Operando Soft X ray Spectroscopy of Nanoparticulate H ematite Film Using UHV Electrochemical Flow Cell Dr. Debajeet K. BORA, Laboratory for High Performance Ceramics Empa. Swiss Federal Laboratories for Materials Science & Technology, 8600 Dubendorf, Switzerland 1
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Operando Soft X ray Spectroscopy of
Nanoparticulate Hematite Film
Using UHV Electrochemical Flow Cell
Dr. Debajeet K. BORA, Laboratory for High Performance Ceramics
Empa. Swiss Federal Laboratories for Materials Science & Technology, 8600
Dubendorf, Switzerland
1
• Jinghua Guo , ALS, LBNL
• Artur Braun, Empa
• Per – Anders Glans, ALS, LBNL
• AXIS group members, ALS
• ALS support groups members, LBNL
• Dunwei Wang, Boston College
• Chun Du, Boston College
• Juan Valesco Valez, MSD, LBNL
LDRD: Soft X-Ray Spectroscopy for In-situ ElectronicStructure Study of Artificial Photosynthesis
Acknowledgements
2
Outline
• Motivation
• Introduction
• How the operando spectroscopy helps in finding the role of electron hole in PEC system – a brief overview
• Snapshots of in – situ advanced absorption chember – BL 6.3.1.2, ALS, LBNL
• First generation electrochemical flow cell
• How we can make a sustainable operando condition
Answer : Deisgn of new In-Situ Electrochemical Flow cell
• In-Situ XAS study on nanoparticulate n- type hematite film
deposited with Atomic Layer deposition
• O K and Fe L edge NEXAFS spectroscopy – hematite electronic structure during photoelectrochemical condition
• Conclusion 3
Motivation
• To study the electronic structure of nanoparticulate
hematite under artificial photosynthetic condition
• How we can employ electrochemistry inside the soft X ray
absorption chamber
• Focus is to built an in - situ electrochemical flow cell
which allows better control of chamber pressure with
good signal to noise ratio for the detector
• To increase the experimental feasibility for running higher
cycle of CV in order to have more informaiton during
operando condition
• To reproduce the two electronic transitions obtained in
earlier operando study with n- type hematite doped with
Si
• To relate soft x ray spectrosocpy results with charge
transfer chacracterisics4
.
h
h'
UnoccupiedMOs
OccupiedMOs
O 1s
Inte
nsi
ty (
a.u)
540535530525520515
Energy (eV)
XASXES
4a1
2b2
3a1
1b2
1b1
Soft X ray absorption spectroscopyPhotoelectrochemisty
SC- electrolyte interface Hematite Electronic structure
Introduction
5
How the operando spectroscopy helps in finding the role of
electron - hole in PEC system – a brief overview
6
First direct observation of molecular glance of watersplitting reaction
Artur Braun et. al., J. Phys. Chem. C, 2012, 116 (32), pp 16870–168757
Cell under illumination from solar simulator
8
Sequence of O1s NEXAFS spectra vs. V and h
Ref: Artur Braun et. al., J. Phys. Chem. C, 2012, 116 (32), pp 16870–16875 9
10
Snapshots of in – situ advanced absorption chember
(ISAAC) at BL 6.3.1.2, ALS, LBNL
First generation electrochemical flow cell
P. Jiang et. Al., Electrochem. Comm. 12, 820–822 (2010) 11
12
How we can make a sustainable operando condition?
Answer : Deisgn of new In-Situ Electrochemical Flow cell
Bora et. al., Rev. Sci. Instrum. 85, 043106 (2014)
Construction of the flow cell
13Bora et. al., Rev. Sci. Instrum. 85, 043106 (2014)
UHV testing of the flow cell
14Bora et. al., Rev. Sci. Instrum. 85, 043106 (2014)
15
Electrochemial experiment with theUHV flow cell
Bora et. al., Rev. Sci. Instrum. 85, 043106 (2014)
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