Transcript
copy1300
Theoretical Exploration of
Protein Liquid Crystal
Multi port fitment - can be used for nutrient addition
gas exhaustfoam trap acid
addition media filling inoculation
1L Disposable bioreactor bag
Sampling port
Thermal Jacket
Perfusion connection
Connection for pH T or DO probe with aseptic connector Easy drain connector
Frame Lock
Frame
Frame Lock
Closed Reactor Magnetic Stirring
USB Data Control Unit
Frame Frame
Transmission Coupler
Magnetic Agitator
Single-use Bioreactor
Disposable Vessel
1 Liter Desktop
Thermal Liquid Frame
Magnetic Stirring
Hayden3246
IP All Rights 2011
CleanCase
Access Panel
Hinge
Bubble Jet
Sparger
H20 Port H20 Port
GLYCERINE 2XR
Live cell
Bioreactor
Loom Port
Fore
Aft
Continuous Seine Pharmaceutical Protein Liquid Crystal Bulk Cycle Bioreactor Loom
CLONE STAGE
LOOP
INDUCTION
EXHAUST
CLEAN ASSEMBLY
RECEPTION INJECTION
GLYCERINE XR100L
BIOLOOM
SOUP
GOOP
COIL
BATH
STUFF BLOOM DANCE
HARVEST
PROGRAM
PRANCE
BASE
MIX
MOLECULAR FORGE
Hayden3246
IP All Rights 2011
Production Research Facility Layout
Biophysics of Electron Transfer and Molecular Bioelectronics
This comprehensive guide to the biophysics of metalloproteins and the mechanisms of charge transfer through systems involving them aims to outline a summary of scientific results obtained by the world-wide research in recent years The volume appears at a time of significant progress within the field when technologies derived from it are granted central recognition for their role in the development of biotechnology electronics and material sciences
Content Level raquo Research Related subjects raquo Atomic Molecular Optical amp Plasma Physics - Biochemistry amp Biophysics - Optical amp Electronic Materials
Optical modeling of liquid crystal biosensors Hwang DK Rey AD Source Department of Chemical Engineering McGill University 3610 University Street Montreal Quebec H3A 2B2 Canada Abstract Optical simulations of a liquid crystal biosensor device are performed using an integrated opticaltextural model based on the equations of nematodynamics and two optical methods the Berreman optical matrix method [J Opt Soc Am 62 502 (1972)] and the discretization of the Maxwell equations based on the finite difference time domain (FDTD) method Testing the two optical methods with liquid crystal films of different degrees of orientational heterogeneities demonstrates that only the FDTD method is suitable to model this device Basic substrate-induced texturing process due to protein adsorption gives rise to an orientation correlation function that is nearly linear with the transmitted light intensity providing a basis to calibrate the device The sensitivity of transmitted light to film thickness protein surface coverage and wavelength is established A crossover incident light wavelength close to lambda(co) approximately 500 nm is found such that when lambdagtlambda(co) thinner films are more sensitive to the amount of protein surface coverage while for lambdaltlambda(co) the reverse holds In addition it is found that for all wavelengths the sensitivity increases with the amount of protein coverage The integrated device model based on FDTD optical simulations in conjunction with the Landau-de Gennes nematodynamics model provides a rational basis for further progress in liquid crystal biosensor devices
Bionanomolecular Electronic Engineering 1st Order Biomer CPU LCD Protein coat Carbon60 Neuraglion Implantable Device
Molecular Forge Processor
1 Million (Meg) Lemma Device Yield Stage
NanoSilo Cooling Tower BATH SHOCK SHELL
Biomolecular Materials Centrifuge
Carbon Scaffold Dock C60 Reservoir
Continuous Seine Pharmaceutical Protein Liquid Crystal Bulk Cycle Bioreactor Loom
EM CYCLE COIL BURN
HANNAKE I6
Theoretical Exploration of
Protein Liquid Crystal Electronic Gel
Protein Liquid Crystal Electronic Gel
HOW DO BIO-NEURAL GEL PACKS GET HERE
ASSEMBLY LOOM BATH WEAVE
PROGRAM BURN MARKET
Bio-neural gel packs are organic computer circuits composed of sythetic cerebral neurons suspended in a Protein Liquid Crystal Electronic Gel medium These gel packs are based on the organic organization of the humaniod brain and work a quantum faster than silicon chips relying on a best-guess decision-making process rather than a calculation based on all possible actions
hPL Protein 478 Protein Liquid Crystal Electronic Gel The technology level assessment of Protein Liquid Crystal Electronic Gel has shown this product to be of a similar state fiction echography of Star Trek This portends a phenomenal new technology and markets It is not if it is now
hPL Protein 478 Protein Liquid Crystal Electronic Gel Pack Logic Schema
NSA CSS CIA DOD NASA DOE
Theoretical Exploration of
Protein Liquid Crystal
Multi port fitment - can be used for nutrient addition
gas exhaustfoam trap acid
addition media filling inoculation
1L Disposable bioreactor bag
Sampling port
Thermal Jacket
Perfusion connection
Connection for pH T or DO probe with aseptic connector Easy drain connector
Frame Lock
Frame
Frame Lock
Closed Reactor Magnetic Stirring
USB Data Control Unit
Frame Frame
Transmission Coupler
Magnetic Agitator
Single-use Bioreactor
Disposable Vessel
1 Liter Desktop
Thermal Liquid Frame
Magnetic Stirring
Hayden3246
IP All Rights 2011
CleanCase
Access Panel
Hinge
Bubble Jet
Sparger
H20 Port H20 Port
GLYCERINE 2XR
Live cell
Bioreactor
Loom Port
Fore
Aft
Continuous Seine Pharmaceutical Protein Liquid Crystal Bulk Cycle Bioreactor Loom
CLONE STAGE
LOOP
INDUCTION
EXHAUST
CLEAN ASSEMBLY
RECEPTION INJECTION
GLYCERINE XR100L
BIOLOOM
SOUP
GOOP
COIL
BATH
STUFF BLOOM DANCE
HARVEST
PROGRAM
PRANCE
BASE
MIX
MOLECULAR FORGE
Hayden3246
IP All Rights 2011
Production Research Facility Layout
Biophysics of Electron Transfer and Molecular Bioelectronics
This comprehensive guide to the biophysics of metalloproteins and the mechanisms of charge transfer through systems involving them aims to outline a summary of scientific results obtained by the world-wide research in recent years The volume appears at a time of significant progress within the field when technologies derived from it are granted central recognition for their role in the development of biotechnology electronics and material sciences
Content Level raquo Research Related subjects raquo Atomic Molecular Optical amp Plasma Physics - Biochemistry amp Biophysics - Optical amp Electronic Materials
Optical modeling of liquid crystal biosensors Hwang DK Rey AD Source Department of Chemical Engineering McGill University 3610 University Street Montreal Quebec H3A 2B2 Canada Abstract Optical simulations of a liquid crystal biosensor device are performed using an integrated opticaltextural model based on the equations of nematodynamics and two optical methods the Berreman optical matrix method [J Opt Soc Am 62 502 (1972)] and the discretization of the Maxwell equations based on the finite difference time domain (FDTD) method Testing the two optical methods with liquid crystal films of different degrees of orientational heterogeneities demonstrates that only the FDTD method is suitable to model this device Basic substrate-induced texturing process due to protein adsorption gives rise to an orientation correlation function that is nearly linear with the transmitted light intensity providing a basis to calibrate the device The sensitivity of transmitted light to film thickness protein surface coverage and wavelength is established A crossover incident light wavelength close to lambda(co) approximately 500 nm is found such that when lambdagtlambda(co) thinner films are more sensitive to the amount of protein surface coverage while for lambdaltlambda(co) the reverse holds In addition it is found that for all wavelengths the sensitivity increases with the amount of protein coverage The integrated device model based on FDTD optical simulations in conjunction with the Landau-de Gennes nematodynamics model provides a rational basis for further progress in liquid crystal biosensor devices
Bionanomolecular Electronic Engineering 1st Order Biomer CPU LCD Protein coat Carbon60 Neuraglion Implantable Device
Molecular Forge Processor
1 Million (Meg) Lemma Device Yield Stage
NanoSilo Cooling Tower BATH SHOCK SHELL
Biomolecular Materials Centrifuge
Carbon Scaffold Dock C60 Reservoir
Continuous Seine Pharmaceutical Protein Liquid Crystal Bulk Cycle Bioreactor Loom
EM CYCLE COIL BURN
HANNAKE I6
Theoretical Exploration of
Protein Liquid Crystal Electronic Gel
Protein Liquid Crystal Electronic Gel
HOW DO BIO-NEURAL GEL PACKS GET HERE
ASSEMBLY LOOM BATH WEAVE
PROGRAM BURN MARKET
Bio-neural gel packs are organic computer circuits composed of sythetic cerebral neurons suspended in a Protein Liquid Crystal Electronic Gel medium These gel packs are based on the organic organization of the humaniod brain and work a quantum faster than silicon chips relying on a best-guess decision-making process rather than a calculation based on all possible actions
hPL Protein 478 Protein Liquid Crystal Electronic Gel The technology level assessment of Protein Liquid Crystal Electronic Gel has shown this product to be of a similar state fiction echography of Star Trek This portends a phenomenal new technology and markets It is not if it is now
hPL Protein 478 Protein Liquid Crystal Electronic Gel Pack Logic Schema
NSA CSS CIA DOD NASA DOE
Multi port fitment - can be used for nutrient addition
gas exhaustfoam trap acid
addition media filling inoculation
1L Disposable bioreactor bag
Sampling port
Thermal Jacket
Perfusion connection
Connection for pH T or DO probe with aseptic connector Easy drain connector
Frame Lock
Frame
Frame Lock
Closed Reactor Magnetic Stirring
USB Data Control Unit
Frame Frame
Transmission Coupler
Magnetic Agitator
Single-use Bioreactor
Disposable Vessel
1 Liter Desktop
Thermal Liquid Frame
Magnetic Stirring
Hayden3246
IP All Rights 2011
CleanCase
Access Panel
Hinge
Bubble Jet
Sparger
H20 Port H20 Port
GLYCERINE 2XR
Live cell
Bioreactor
Loom Port
Fore
Aft
Continuous Seine Pharmaceutical Protein Liquid Crystal Bulk Cycle Bioreactor Loom
CLONE STAGE
LOOP
INDUCTION
EXHAUST
CLEAN ASSEMBLY
RECEPTION INJECTION
GLYCERINE XR100L
BIOLOOM
SOUP
GOOP
COIL
BATH
STUFF BLOOM DANCE
HARVEST
PROGRAM
PRANCE
BASE
MIX
MOLECULAR FORGE
Hayden3246
IP All Rights 2011
Production Research Facility Layout
Biophysics of Electron Transfer and Molecular Bioelectronics
This comprehensive guide to the biophysics of metalloproteins and the mechanisms of charge transfer through systems involving them aims to outline a summary of scientific results obtained by the world-wide research in recent years The volume appears at a time of significant progress within the field when technologies derived from it are granted central recognition for their role in the development of biotechnology electronics and material sciences
Content Level raquo Research Related subjects raquo Atomic Molecular Optical amp Plasma Physics - Biochemistry amp Biophysics - Optical amp Electronic Materials
Optical modeling of liquid crystal biosensors Hwang DK Rey AD Source Department of Chemical Engineering McGill University 3610 University Street Montreal Quebec H3A 2B2 Canada Abstract Optical simulations of a liquid crystal biosensor device are performed using an integrated opticaltextural model based on the equations of nematodynamics and two optical methods the Berreman optical matrix method [J Opt Soc Am 62 502 (1972)] and the discretization of the Maxwell equations based on the finite difference time domain (FDTD) method Testing the two optical methods with liquid crystal films of different degrees of orientational heterogeneities demonstrates that only the FDTD method is suitable to model this device Basic substrate-induced texturing process due to protein adsorption gives rise to an orientation correlation function that is nearly linear with the transmitted light intensity providing a basis to calibrate the device The sensitivity of transmitted light to film thickness protein surface coverage and wavelength is established A crossover incident light wavelength close to lambda(co) approximately 500 nm is found such that when lambdagtlambda(co) thinner films are more sensitive to the amount of protein surface coverage while for lambdaltlambda(co) the reverse holds In addition it is found that for all wavelengths the sensitivity increases with the amount of protein coverage The integrated device model based on FDTD optical simulations in conjunction with the Landau-de Gennes nematodynamics model provides a rational basis for further progress in liquid crystal biosensor devices
Bionanomolecular Electronic Engineering 1st Order Biomer CPU LCD Protein coat Carbon60 Neuraglion Implantable Device
Molecular Forge Processor
1 Million (Meg) Lemma Device Yield Stage
NanoSilo Cooling Tower BATH SHOCK SHELL
Biomolecular Materials Centrifuge
Carbon Scaffold Dock C60 Reservoir
Continuous Seine Pharmaceutical Protein Liquid Crystal Bulk Cycle Bioreactor Loom
EM CYCLE COIL BURN
HANNAKE I6
Theoretical Exploration of
Protein Liquid Crystal Electronic Gel
Protein Liquid Crystal Electronic Gel
HOW DO BIO-NEURAL GEL PACKS GET HERE
ASSEMBLY LOOM BATH WEAVE
PROGRAM BURN MARKET
Bio-neural gel packs are organic computer circuits composed of sythetic cerebral neurons suspended in a Protein Liquid Crystal Electronic Gel medium These gel packs are based on the organic organization of the humaniod brain and work a quantum faster than silicon chips relying on a best-guess decision-making process rather than a calculation based on all possible actions
hPL Protein 478 Protein Liquid Crystal Electronic Gel The technology level assessment of Protein Liquid Crystal Electronic Gel has shown this product to be of a similar state fiction echography of Star Trek This portends a phenomenal new technology and markets It is not if it is now
hPL Protein 478 Protein Liquid Crystal Electronic Gel Pack Logic Schema
NSA CSS CIA DOD NASA DOE
Continuous Seine Pharmaceutical Protein Liquid Crystal Bulk Cycle Bioreactor Loom
CLONE STAGE
LOOP
INDUCTION
EXHAUST
CLEAN ASSEMBLY
RECEPTION INJECTION
GLYCERINE XR100L
BIOLOOM
SOUP
GOOP
COIL
BATH
STUFF BLOOM DANCE
HARVEST
PROGRAM
PRANCE
BASE
MIX
MOLECULAR FORGE
Hayden3246
IP All Rights 2011
Production Research Facility Layout
Biophysics of Electron Transfer and Molecular Bioelectronics
This comprehensive guide to the biophysics of metalloproteins and the mechanisms of charge transfer through systems involving them aims to outline a summary of scientific results obtained by the world-wide research in recent years The volume appears at a time of significant progress within the field when technologies derived from it are granted central recognition for their role in the development of biotechnology electronics and material sciences
Content Level raquo Research Related subjects raquo Atomic Molecular Optical amp Plasma Physics - Biochemistry amp Biophysics - Optical amp Electronic Materials
Optical modeling of liquid crystal biosensors Hwang DK Rey AD Source Department of Chemical Engineering McGill University 3610 University Street Montreal Quebec H3A 2B2 Canada Abstract Optical simulations of a liquid crystal biosensor device are performed using an integrated opticaltextural model based on the equations of nematodynamics and two optical methods the Berreman optical matrix method [J Opt Soc Am 62 502 (1972)] and the discretization of the Maxwell equations based on the finite difference time domain (FDTD) method Testing the two optical methods with liquid crystal films of different degrees of orientational heterogeneities demonstrates that only the FDTD method is suitable to model this device Basic substrate-induced texturing process due to protein adsorption gives rise to an orientation correlation function that is nearly linear with the transmitted light intensity providing a basis to calibrate the device The sensitivity of transmitted light to film thickness protein surface coverage and wavelength is established A crossover incident light wavelength close to lambda(co) approximately 500 nm is found such that when lambdagtlambda(co) thinner films are more sensitive to the amount of protein surface coverage while for lambdaltlambda(co) the reverse holds In addition it is found that for all wavelengths the sensitivity increases with the amount of protein coverage The integrated device model based on FDTD optical simulations in conjunction with the Landau-de Gennes nematodynamics model provides a rational basis for further progress in liquid crystal biosensor devices
Bionanomolecular Electronic Engineering 1st Order Biomer CPU LCD Protein coat Carbon60 Neuraglion Implantable Device
Molecular Forge Processor
1 Million (Meg) Lemma Device Yield Stage
NanoSilo Cooling Tower BATH SHOCK SHELL
Biomolecular Materials Centrifuge
Carbon Scaffold Dock C60 Reservoir
Continuous Seine Pharmaceutical Protein Liquid Crystal Bulk Cycle Bioreactor Loom
EM CYCLE COIL BURN
HANNAKE I6
Theoretical Exploration of
Protein Liquid Crystal Electronic Gel
Protein Liquid Crystal Electronic Gel
HOW DO BIO-NEURAL GEL PACKS GET HERE
ASSEMBLY LOOM BATH WEAVE
PROGRAM BURN MARKET
Bio-neural gel packs are organic computer circuits composed of sythetic cerebral neurons suspended in a Protein Liquid Crystal Electronic Gel medium These gel packs are based on the organic organization of the humaniod brain and work a quantum faster than silicon chips relying on a best-guess decision-making process rather than a calculation based on all possible actions
hPL Protein 478 Protein Liquid Crystal Electronic Gel The technology level assessment of Protein Liquid Crystal Electronic Gel has shown this product to be of a similar state fiction echography of Star Trek This portends a phenomenal new technology and markets It is not if it is now
hPL Protein 478 Protein Liquid Crystal Electronic Gel Pack Logic Schema
NSA CSS CIA DOD NASA DOE
Production Research Facility Layout
Biophysics of Electron Transfer and Molecular Bioelectronics
This comprehensive guide to the biophysics of metalloproteins and the mechanisms of charge transfer through systems involving them aims to outline a summary of scientific results obtained by the world-wide research in recent years The volume appears at a time of significant progress within the field when technologies derived from it are granted central recognition for their role in the development of biotechnology electronics and material sciences
Content Level raquo Research Related subjects raquo Atomic Molecular Optical amp Plasma Physics - Biochemistry amp Biophysics - Optical amp Electronic Materials
Optical modeling of liquid crystal biosensors Hwang DK Rey AD Source Department of Chemical Engineering McGill University 3610 University Street Montreal Quebec H3A 2B2 Canada Abstract Optical simulations of a liquid crystal biosensor device are performed using an integrated opticaltextural model based on the equations of nematodynamics and two optical methods the Berreman optical matrix method [J Opt Soc Am 62 502 (1972)] and the discretization of the Maxwell equations based on the finite difference time domain (FDTD) method Testing the two optical methods with liquid crystal films of different degrees of orientational heterogeneities demonstrates that only the FDTD method is suitable to model this device Basic substrate-induced texturing process due to protein adsorption gives rise to an orientation correlation function that is nearly linear with the transmitted light intensity providing a basis to calibrate the device The sensitivity of transmitted light to film thickness protein surface coverage and wavelength is established A crossover incident light wavelength close to lambda(co) approximately 500 nm is found such that when lambdagtlambda(co) thinner films are more sensitive to the amount of protein surface coverage while for lambdaltlambda(co) the reverse holds In addition it is found that for all wavelengths the sensitivity increases with the amount of protein coverage The integrated device model based on FDTD optical simulations in conjunction with the Landau-de Gennes nematodynamics model provides a rational basis for further progress in liquid crystal biosensor devices
Bionanomolecular Electronic Engineering 1st Order Biomer CPU LCD Protein coat Carbon60 Neuraglion Implantable Device
Molecular Forge Processor
1 Million (Meg) Lemma Device Yield Stage
NanoSilo Cooling Tower BATH SHOCK SHELL
Biomolecular Materials Centrifuge
Carbon Scaffold Dock C60 Reservoir
Continuous Seine Pharmaceutical Protein Liquid Crystal Bulk Cycle Bioreactor Loom
EM CYCLE COIL BURN
HANNAKE I6
Theoretical Exploration of
Protein Liquid Crystal Electronic Gel
Protein Liquid Crystal Electronic Gel
HOW DO BIO-NEURAL GEL PACKS GET HERE
ASSEMBLY LOOM BATH WEAVE
PROGRAM BURN MARKET
Bio-neural gel packs are organic computer circuits composed of sythetic cerebral neurons suspended in a Protein Liquid Crystal Electronic Gel medium These gel packs are based on the organic organization of the humaniod brain and work a quantum faster than silicon chips relying on a best-guess decision-making process rather than a calculation based on all possible actions
hPL Protein 478 Protein Liquid Crystal Electronic Gel The technology level assessment of Protein Liquid Crystal Electronic Gel has shown this product to be of a similar state fiction echography of Star Trek This portends a phenomenal new technology and markets It is not if it is now
hPL Protein 478 Protein Liquid Crystal Electronic Gel Pack Logic Schema
NSA CSS CIA DOD NASA DOE
Biophysics of Electron Transfer and Molecular Bioelectronics
This comprehensive guide to the biophysics of metalloproteins and the mechanisms of charge transfer through systems involving them aims to outline a summary of scientific results obtained by the world-wide research in recent years The volume appears at a time of significant progress within the field when technologies derived from it are granted central recognition for their role in the development of biotechnology electronics and material sciences
Content Level raquo Research Related subjects raquo Atomic Molecular Optical amp Plasma Physics - Biochemistry amp Biophysics - Optical amp Electronic Materials
Optical modeling of liquid crystal biosensors Hwang DK Rey AD Source Department of Chemical Engineering McGill University 3610 University Street Montreal Quebec H3A 2B2 Canada Abstract Optical simulations of a liquid crystal biosensor device are performed using an integrated opticaltextural model based on the equations of nematodynamics and two optical methods the Berreman optical matrix method [J Opt Soc Am 62 502 (1972)] and the discretization of the Maxwell equations based on the finite difference time domain (FDTD) method Testing the two optical methods with liquid crystal films of different degrees of orientational heterogeneities demonstrates that only the FDTD method is suitable to model this device Basic substrate-induced texturing process due to protein adsorption gives rise to an orientation correlation function that is nearly linear with the transmitted light intensity providing a basis to calibrate the device The sensitivity of transmitted light to film thickness protein surface coverage and wavelength is established A crossover incident light wavelength close to lambda(co) approximately 500 nm is found such that when lambdagtlambda(co) thinner films are more sensitive to the amount of protein surface coverage while for lambdaltlambda(co) the reverse holds In addition it is found that for all wavelengths the sensitivity increases with the amount of protein coverage The integrated device model based on FDTD optical simulations in conjunction with the Landau-de Gennes nematodynamics model provides a rational basis for further progress in liquid crystal biosensor devices
Bionanomolecular Electronic Engineering 1st Order Biomer CPU LCD Protein coat Carbon60 Neuraglion Implantable Device
Molecular Forge Processor
1 Million (Meg) Lemma Device Yield Stage
NanoSilo Cooling Tower BATH SHOCK SHELL
Biomolecular Materials Centrifuge
Carbon Scaffold Dock C60 Reservoir
Continuous Seine Pharmaceutical Protein Liquid Crystal Bulk Cycle Bioreactor Loom
EM CYCLE COIL BURN
HANNAKE I6
Theoretical Exploration of
Protein Liquid Crystal Electronic Gel
Protein Liquid Crystal Electronic Gel
HOW DO BIO-NEURAL GEL PACKS GET HERE
ASSEMBLY LOOM BATH WEAVE
PROGRAM BURN MARKET
Bio-neural gel packs are organic computer circuits composed of sythetic cerebral neurons suspended in a Protein Liquid Crystal Electronic Gel medium These gel packs are based on the organic organization of the humaniod brain and work a quantum faster than silicon chips relying on a best-guess decision-making process rather than a calculation based on all possible actions
hPL Protein 478 Protein Liquid Crystal Electronic Gel The technology level assessment of Protein Liquid Crystal Electronic Gel has shown this product to be of a similar state fiction echography of Star Trek This portends a phenomenal new technology and markets It is not if it is now
hPL Protein 478 Protein Liquid Crystal Electronic Gel Pack Logic Schema
NSA CSS CIA DOD NASA DOE
Optical modeling of liquid crystal biosensors Hwang DK Rey AD Source Department of Chemical Engineering McGill University 3610 University Street Montreal Quebec H3A 2B2 Canada Abstract Optical simulations of a liquid crystal biosensor device are performed using an integrated opticaltextural model based on the equations of nematodynamics and two optical methods the Berreman optical matrix method [J Opt Soc Am 62 502 (1972)] and the discretization of the Maxwell equations based on the finite difference time domain (FDTD) method Testing the two optical methods with liquid crystal films of different degrees of orientational heterogeneities demonstrates that only the FDTD method is suitable to model this device Basic substrate-induced texturing process due to protein adsorption gives rise to an orientation correlation function that is nearly linear with the transmitted light intensity providing a basis to calibrate the device The sensitivity of transmitted light to film thickness protein surface coverage and wavelength is established A crossover incident light wavelength close to lambda(co) approximately 500 nm is found such that when lambdagtlambda(co) thinner films are more sensitive to the amount of protein surface coverage while for lambdaltlambda(co) the reverse holds In addition it is found that for all wavelengths the sensitivity increases with the amount of protein coverage The integrated device model based on FDTD optical simulations in conjunction with the Landau-de Gennes nematodynamics model provides a rational basis for further progress in liquid crystal biosensor devices
Bionanomolecular Electronic Engineering 1st Order Biomer CPU LCD Protein coat Carbon60 Neuraglion Implantable Device
Molecular Forge Processor
1 Million (Meg) Lemma Device Yield Stage
NanoSilo Cooling Tower BATH SHOCK SHELL
Biomolecular Materials Centrifuge
Carbon Scaffold Dock C60 Reservoir
Continuous Seine Pharmaceutical Protein Liquid Crystal Bulk Cycle Bioreactor Loom
EM CYCLE COIL BURN
HANNAKE I6
Theoretical Exploration of
Protein Liquid Crystal Electronic Gel
Protein Liquid Crystal Electronic Gel
HOW DO BIO-NEURAL GEL PACKS GET HERE
ASSEMBLY LOOM BATH WEAVE
PROGRAM BURN MARKET
Bio-neural gel packs are organic computer circuits composed of sythetic cerebral neurons suspended in a Protein Liquid Crystal Electronic Gel medium These gel packs are based on the organic organization of the humaniod brain and work a quantum faster than silicon chips relying on a best-guess decision-making process rather than a calculation based on all possible actions
hPL Protein 478 Protein Liquid Crystal Electronic Gel The technology level assessment of Protein Liquid Crystal Electronic Gel has shown this product to be of a similar state fiction echography of Star Trek This portends a phenomenal new technology and markets It is not if it is now
hPL Protein 478 Protein Liquid Crystal Electronic Gel Pack Logic Schema
NSA CSS CIA DOD NASA DOE
Bionanomolecular Electronic Engineering 1st Order Biomer CPU LCD Protein coat Carbon60 Neuraglion Implantable Device
Molecular Forge Processor
1 Million (Meg) Lemma Device Yield Stage
NanoSilo Cooling Tower BATH SHOCK SHELL
Biomolecular Materials Centrifuge
Carbon Scaffold Dock C60 Reservoir
Continuous Seine Pharmaceutical Protein Liquid Crystal Bulk Cycle Bioreactor Loom
EM CYCLE COIL BURN
HANNAKE I6
Theoretical Exploration of
Protein Liquid Crystal Electronic Gel
Protein Liquid Crystal Electronic Gel
HOW DO BIO-NEURAL GEL PACKS GET HERE
ASSEMBLY LOOM BATH WEAVE
PROGRAM BURN MARKET
Bio-neural gel packs are organic computer circuits composed of sythetic cerebral neurons suspended in a Protein Liquid Crystal Electronic Gel medium These gel packs are based on the organic organization of the humaniod brain and work a quantum faster than silicon chips relying on a best-guess decision-making process rather than a calculation based on all possible actions
hPL Protein 478 Protein Liquid Crystal Electronic Gel The technology level assessment of Protein Liquid Crystal Electronic Gel has shown this product to be of a similar state fiction echography of Star Trek This portends a phenomenal new technology and markets It is not if it is now
hPL Protein 478 Protein Liquid Crystal Electronic Gel Pack Logic Schema
NSA CSS CIA DOD NASA DOE
Molecular Forge Processor
1 Million (Meg) Lemma Device Yield Stage
NanoSilo Cooling Tower BATH SHOCK SHELL
Biomolecular Materials Centrifuge
Carbon Scaffold Dock C60 Reservoir
Continuous Seine Pharmaceutical Protein Liquid Crystal Bulk Cycle Bioreactor Loom
EM CYCLE COIL BURN
HANNAKE I6
Theoretical Exploration of
Protein Liquid Crystal Electronic Gel
Protein Liquid Crystal Electronic Gel
HOW DO BIO-NEURAL GEL PACKS GET HERE
ASSEMBLY LOOM BATH WEAVE
PROGRAM BURN MARKET
Bio-neural gel packs are organic computer circuits composed of sythetic cerebral neurons suspended in a Protein Liquid Crystal Electronic Gel medium These gel packs are based on the organic organization of the humaniod brain and work a quantum faster than silicon chips relying on a best-guess decision-making process rather than a calculation based on all possible actions
hPL Protein 478 Protein Liquid Crystal Electronic Gel The technology level assessment of Protein Liquid Crystal Electronic Gel has shown this product to be of a similar state fiction echography of Star Trek This portends a phenomenal new technology and markets It is not if it is now
hPL Protein 478 Protein Liquid Crystal Electronic Gel Pack Logic Schema
NSA CSS CIA DOD NASA DOE
Theoretical Exploration of
Protein Liquid Crystal Electronic Gel
Protein Liquid Crystal Electronic Gel
HOW DO BIO-NEURAL GEL PACKS GET HERE
ASSEMBLY LOOM BATH WEAVE
PROGRAM BURN MARKET
Bio-neural gel packs are organic computer circuits composed of sythetic cerebral neurons suspended in a Protein Liquid Crystal Electronic Gel medium These gel packs are based on the organic organization of the humaniod brain and work a quantum faster than silicon chips relying on a best-guess decision-making process rather than a calculation based on all possible actions
hPL Protein 478 Protein Liquid Crystal Electronic Gel The technology level assessment of Protein Liquid Crystal Electronic Gel has shown this product to be of a similar state fiction echography of Star Trek This portends a phenomenal new technology and markets It is not if it is now
hPL Protein 478 Protein Liquid Crystal Electronic Gel Pack Logic Schema
NSA CSS CIA DOD NASA DOE
Protein Liquid Crystal Electronic Gel
HOW DO BIO-NEURAL GEL PACKS GET HERE
ASSEMBLY LOOM BATH WEAVE
PROGRAM BURN MARKET
Bio-neural gel packs are organic computer circuits composed of sythetic cerebral neurons suspended in a Protein Liquid Crystal Electronic Gel medium These gel packs are based on the organic organization of the humaniod brain and work a quantum faster than silicon chips relying on a best-guess decision-making process rather than a calculation based on all possible actions
hPL Protein 478 Protein Liquid Crystal Electronic Gel The technology level assessment of Protein Liquid Crystal Electronic Gel has shown this product to be of a similar state fiction echography of Star Trek This portends a phenomenal new technology and markets It is not if it is now
hPL Protein 478 Protein Liquid Crystal Electronic Gel Pack Logic Schema
NSA CSS CIA DOD NASA DOE
hPL Protein 478 Protein Liquid Crystal Electronic Gel The technology level assessment of Protein Liquid Crystal Electronic Gel has shown this product to be of a similar state fiction echography of Star Trek This portends a phenomenal new technology and markets It is not if it is now
hPL Protein 478 Protein Liquid Crystal Electronic Gel Pack Logic Schema
NSA CSS CIA DOD NASA DOE
hPL Protein 478 Protein Liquid Crystal Electronic Gel Pack Logic Schema
NSA CSS CIA DOD NASA DOE
NSA CSS CIA DOD NASA DOE
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