible Role for Fracture and Surface Mobility. The Journal of
Physical Chemistry B, 119(31) (2015) 10124-10130.
172. Zhang, W., Brian, C. W., Yu, L., Fast Surface Diffusion of
Amorphous o-Terphenyl and Its Competition with Viscous Flow in
Surface Evolution, J. Phys. Chem. B, 2015, 119 (15), pp 5071–5078,
DOI: 10.1021/jp5127464.
173. Hasebe, M., Musumeci, D., Yu, L., Fast Surface
Crystallization of Molecular Glasses: Creation of Depletion Zones
by Surface Diffusion and Crystallization Flux. The Journal of
Physical Chemistry B, 119(7)(2015) 3304-3311, DOI:
10.1021/jp512400c.
73. Gutzow, I., Dobreva, A., Schmelzer, J., Rheology of
non-Newtonian glass-forming melts - Part I Flow-stress relations.
Journal of Materials Science, 28, 4, Kluwer Academic Publishers,
1993, ISSN:222461, DOI:10.1007/BF00400871, 890 - 900. ISI
IF:2.371
Цитира се в:
174. S.-H. Shin, D.-W. Yoon, J-W. Cho, S.-H. Kim, Controlling
shear thinning property of lime silica based mold flux system with
borate additive at 1623 K, Journal of Non-Crystalline Solids 425
(2015) 83-90.
74. van der Leeden, M.C., Kashchiev, D., van Rosmalen, G.M.,
"Effect of additives on nucleation rate, crystal growth rate and
induction time in precipitation?. Journal of Crystal Growth, 130,
2-Jan, 1993, ISSN:220248, DOI:10.1016/0022-0248(93)90855-Q, 221 -
232
Цитира се в:
175. G.Ilevbare, P.Marsac, A.Mitra, “Performance and
Characterization of Amorphous Solid Dispersions: An Overview”, in:
“Discovering and Developing Molecules with Optimal Drug-Like
Properties”, Eds. A.C.Templeton et al., Springer, New York, 2015,
p.287.
176. CJ McMulkin, M Massi, F Jones, Tetrazoles: Calcium oxalate
crystal growth modifiers, Cryst.Eng.Comm. 17(2015)2675.
75. Michailova, E., Vitanova, I., Stoychev, D., Milchev, A.,
Initial stages of Copper Electrodeposition in presence of organic
additives. Electrochimica Acta, 38, 16, Elsevier, 1993,
DOI:10.1016/0013-4686(93)85116-G, 2455 - 2458. ISI IF:4.504
Цитира се в:
177. E. M. Dela Pena, N. Bains, A. Hussain, A. Cobley & S.
Roy, Effect of additive concentration during copper deposition
using EnFACE electrolyte, Transactions of the IMF: The
International Journal of Surface Engineering and Coatings Volume
93, Issue 6, pp. 288-293 2015
178. Г. А. Ходжаоглу, “Селективно извличане на цветни метали от
полиметални електролити”, Дисертация, “Доктор”, ИФХ-БАН, София
(Октомври, 2015 г.).
76. S. A. Armyanov, G. S. Sotirova-Chakarova. Internal Stress in
Electrodeposited Cobalt, Nickel and
-
page 20/165
Their Alloys: Part II. Metal Finishing, 91, 3, Elsevier, 1993,
ISSN:0026-0576, 42 - 49
Цитира се в:
179. K. Ignatova, D. Lilova, I. Piroeva, Effect of organic
additives in citrate electrolyte on the properties of Ni-Co alloy,
J. Chemical Technology & Metallurgy, 50 (3), 299-307
(2015).
1994
77. Kashchiev, D. Crystallization and critical supercooling of
disperse liquids. , 1994
Цитира се в:
180. WA Glasoe, K Volz, B Panta, N Freshour, R Bachman, DR
Hanson, PH McMurry, C Jen, Sulfuric acid nucleation: An
experimental study of the effect of seven bases,
J.Geophys.Res.Atmos. 120(2015)1933.
78. Ludwig, FP, Schmelzer, J., Milchev, A., Spinodal
decomposition in adiabatically closed systems: A possible key for
the understanding of its general scenario. Phase Transitions: A
Multinational Journal, 48, 4, 1994, DOI:10.1080/01411599408213216,
237 - 253. ISI IF:0.95
Цитира се в:
181. Krasnyuk, I. B., Taranets, R. M., Chugunova, M. (2015).
Long-time oscillating properties of confined disordered binary
alloys. J. Adv. Res. Appl. Math, 7(2), 1-16.
79. Nanev, C. N., Instability of faceted crystal shapes and
their transformation into skeletons during growth under diffusion
control. , 1994
Цитира се в:
182. Mark D Eddleston , Katarzyna E Hejczyk , Andrew Martin
Cassidy , Hugh P. G. Thompson , Graeme M. Day , and William Jones,
Highly Unusual Triangular Crystals of Theophylline: The Influence
of Solvent on the Growth Rates of Polar Crystal Faces, Cryst.
Growth Des., 15(5) 2514-2523, 2015.
80. I. Avramov, Ts. Vassilev. STRUCTURAL RELAXATION OF
POLY(METHYL METHACRYLATE). Polymers & Polymer Composites, 2,
1994, ISSN:1478-2391, 241 - 264. ISI IF:1
Цитира се в:
183. Ondreas, F., Jancar, J., Macromolecules Volume 48, Issue
13, 14 July 2015, Pages 4702-4716
81. Milchev, A. Polymer chains confined into tubes with
attractive walls: A Monte Carlo simulation. , 1994
Цитира се в:
184. Kurganov, Alexander A., Frantisek Svec, and Anastasiia Yu
Kanateva. "Flow induced conformational transitions of
macromolecules and their effect on chromatographic separations."
Polymer 60 (2015): A1-A18.
185. Wang, X., Tang, M., & Wang, Y. (2015). Equilibrium
Distribution of Semiflexible Polymer Chains between a Macroscopic
Dilute Solution Phase and Small Voids of Cylindrical Shape.
Macromolecular Theory and Simulations, 24(5), 490-499.
82. N. Krasteva, V. Fotty, S. Armyanov. Thermal Stability of
Ni-P and Ni-Cu-P Amorphous Alloys.
-
page 21/165
Journal of the Electrochemical Society, 141, 10, The
Electrochemical Society, Inc., 1994, ISSN:0013-4651, 2864 - 2867.
ISI IF:3.266
Цитира се в:
186. K. Dhanapal, V. Narayanan, A. Stephen, Effect of phosphorus
on magnetic property of Ni–P alloy synthesized using pulsed
electrodeposition, Materials Chemistry and Physics, 166, 153-159
(2015)
83. Michailova, E., Peykova, M., Stoychev, D., Milchev, A., On
the role of surface active agents in the nucleation step of metal
electrodeposition on a foreign substrate. JOURNAL OF
ELECTROANALYTICAL CHEMISTRY, 366, 1-2, Elsevier, 1994,
DOI:10.1016/0022-0728(93)03228-H, 195 - 202. ISI IF:2.729
Цитира се в:
187. İ.H. Karahan, Effect of Borax Pentahydrate Addition to Acid
Bath on the Microstructure and Corrosion Resistance of Zn-Co
Coating, ACTA PHYSICA POLONICA A Volume: 128 Issue: 2B Pages:
B432-B435, 2015
84. Lazarov, D., Alexandrova,L., Nishkov, I., Effect of
temperature on the kinetics of froth flotation. Minerals
Engineering, 7, 1994, 503 - 509. ISI IF:1.714
Цитира се в:
188. Albrecht, T.W.J., Addai-Mensah, J., Fornasiero, D.Critical
copper concentration in sphalerite flotation: Effect of temperature
and collector, International Journal of Mineral Processing, 146,
2016, pp. 15-22.
85. 1. Alexandrova, L. ( ИФХ/0025 ) 2. Nedjalkov, M. 3.
Platikan, Nedialkova, T., Nishkov,I.,Electroflotation of metal ions
in waste water. , 41, 1994, 285 - 294. ISI IF:1.31
Цитира се в:
189. Ksentini, I., Hmidi, K., Hajlaoui, N., Ben Mansour, L. The
effect of temperature on the efficiency of wastewater treatment by
electroflotation process supplied by solar energy 6th International
Renewable Energy Congress, IREC 2015, 7110901
86. Milchev, A. Anomalous diffusion and relaxation of collapsed
polymer chains. , 1994
Цитира се в:
190. 1. Goswami, M., Borreguero, J. M., & Sumpter, B. G.
(2015). Self-assembly and structural relaxation in a model ionomer
melt. The Journal of chemical physics, 142(8), 084903.
87. Jansen, J.C., Kashchiev, D., Erdem-Senatalar, A.,
Preparation of Coatings of Molecular Sieve Crystals for Catalysis
and Separation. Studies in Surface Science and Catalysis, 85, C,
1994, ISSN:1672991, DOI:10.1016/S0167-2991(08)60769-7, 215 -
250
Цитира се в:
191. C.Atalay-Oral, S.Bora, M.Tatlier, “Effects of Using
Different Polymers in Post-Synthesis Treatments of Zeolite a
Coatings”, Chem.Eng.Comm. 202(2015)375.
192. S Mandal, HL Williams, HK Hunt, Techniques for microscale
patterning of zeolite-based thin films, Micropor.Mesopor.Mater.
203(2015)245.
88. Oxtoby, D.W., Kashchiev, D., A general relation between the
nucleation work and the size of the nucleus in multicomponent
nucleation. The Journal of Chemical Physics, 100, 10, 1994,
ISSN:219606,
-
page 22/165
7665 - 7671
Цитира се в:
193. Chr.N.Nanev, “Theory of Nucleation”, in: “Handbook of
Crystal Growth”, Ed. T.Nishinaga, Elsevier, Amsterdam, 2015,
p.315.
194. P.G.Vekilov, “Nucleation and Growth Mechanisms of Protein
Crystals”, in: “Handbook of Crystal Growth”, Ed. T.Nishinaga,
Elsevier, Amsterdam, 2015, p.795.
195. A Kurten, T Jokinen, M Simon, M Sipila, N Samela, Neutral
molecular cluster formation of sulfuric acid–dimethylamine observed
in real time under atmospheric conditions, Proc.Natnl.Acad.Sci.USA
111(2015)15019.
196. MALJ Fransen, Experimental study of homogeneous water
nucleation in a pulse-expansion wave tube, Ph.D.Thesis, Eindhoven
University of Technology, Eindhoven, 2015.
1995
89. Mirkova, L., Monev, M., Krastev, I., Rashkov, St., A
rotating Disc Electrode Study of Zinc Electrodeposition from
Alkaline Zincate Solutions. Transactions of the Institute of Metal
Finishing, 73, 3, Maney Publishing, 1995, ISSN:0020-296, 107 - 110.
ISI IF:0.852
Цитира се в:
197. José Luis Ortiz-Aparicio, Y. Meas, Gabriel Trejo, Raúl
Ortega, Thomas W. Chapman, Eric Chainet, Electrodeposition of zinc
in the presence of quaternary ammonium compounds from alkaline
chloride bath, Journal of Applied Electrochemistry 45(1), 67-78,
2015.
90. Peykova, M., Michailova, E., Stoychev, D., Milchev, A.,
Galvanostatic Studiesof the Nucleation and Growth Kinetics of
Copper in the Presence of Surfactants. Electrochimica Acta, 40, 16,
Elsevier, 1995, ISSN:0013-4686, DOI:10.1016/0013-4686(95)00241-6,
2595 - 2601. SJR:1.288, ISI IF:4.504
Цитира се в:
198. Г. А. Ходжаоглу, “Селективно извличане на цветни метали от
полиметални електролити”, Дисертация, “Доктор”, ИФХ-БАН, София
(Октомври, 2015 г.).
91. Milchev, A. Monte Carlo study of living polymers with the
bond-fluctuation method. , 1995
Цитира се в:
199. Gupta, Vinod Kumar, et al. "Wormlike Micelles as Templates
for Rod-Shaped Nanoparticles: Experiments and Simulations."
Nanoscale and Microscale Phenomena. Springer India, 2015.
31-58.
92. Radeva, T., Electric Light Scattering of Ferric Oxide
Particles in Sodium Carboxymethylcellulose Solutions. Journal of
Colloid And Interface Science, 174, 2, 1995, ISSN:219797,
DOI:10.1006/jcis.1995.1403, 368 - 372
Цитира се в:
200. Zhivkov A.M., Hristov R.P., Adsorption of carboxymethyl
cellulose on alumina particles, J. Colloid and Interface Science
447, 159-166
93. Sedev, R., Kolarov, T., Exerowa, D., Surface forces in foam
films from ABA block copolymer: a dynamic method study. Colloid
& Polymer Science, 273, 9, Steinkopff-Verlag, 1995,
ISSN:0303402X, DOI:10.1007/BF00657642, 906 - 911
-
page 23/165
Цитира се в:
201. Angarska, J.K., Ivanova, D.S., Manev, E.D., Drainage of
foam films stabilized by nonionic, ionic surfactants and their
mixtures, Colloids and Surfaces A: Physicochemical and Engineering
Aspects, 481, pp. 87-99 (2015)
94. Krasteva, N., Armyanov, S., Georgieva, J., Avramova, N.,
Fotty, V., Thermal stability of electroless NiMeP amorphous alloys.
Journal of Electronic Materials, 24, 8, Springer-Verlag, 1995,
ISSN:3615235, DOI:10.1007/BF02652965, 941 - 946
Цитира се в:
202. U. Matik, R Cıtak, Influence of the heat treatment on
hardness and adhesive wear performance of Ni-P deposit with low
phosphorus content, Materials Testing, 57 (5) 431-436 (2015).
95. Schmelzer, J., Moeller, J., Gutzow, I., Pascova, R.,
Mueller, R., Pannhorst, W., Surface energy and structure effects on
surface crystallization. Journal of Non-Crystalline Solids, 183, 3,
Elsevier, 1995, ISSN:223093, 215 - 233. ISI IF:1.766
Цитира се в:
203. 13. Casasola, R., Pérez, J. M., & Romero, M, Crystal
Growth of F‐Phlogopite from Glasses of the SiO2–Al2O3–MgO–K2O–F
System, Journal of the American Ceramic Society, doi:
10.1111/jace.13995
96. Kashchiev, D. Science and Technology of Crystal Growth. ,
1995
Цитира се в:
204. P.G.Vekilov, “Nucleation and Growth Mechanisms of Protein
Crystals”, in: “Handbook of Crystal Growth”, Ed. T.Nishinaga,
Elsevier, Amsterdam, 2015, p.795.
97. Krastev, I., Koper, M.T.M., Pattern formation during the
electrodeposition of a silver-antimony alloy. Physica A:
Statistical Mechanics and its Applications, 213, 2-Jan, 1995,
ISSN:3784371, DOI:10.1016/0378-4371(94)00161-L, 199 - 208
Цитира се в:
205. DEBORAH LACITIGNOLA, BENEDETTO BOZZINI and IVONNE SGURA,
Spatio-temporal organization in a morphochemical electrodeposition
model: Hopf and Turing instabilities and their interplay, European
Journal of Applied Mathematics / Volume 26 / Issue 02 / April 2015,
pp 143-173
206. Kazuhiro Fukami, Tomoko Urata, Katharina Krischer, Naoya
Nishi, Tetsuo Sakka, Atsushi Kitada and Kuniaki Murase, Spontaneous
Formation of Microgroove Arrays on the Surface of p-Type Porous
Silicon Induced by a Turing Instability in Electrochemical
Dissolution, ChemPhysChem, Volume 16, Issue 8, pages 1613–1618,
June 8, 2015
207. B. Bozzini, G. Gambino, D. Lacitignola, S. Lupo, M.
Sammartino,I. Sgura, Weakly nonlinear analysis of Turing patterns
in a morphochemical model for metal growth, Computers and
Mathematics with Applications, Computers and Mathematics with
Applications 70 (2015) 1948–1969
1996
98. Avramov I., Thermochimica Acta. , 280, Elsevier, 1996,
ISSN:1872-762X, DOI:10.1016/j.tca.2015.12.002, 363 - 382.
SJR:2.184, ISI IF:2.184
-
page 24/165
Цитира се в:
208. Farahmandjou, M., Salehizadeh, S.A. Chalcogenide Letters 12
(2015) 619-531
99. Durschang, B. R., Carl, G., Rüssel, C., Gutzow, I.,
Influence of pressure and shear flow on the crystallization
behaviour of a glass melt based on the Li2Si2O5-composition.
Berichte der Bunsengesellschaft/Physical Chemistry Chemical
Physics, 100, 9, 1996, 1456 - 1458. ISI IF:4.493
Цитира се в:
209. A. V. Mokshin, B. N. Galimzyanov, Scaling law for crystal
nucleation time in glasses, Journal of Chemical Physics 142, 10
(2015) art. no. 104502
100. Stoychev, D., Tsvetanov, C., Behaviour of poly(ethylene
glycol) during electrodeposition of bright copper coatings in
sulfuric acid electrolytes. Journal of Applied Electrochemistry,
26, 7, 1996, ISSN:0021891X, 741 - 749
Цитира се в:
210. Dzieciuch M., Rissanen S, Szydłowska N, Bunker A, Kumorek
M, Jamróz D, Vattulainen I, Nowakowska M, Róg T, Kepczynski M,
PEGylated Liposomes as Carriers of Hydrophobic Porphyrins, JOURNAL
OF PHYSICAL CHEMISTRY B Volume: 119 Issue: 22 Pages: 6646-6657
Published: JUN 4 2015
211. Sun-Ah Park, Seon-Hong Kim, Yun-Ha Yoo, Jung-Gu Kim, Effect
of Chloride Ions on the Corrosion Behavior of Low-Alloy Steel
Containing Copper and Antimony in Sulfuric Acid Solution, METALS
AND MATERIALS INTERNATIONAL Volume: 21 Issue: 3 Pages: 470-478
Published: MAY 2015, Print ISSN1598-9623, Online ISSN 2005-4149
212. Survila, A, ELECTROCHEMISTRY OF METAL COMPLEXES:
APPLICATIONS FROM ELECTROPLATING TO OXIDE LAYER FORMATION Pages:
183-240 Published: 2015, Print ISBN: 9783527338771,Online ISBN:
9783527691241
213. Г. А. Ходжаоглу, “Селективно извличане на цветни метали от
полиметални електролити”, Дисертация, “Доктор”, ИФХ-БАН, София
(Октомври, 2015 г.).
101. Schmelzer, J., Gutzow, I., Mueller, J., Pascova, R.,
Surface induced devitrification of glasses: The influence of
elastic strains. Berichte der Bunsengesellschaft/Physical Chemistry
Chemical Physics, 100, 9, Wiley, 1996, ISSN:0940483X, 1431 - 1433.
ISI IF:0.1
Цитира се в:
214. D. Savytskii, B. Knorr, V. Dierolf, H. Jain, Laser-induced
growth of oriented Sb2S3 single crystal dots on the surface of
82SbSI–18Sb2S3 glasses, Journal of Non-Crystalline Solids 431
(2016) 36–40,
http://dx.doi.org/10.1016/j.jnoncrysol.2015.03.007
102. Milchev, A. Simulation studies on the dynamics of polymers
at interfaces. , 1996
Цитира се в:
215. Das, S., Banik, M., Chen, G., Sinha, S., & Mukherjee,
R. (2015). Polyelectrolyte brushes: theory, modelling, synthesis
and applications. Soft Matter, 11(44), 8550-8583.
103. Schmelzer, J.W.P., Gutzow, I., Schmelzer Jr. J.,
Curvature-dependent surface tension and nucleation theory. Journal
of Colloid and Interface Science, 178, 2, 1996, ISSN:219797,
DOI:10.1006/jcis.1996.0163, 657 - 665. ISI IF:3.368
Цитира се в:
216. J. Kalová, R. Mareš, Size Dependences of Surface Tension,
International Journal of
-
page 25/165
Thermophysics 36, 10-11 (2015) 2862-2868
217. H. Yan, H. Sun, X. Zhou, A molecular dynamics simulation
study of the Gibbs-Tolman-Koening-Buff equation, Journal of the
Korean Physical Society 67, 5 (2015) 813-817.
104. Petrova, M., Noncheva, Z., Dobrev, Ts., Rashkov, St.,
Kounchev, N., Petrov, D., Vlaev, St., Mihnev, V., Zarev, S.,
Georgieva, L., Buttinelli, D., "Investigation of the processes of
obtaining plastic treatment and electrochemical behaviour of lead
alloys in their capacity as anodes during the electro-extraction of
zinc I. Behaviour of Pb-Ag, Pb-Ca and PB-Ag-Ca alloys?.
Hydrometallurgy, 40, 3, 1996, ISSN:0304386X,
DOI:10.1016/0304-386X(95)00009-6, 293 - 318
Цитира се в:
218. Zhong, X.-C., Yu, X.-Y., Liu, Z.-W., Jiang, L.-X., Li, J.,
Liu, Y.-X., Comparison of corrosion and oxygen evolution behaviors
between cast and rolled Pb–Ag–Nd anodes, International Journal of
Minerals, Metallurgy and Materials, 22 (10), pp.
1067-1075,(2015)
219. He, S., Xu, R., Hu, G., Chen, B., Study on the
electrosynthesis of Pb-0.3%Ag/α-PbO2 composite inert anode
materials, Electrochemistry, 83 (11), pp. 974-978, (2015)
220. Li, J., Zhong, X.-C., Jiang, L.-X., Lv, X.-J., Liu, Y.-X.,
Influence of microstructure on the corrosion behavior of lead
alloys, Gongneng Cailiao/Journal of Functional Materials, 46 (5),
pp. 05026-05032, (2015)
221. Zhong, X., Jiang, L., Lü, X., Lai, Y., Li, J., Liu, Y.,
Effects of chloride ion on the electrochemical behavior of Pb-Ag-RE
alloy anode, Jinshu Xuebao/Acta Metallurgica Sinica, 51 (3), pp.
378-384, (2015)
222. Aromaa, J., Barker, M. H., Forsén, O., Hyvärinen, O.,
Lagerbom, J., Osara, K., Vuoristo, P., Determining the
Electrochemical Activity of Spray Coated Anodes in Sulfuric Acid,
DOI: 10.13140/RG.2.1.2276.3683, (2015)
105. Atanassova, S., Neykov, K., Gutzow, I., Solubility,
inhibited growth and dissolution kinetics of calcium oxalate
crystals in solutions, containing α-ketoglutaric acid?. Journal of
Crystal Growth, 160, 2-Jan, Elsevier, 1996, ISSN:220248, 148 - 153.
ISI IF:1.698
Цитира се в:
223. S. Saha, R. J. Verma, Evaluation of hydro-alcoholic extract
of Dolichos biflorus seeds on inhibition of calcium oxalate
crystallization, Journal of Herbal Medicine 5, 1 (2015) 41-47.
106. Rashkov, St., Stefanov, Y., Noncheva, Z., Petrova, M.,
Dobrev, Ts., Kunchev, N., Petrov, D., Vlaev, St., Mihnev, V.,
Zarev, S., Georgieva, L., Buttinelli, D., "Investigation of the
processes of obtaining plastic treatment and electrochemical
behaviour of lead alloys in their capacity as anodes during the
electro-extraction of zinc II. Electrochemical formation of phase
layers on binary Pb-Ag and Pb-Ca, and. Hydrometallurgy, 40, 3,
1996, ISSN:0304386X, DOI:10.1016/0304-386X(95)00010-E, 319 -
334
Цитира се в:
224. Hui, HUANG, Ji-Yu, ZHOU, Bu-Ming, CHEN, Zhong-Cheng, GUO,
Polyaniline anode for zinc electrowinning from sulfate
electrolytes, Transactions of Nonferrous Metals Society of China,
20 (1), pp. s288–s292, (2015)
225. ZHANG, Y. C., CHEN, B. M., YANG, H. T., GUO, Z. C., &
XU, R. D., Anodic behavior and microstructure of Al/Pb-Ag anode
during zinc electrowinning, Transactions of Nonferrous Metals
Society of China, 24(3), (2015)
226. Aromaa, J., Barker, M. H., Forsén, O., Hyvärinen, O.,
Lagerbom, J., Osara, K., Vuoristo, P., Determining the
Electrochemical Activity of Spray Coated Anodes in Sulfuric Acid,
DOI: 10.13140/RG.2.1.2276.3683, (2015)
-
page 26/165
227. Yang Jian, Chen Buming, Shuai, Guo Zhongcheng, Effect of
chloride ion concentration of lead-zinc aluminum alloy composite
β-PbO2 anode particles accumulating behavior, Applied Chemistry, 32
(8), pp. 955-962, (2015)
228. Yang, J., Chen, B.-M., Hang, H., Guo, Z.-C., Wang, S.,
“Effect of rolling technologies on the properties of
Pb-0.06wt%Ca-1.2wt%Sn alloy anodes during copper electrowinning”,
International Journal of Minerals, Metallurgy and Materials, 22
(11), pp. 1205-1211, (2015)
229. Zhong, X.-C., Yu, X.-Y., Liu, Z.-W., Jiang, L.-X., Li, J.,
Liu, Y.-X., “Comparison of corrosion and oxygen evolution behaviors
between cast and rolled Pb–Ag–Nd anodes”, International Journal of
Minerals, Metallurgy and Materials, 22 (10), pp.
1067-1075,(2015)
230. Jaimes, R., Miranda-Hernández, M., Lartundo-Rojas, L.,
González, I., “Characterization of anodic deposits formed on Pb-Ag
electrodes during electrolysis in mimic zinc electrowinning
solutions with different concentrations of Mn(II)”,
Hydrometallurgy, 156, pp. 53-62, (2015)
231. Li, J., Zhong, X.-C., Jiang, L.-X., Lv, X.-J., Liu, Y.-X.,
“Influence of microstructure on the corrosion behavior of lead
alloys”, Gongneng Cailiao/Journal of Functional Materials, 46 (5),
pp. 05026-05032, (2015)
232. Peng, ZHAN, Rui-Dong, XU, Li-Ping, HUANG, Bu-Ming, CHEN,
Jian-Feng, ZHOU, Effects of polyaniline on electrochemical
properties of composite inert anodes used in zinc electrowinning,
Transactions of Nonferrous Metals Society of China, 22(7),
(2015)
107. Milchev, A., Binder, K., Static and dynamic properties of
adsorbed chains at surfaces: Monte Carlo simulation of a
bead-spring model. Macromolecules, 29, 1, 1996, ISSN:249297, 343 -
354
Цитира се в:
233. Effect of CO2 on a Mobility Gradient of Polymer Chains near
an Impenetrable Solid, Naisheng Jiang,Levent Sendogdular,Xiaoyu
Di,Mani Sen,Peter Gin,Maya K. Endoh,Tadanori Koga,Bulent
Akgun,Michael Dimitriou,Sushil Satija,, Macromolecules, 2015, 48
(6), pp 1795-1803
234. Scaling of Polymer Dynamics at an Oil-Water Interface in
Regimes Dominated by Viscous Drag and Desorption-Mediated Flights,
Dapeng Wang,, Renfeng Hu,, Joshua N. Mabry,, Bing Miao, David T.
Wu, Kaloian Koynov,, and Daniel K. Schwartz, J. Am. Chem. Soc.,
2015, 137 (38), pp 12312-12320
235. Stripe to slab confinement for the linearization of
macromolecules in nanochannels Zuzana Benkova, Pavol Namera and
Peter Cifra, Soft Matter, 2015,11, 2279-2289
236. Steady-state propagation speed of rupture fronts along
one-dimensional frictional interfaces David Skalid Amundsen, Jorgen
Kjoshagen Tromborg, Kjetil Thogersen, Eytan Katzav, Anders
Malthe-Sorenssen, and Julien Scheibert, Phys. Rev. E 92, 032406,
2015
237. Critical adsorption of a flexible polymer on a
stripe-patterned surface, Hong Li, Bin Gong, Chang-Ji Qiana and
Meng-Bo Luo, Soft Matter, 2015,11, 3222-3231
238. Scaling Behavior of Polymers at Liquid/Liquid Interfaces,
Tseden Taddese,, David L. Cheung,, and Paola Carbone, ACS Macro
Lett., 2015, 4 (10), pp 1089-1093
239. Steady-state propagation speed of rupture fronts along
one-dimensional frictional interfaces David Skalid Amundsen, Jorgen
Kjoshagen Tromborg, Kjetil Thogersen, Eytan Katzav, Anders
Malthe-Sorenssen, and Julien Scheibert, arXiv.org > physics >
arXiv:1509.01542
108. Milchev, A., Binder, K., Dynamics of polymer chains
confined in slit-like pores. Journal de Physique II, 6, 1, 1996,
ISSN:11554312, 21 - 31
Цитира се в:
240. Goicochea, Armando Gama, and Elias Perez. "Scaling law of
the disjoining pressure reveals
-
page 27/165
two dimensional structure of polymeric fluids." arXiv preprint
arXiv:1503.02724 (2015).
241. Goicochea, Armando Gama, and Elias Perez. "Scaling Law of
the Disjoining Pressure Reveals 2D Structure of Polymeric Fluids."
Macromolecular Chemistry and Physics 216.10 (2015): 1076-1080.
1997
109. Penkov, I., Pascova, R., Drangajova, I., A new glass
ceramic material with high resistance to molten aluminium. Journal
of Materials Science Letters, 16, Chapman & Hall, 1997,
ISSN:0261-8028, DOI:10.1023/A:1018543712851, 1544 - 1546. ISI
IF:0.711
Цитира се в:
242. Adabifiroozjaei, E., Koshy, P., Sorrell, C.C., Assessment
of non-wetting materials for use in refractories for aluminium
melting furnaces, Journal of the Australian Ceramic Society 51 (1),
pp. 139-145
243. Kumar, M.S., Perumal, A.E., Vijayaram, T.R., Senguttuvan,
G., Processing and characterization of pure cordierite and
zirconia-doped cordierite ceramic composite by precipitation
technique, Bulletin of Materials Science 38 (3)(2015) pp.
679-688
110. Milchev, A. Crossover dynamics for polymer simulation in
porous media. , 1997
Цитира се в:
244. Shanbhag, Sachin. "Size of a polymer chain in an
environment of quenched chains." Journal of Polymer Science Part B:
Polymer Physics 53, no. 22 (2015): 1611-1619.
245. Kuriata, Aleksander, and Andrzej Sikorski. "Computer
Simulation of Cyclic Polymers in Disordered Media." Computational
Methods in Science and Technology 21 (2015).
111. Gutzow, I., Rüssel, C., Durschang, B., Crystallization of
glass forming melts under hydrostatic pressure and shear stress.
Part II Flow induced melt crystallization: A new method of
nucleation catalysis. Journal of Materials Science, 32, 20, 1997,
ISSN:222461, 5405 - 5411. ISI IF:2.371
Цитира се в:
246. A. V. Mokshin, B. N. Galimzyanov, Scaling law for crystal
nucleation time in glasses Journal of Chemical Physics 142, 10
(2015) art. no. 104502
112. Milchev, A. A Monte Carlo study of living polymers in a
confined geometry. , 1997
Цитира се в:
247. Gupta, V. K., Duttagupta, S., Chhatre, A., Mehra, A., &
Thaokar, R. (2015). Wormlike Micelles as Templates for Rod-Shaped
Nanoparticles: Experiments and Simulations. In Nanoscale and
Microscale Phenomena (pp. 31-58). Springer India.
113. Gutzow, I., Durschang, B., Rüssel, C., Crystallization of
glassforming melts under hydrostatic pressure and shear stress:
Part I Crystallization catalysis under hydrostatic pressure:
Possibilities and limitations. Journal of Materials Science, 32,
20, 1997, ISSN:222461, 5389 - 5403. ISI IF:2.371
Цитира се в:
248. K. Adrjanowicz, K. Kaminski, M. Paluch, K. Niss,
Crystallization Behavior and Relaxation Dynamics of Supercooled
S-Ketoprofen and the Racemic Mixture along an Isochrone, Crystal
Growth and Design 15, 7 (2015) 3257-3263
-
page 28/165
249. F. Al Mansour, N. Karpukhina, S. Grasso, R. M. Wilson, M.
J. Reece, M. J. Cattell, The effect of spark plasma sintering on
lithium disilicate glass-ceramics, Dental Materials 31, 10 (2015)
e226-e235
114. Nanev, C.N., Polyhedral instability - Skeletal and
dendritic growth. Progress in Crystal Growth and Characterization
of Materials, 35, 1, 1997, ISSN:9608974, 1 - 26
Цитира се в:
250. Xin Sun, Xiaojing Liu, Xijin Xu, Ping Sun, Jinghua Guo,
Kinetics of LPP crystal nucleation and interface morphology
studies, Optik - International Journal for Light and Electron
Optics, in press, doi:10.1016/j.ijleo.2015.11.028, 2015.
115. Armyanov, S., Vitkova, S., Blajiev, O., Internal stress and
magnetic properties of electrodeposited amorphous Fe-P alloys.
Journal of Applied Electrochemistry, 27, 2, 1997, ISSN:0021891X,
185 - 191
Цитира се в:
251. F. Safizadeh, E. Ghali, G. Houlachi, Electrocatalysis
developments for hydrogen evolution reaction in alkaline solutions
– A Review, Internat. J. Hydr. Energy, 40 (1) 256-274 (2015).
252. U. Sarac, M. C. Baykul, Y, Uguz, Differences observed in
the phase structure, grain size–shape, and coercivity field of
electrochemically deposited Ni–Co thin films with different Co
contents, J. Superconductivity & Novel Magnetism, 28, 3105-3110
(2015).
116. Yamakov, V., Milchev, A., Polymer chain in a flow through a
porous medium: A Monte Carlo simulation. Physical Review E, 56, 6,
1997, DOI:http://dx.doi.org/10.1103/PhysRevE.56.7043, ISI
IF:2.288
Цитира се в:
253. Khalilian, H. Fazli, H. (2015). Obstruction enhances the
diffusivity of self-propelled rod-like particles. arXiv preprint
arXiv:1508.02077.
117. Gutzow, I., Dobreva, A., Rüssel, C., Durschang, B.,
Kinetics of vitrification under hydrostatic pressure and under
tangential stress. Journal of Non-Crystalline Solids, 215, 3-Feb,
1997, ISSN:223093, 313 -319. ISI IF:1.766
Цитира се в:
254. J. W. P. Schmelzer, T. V. Tropin, Kinetic criteria of
glass-formation, pressure dependence of the glass-transition
temperature, and the Prigogine-Defay ratio, Journal of
Non-Crystalline Solids 407 (2015) 170-178
118. Milchev, A., Binder, K., Dewetting of thin polymer films
adsorbed on solid substrates: A Monte Carlo simulation of the early
stages. Journal of Chemical Physics, 106, 5, 1997, ISSN:219606,
1978 - 1989
Цитира се в:
255. Zhang, Jun, et al. "Molecular insight into nanoscale water
films dewetting on modified silica surfaces." Physical Chemistry
Chemical Physics 17.1 (2015): 451-458.
256. Cheng, Gang, and Dvora Perahia. "Dewetting and microphase
separation in symmetric polystyrene-block-polyisoprene diblock
copolymer ultrathin films." Polymer International (2015).
257. Thiele, U. Entnetzung von Kollagen lmen.
119. Rouault, Y, Milchev, A., A Monte Carlo lattice study of
living polymers in a confined geometry. Macromolecular theory and
simulations, 6, 6, 1997, DOI:10.1002/mats.1997.040060609, 1177 -
1190.
-
page 29/165
ISI IF:1.667
Цитира се в:
258. Gupta, V. K., Duttagupta, S., Chhatre, A., Mehra, A.,
Thaokar, R. (2015). Wormlike Micelles as Templates for Rod-Shaped
Nanoparticles: Experiments and Simulations. In Nanoscale and
Microscale Phenomena (pp. 31-58). Springer India.
120. Milchev, A. Diffusion of a polymer chain in porous media. ,
1997
Цитира се в:
259. Hu, Y., He, L., Han, X., Wang, M., & Yin, Y. (2015).
Magnetically responsive photonic films with high tunability and
stability. Nano Research, 8(2), 611-620.
260. Shanbhag, S. (2015). Size of a polymer chain in an
environment of quenched chains. Journal of Polymer Science Part B:
Polymer Physics, 53(22), 1611-1619.
261. Kuriata, Aleksander, and Andrzej Sikorski. "Computer
Simulation of Cyclic Polymers in Disordered Media." Computational
Methods in Science and Technology 21 (2015).
262. CHEN, J. X., ZHENG, Q., HUANG, C. Y., XU, J. R., &
YING, H. P. (2015). Dynamics of Nano-Chain Diffusing in Porous
Media. Chin. Phys. Lett. 32(06), 68701.
1998
121. Schmelzer, J., Möller, J., Gutzow, I., Ostwald's rule of
stages: The effect of elastic strains and external pressure.
Zeitschrift fur Physikalische Chemie, 204, 1-2, 1998, 171 - 181.
ISI IF:1.356
Цитира се в:
263. W.-B. Zhang, S. Z. D. Cheng, Toward rational and modular
molecular design in soft matter engineering, Chinese Journal of
Polymer Science (English Edition) 33 (6) (2015) 797-814
122. Monev, M., Mirkova, L., Krastev, I., Tsvetkova, Hr.,
Rashkov, St., Richtering, W., Effect of brighteners on hydrogen
evolution during zinc electroplating from zincate electrolytes.
Journal of Applied Electrochemistry, 28, 10, 1998, ISSN:0021891X,
1107 - 1112
Цитира се в:
264. José Luis Ortiz-Aparicio, Y. Meas, Gabriel Trejo, Raúl
Ortega, Thomas W. Chapman, Eric Chainet, Electrodeposition of zinc
in the presence of quaternary ammonium compounds from alkaline
chloride bath, Journal of Applied Electrochemistry 45(1) · January
2015
123. Stoychev, D., On the role of poly(ethylene glycol) in
deposition of galvanic copper coatings. Transactions of the
Institute of Metal Finishing, 76, 2, 1998, ISSN:202967, 73 - 80
Цитира се в:
265. Survila, Arvydas Book Author(s): Survila, A Electrochemical
Deposition of Alloys ELECTROCHEMISTRY OF METAL COMPLEXES:
APPLICATIONS FROM ELECTROPLATING TO OXIDE LAYER FORMATION Pages:
183-240 Published: 2015
124. Kashchiev, D., Sato, K., Kinetics of crystallization
preceded by metastable-phase formation. Journal of Chemical
Physics, 109, 19, 1998, ISSN:219606, DOI:10.1063/1.477519, 8530 -
8540
Цитира се в:
266. Investigation of a microfluidic approach to study very high
nucleation rates involved in
-
page 30/165
precipitation processes Y Vitry, S Técheyné, S Charton, F
Lamadie, B Biscans, Chem.Eng.Sci. 133(2015)54.
125. Milchev, A., Binder, K., A polymer chain trapped between
two parallel repulsive walls: A Monte-Carlo test of scaling
behavior. European Physical Journal B, 3, 4, 1998, ISSN:14346028,
477 - 484
Цитира се в:
267. Vargas-Lara, Fernando, et al. "Dimensional reduction of
duplex DNA under confinement to nanofluidic slits." Soft matter
11.42 (2015): 8273-8284.
268. Steinschulte, Alexander A., et al. "Interface-enforced
complexation between copolymer blocks." Soft matter 11.18 (2015):
3559-3565.
269. Hammer, Yosi, and Yacov Kantor. "Long polymers near wedges
and cones." Physical Review E 92.6 (2015): 062602.
126. Kashchiev, D., Kaneko, N., Sato, K., Kinetics of
crystallization in polydisperse emulsions. Journal of Colloid and
Interface Science, 208, 1, 1998, ISSN:219797,
DOI:10.1006/jcis.1998.5760, 167 - 177
Цитира се в:
270. J Wu, E Gagniere, F Jay, C Jallut, Population balance
modeling for the charging process of a PCM cold energy storage
tank, Intern.J.Heat Mass Transfer 85(2015)647.
271. E Wardhono, JL Lanoiselle, D Clausse, Prediction of the
Amount of Ice Formation in the Water Dispersed Phase of a W/O
Emulsion, Mod.Appl.Sci. 9(2015)169.
272. RP Yadav, B Kumari, Ultrasonic Studies on Mustard Oil: A
Critical Review, Int.J.Sci.Res. 4(2015)517.
273. S Zhang, Approche Microfluidique Polyvalente de la
Cristallisation, Ph.D.Thesis, Universite d’Aix-Marseille,
Marseille, 2015.
127. Gutzow, I., Pascova, R., Karamanov, A., Schmelzer, J., The
kinetics of surface induced sinter crystallization and the
formation of glass-ceramic materials. Journal of Materials Science,
33, 21, 1998, ISSN:222461, 5265 - 5273. ISI IF:2.371
Цитира се в:
2