advanced batteries – meeting the demands of renewable · pdf filephotovoltaic–...
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11 East Steel Rd.Morrisville, PA 19067Phone: 215-547-1015Fax: [email protected]
Gelest, Inc.Provides technical expertise in silicon and metal-organic materialsfor applications in alternative energy. The core manufacturing technology of Gelest is silanes, silicones and metal-organics with thecapability to handle flammable, corrosive and air sensitive materials. Headquartered in Morrisville, PA Gelest is recognized world-wide as an innovative manufacturer and supplier in commercial and research quantities, serving advanced technology markets through a material science driven approach.
Organosilicon and Metal-Organic materials from Gelest are helping to meet the challenges for:
Meeting the Demands of Renewable Energy:
Capture & StorageAdvanced Batteries –
Capacitors –Collectorelectrode
Activatedcarbon electrode
(2) With electric field
Hole Electron Positive ion Negative ion
(1) Without electric field
Ultracapacitor
Organosilicon and
Metal-Organic Materials
Lithium Cathodes:
CXFE030 SID4220.5
SIB1824.82 OMPH066
CXLI083
Ionic Liquids provide broad voltage windows, high ionic
conductivities and low vapor pressure
• Ultracapacitors (electrochemical double layer capacitors EDLCs) offer high power and energy densityby utilizing high surface area porous carbon electrodes and ultra-thin dielectric distances. Broadervoltage windows are anticipated with hydrogel or organic electrolytes.
For additional information on Gelest’s Silicon and Metal-Organic based products or to enquire how we may assist in Enabling Your Technology, please contact:
Solid Polymer, Gel Electrolyte Systems, Li-SPE (lithium solid polymer electrolyte systems).
Organosilicon and
Metal-O
rganic Materials
Cathode Fabrication
Ureasil Gel Electrolytes
Li SaltsLi, Na Complex
SIB1550.0 SIB1856.0
Electrolyte Acid Scavengers Gel Electrolytes© 2010 Gelest, Inc.
• Electroactive and Dielectric Materials - including membranes, electrodes and electrolytes• Water Immiscible Fluids - for electrolyte, heat transfer and lubricant applications• Structural Materials - including mesoporous ceramics and advanced composites
• Component Protection Materials - including passivation and encapsulation• Sol-Gel Coatings - for AR (anti-reflection) and abrasion resistance
• Optical Materials - including band-gap and index materials
Generation, Capture and Storage
www.gelest.com
Organosilicon
Metal-Organic Materials
Organosilicon and Metal-Organic materials from Gelest
Metal-Organic Materials
Water Immiscible Fluids - for electrolyte, heat transfer and lubricant applicationsStructural Materials - including mesoporous ceramics and advanced composites
Component Protection Materials - including passivation and encapsulation
Water Immiscible Fluids - for electrolyte, heat transfer and lubricant applicationsStructural Materials - including mesoporous ceramics and advanced compositesWater Immiscible Fluids - for electrolyte, heat transfer and lubricant applications
Electroactive and Dielectric Materials - iElectroactive and Dielectric Materials - including membranes, electrodes and electrolytesWater Immiscible Fluids - for electrolyte, heat transfer and lubricant applications
Electroactive and Dielectric Materials - iElectroactive and Dielectric Materials - including membranes, electrodes and electrolytesncluding membranes, electrodes and electrolytesncluding membranes, electrodes and electrolytesncluding membranes, electrodes and electrolytes
Organosilicon and Metal-Organic materials from Gelest Organosilicon and Metal-Organic materials from Gelest Organosilicon and Metal-Organic materials from Gelest
Photovoltaic –Hydroen fuel is channeled through field flow plates to the anode on one side of the fuel cell, while oxygen from the air is channeled to the cathode on the other side of the cell.
1
At the anode, a platinum catalyst causes the hydrogen to split into positive hydrogen ions (protons) and negatively charged electrons.
2
At the cathode, the electrons and positively charged hydrogen ions combine with oxygen to form water, which flows out of the cell.
4
The Polymer Electrolyte Membrane (PEM) allows only the positively chared ions to pass through it to the cathode. The negatively charged electrons must travel along an external circuit to the cathode, creating an electrial current.
3
Electrodes, Solid State Electrolytes, Proton-conducting solids –Ceria (cerium oxides) by sol-gel and pyrolytic deposition
Catalysts –Nanowires
Wind Turbine –Turbine Lubricants for Low Temperature Environments
Coupling Agents for Composites
Passivation Layers - coatings that prevent carrier recombination :• Silicon Nitride, Silicon Carbide and Silicon Carbonitride perform a variety of roles on the topmost active layer ofphotovoltaic devices. Gelest provides both single-source precursors and precursors used in combination with asecondary reactant such as ammonia or, with PECVD systems, nitrogen.
Anti-Reflection / All-Angle Coatings :• Gelest provides a wide-range of index materials based on silicon, germanium, tantalum and other metal-organics for direct use or by thermal or hydrolytic conversion. These materials are used in step-index, gradient-index or quarter-wavestacks. Applications range from AR-coatings to Bragg mirrors and reflectors.
air
substrate
quarter-wave thickness of high-index material
quarter-wave thickness of low-index material
Re�ected light= combination of 7 beams
Incident Light
n = 1 - air
nH = high index
nH = high index
nH = high index
nL = low index
nL = low index
nS = substrate
Quarter-Wave Stack
AKC159.8
GEG5001
CXCD045
AKS704
SIB1871.0
SNB1100
SNT7560
CXSV060
SIT8715.6
SIT8718.0
CXSV080
OMAL086 OMZN017 AKA090
SNB2000 SND3255
SIC2415.0
CXCE041
GEG5800
SIA0200.0 SIM6487.4
SIG5832.0
SIM6577.0 SIT7283.0
SIT8723.0
AKC186
SIB1817.0 SIB1811.7
AKI362.4
SIB1873.0
SIC2268.5SIM6515.0
AKT810SIT7110.0
SIT8715.5
SID2790.0
SIT7123.0
GEG5001
Transparent Conductive Oxide Coatings -TCOs• Gelest offers a range of materials that can be deposited without the vacuum requirements of sputtering techniques. Alternative material technologies that eliminate indium include zinc, antimony and tin based oxides that can be fluorine doped.
Conductive Pastes:• Organic compatible silver salts are used in conjunction with silver powder to formulate front-side grid-like contacts.
Barriers:• Backside Polymer Films and Encapsulants.
Optically Clear Silicone Encapsulants
silicone on glass for concentration PV
Monomers for High Temperature Proton ExchangeMembranes Inorganic Scaffold Materials : • Silica, alumina, aluminosilicates. Functionalizing agents for porous silica membranes.
• Siliglide™10 – low-friction, “glide” surfaces for glass, vitreous and metal substrates• Seramic™ SI-A – dielectric, thermally resistant SiO2 coatings, deep UV curable• Gelest OE41 – optically clear 1.41 flexible 2-component low temperature cure• Gelest OE42 – optically clear 1.42 flexible 2-component low temperature cure• Gelest OE43 – optically clear 1.43 flexible 2-component low temperature cure
• Aquaphile™ AQ – water-wettable anti-fog coating for glass and ceramics
Proton Mobility Facilitators
Silahydrocarbons
High-Speed Polyester Polyester Moisture Resistant Epoxy
Silicate Esters
Lifetime Extension for Polyester Back-Sheets
Adhesion Promoters
SnO:F, ZnO:Al, SbTO:
• Gelest offers precursors for vapor phase and solution phase deposition of Groups IlI-V, II-VI, and IV (Si/Ge) band-gap materials.
• CdTe/CdSe Cadmium Telluride, Cadmium Selenide and CIGS (Copper Indium Gallium Selenide) precursors are available for vapor phase, solution and pyrolytic deposition in applications ranging from large area arrays to quantum dots.
• Gelest offers volatile silylated and non-volatile dithiocarbamate and carboxylate metal chalcogenide precursors. • Triple Junction GaAs Solar Cells / Metamorphic Multijunction Solar Cells. Germanium layers provide lattice matchfor growth of GaAs in multi band-gap photovoltaics.
Band-gap Materials :
Generation Generation GenerationPolymer
WaterSO3
SO3
SO3
SO3
SO3
SO3
SO3
SO3
Fuel Cells –Proton Exchange Membrane FC
AKS704
Passivation Layers - coatings that prevent carrier recombinatioSilicon Nitride, Silicon Carbide and Silicon Carbonitride perform a variety of roles on the topmost active layer ofphotovoltaic devices. Gelest provides both single-source precursors and precursors used in combination with a
CXCD045
AKS704
SIB1871.0
Gelest offers precursors for vapor phase and solution phase deposition of Groups IlI-V, II-VI, and IV (Si/Ge)
CdTe/CdSe Cadmium Telluride, Cadmium Selenide and CIGS (Copper Indium Gallium Selenide) precursors are available for vapor phase, solution and pyrolytic deposition in applications ranging from large area arrays
Gelest offers volatile silylated and non-volatile dithiocarbamate and carboxylate metal chalcogenide precursors. Triple Junction GaAs Solar Cells / Metamorphic Multijunction Solar Cells. Germanium layers provide lattice matchfor growth of GaAs in multi band-gap photovoltaics.
Silicon Nitride, Silicon Carbide and Silicon Carbonitride perform a variety of roles on the topmost active layer ofphotovoltaic devices. Gelest provides both single-source precursors and precursors used in combination with asecondary reactant such as ammonia or, with PECVD systems, nitrogen.
Anti-Reflection / All-Angle Coating
SIM6515.0SIM6515.0SIM6515.0
Passivation Layers - coatings that prevent carrier recombinatioSilicon Nitride, Silicon Carbide and Silicon Carbonitride perform a variety of roles on the topmost active layer ofphotovoltaic devices. Gelest provides both single-source precursors and precursors used in combination with asecondary reactant such as ammonia or, with PECVD systems, nitrogen.
Passivation Layers - coatings that prevent carrier recombinatioSilicon Nitride, Silicon Carbide and Silicon Carbonitride perform a variety of roles on the topmost active layer of
AKS704
SIB1871.0
Gelest offers volatile silylated and non-volatile dithiocarbamate and carboxylate metal chalcogenide precursors. Triple Junction GaAs Solar Cells / Metamorphic Multijunction Solar Cells. Germanium layers provide lattice match
conversion. These materials are used in step-index, gradient-index or quarter-wavestacks. Applications range from AR-coatings to Bragg mirrors and reflectors. conversion. These materials are used in step-index, gradient-index or quarter-wavestacks. Applications range from AR-coatings to Bragg mirrors and reflectors.
tantalum and other metal-organics for direct use or by thermal or hydrolytic conversion. These materials are used in step-index, gradient-index or quarter-wavestacks. Applications range from AR-coatings to Bragg mirrors and reflectors.
Gelest provides a wide-range of index materials based on silicon, germanium, tantalum and other metal-organics for direct use or by thermal or hydrolytic conversion. These materials are used in step-index, gradient-index or quarter-wave
s :Gelest provides a wide-range of index materials based on silicon, germanium, tantalum and other metal-organics for direct use or by thermal or hydrolytic
s :Gelest provides a wide-range of index materials based on silicon, germanium, Gelest provides a wide-range of index materials based on silicon, germanium,
secondary reactant such as ammonia or, with PECVD systems, nitrogen.
Silicon Nitride, Silicon Carbide and Silicon Carbonitride perform a variety of roles on the topmost active layer ofphotovoltaic devices. Gelest provides both single-source precursors and precursors used in combination with aSilicon Nitride, Silicon Carbide and Silicon Carbonitride perform a variety of roles on the topmost active layer ofphotovoltaic devices. Gelest provides both single-source precursors and precursors used in combination with a
Passivation Layers - coatings that prevent carrier recombinatioSilicon Nitride, Silicon Carbide and Silicon Carbonitride perform a variety of roles on the topmost active layer ofPassivation Layers - coatings that prevent carrier recombinatioSilicon Nitride, Silicon Carbide and Silicon Carbonitride perform a variety of roles on the topmost active layer ofPassivation Layers - coatings that prevent carrier recombinatio
Photovoltaic –Hydroen fuel is channeled through field flow plates to the anode on one side of the fuel cell, while oxygen from the air is channeled to the cathode on the other side of the cell.
1
At the anode, a platinum catalyst causes the hydrogen to split into positive hydrogen ions (protons) and negatively charged electrons.
2
At the cathode, the electrons and positively charged hydrogen ions combine with oxygen to form water, which flows out of the cell.
4
The Polymer Electrolyte Membrane (PEM) allows only the positively chared ions to pass through it to the cathode. The negatively charged electrons must travel along an external circuit to the cathode, creating an electrial current.
3
Electrodes, Solid State Electrolytes, Proton-conducting solids –Ceria (cerium oxides) by sol-gel and pyrolytic deposition
Catalysts –Nanowires
Wind Turbine –Turbine Lubricants for Low Temperature Environments
Coupling Agents for Composites
Passivation Layers - coatings that prevent carrier recombination :• Silicon Nitride, Silicon Carbide and Silicon Carbonitride and perform a variety of roles on the topmost active layer
of photovoltaic devices. Gelest provides both single-source precursors and precursors used in combination witha secondary reactant such as ammonia or, with PECVD systems, nitrogen.
Anti-Reflection / All-Angle Coatings :• Gelest provides a wide-range of index materials based on silicon, germanium,
tantalum and other metal-organics for direct use or by thermal or hydrolytic conversion. These materials are used in step-index, gradient-index or quarter-wavestacks. Applications range from AR-coatings to Bragg mirrors and reflectors.
air
substrate
quarter-wave thickness of high-index material
quarter-wave thickness of low-index material
Reflected light= combination of 7 beams
Incident Light
n = 1 - air
nH = high index
nH = high index
nH = high index
nL = low index
nL = low index
nS = substrate
Quarter-Wave Stack
AKC159.8
GEG5001
CXCD045
AKS704
SIB1871.0
SNB1100
SNT7560
CXSV060
SIT8715.6
SIT8718.0
CXSV080
OMAL086 OMZN017 AKA090
SNB2000 SND3255
SIC2415.0
CXCE041
GEG5800
SIA0200.0 SIM6487.4
SIG5832.0
SIM6577.0 SIT7283.0
SIT8723.0
AKC186
SIB1817.0 SIB1811.7
AKI362.4
SIB1873.0
SIC2268.5SIM6515.0
AKT810SIT7110.0
SIT8715.5
SID2790.0
SIT7123.0
GEG5001
Transparent Conductive Oxide Coatings -TCOs• Gelest offers a range of materials that can be deposited without the vacuum requirements of sputtering
techniques. Alternative material technologies that eliminate indium include zinc, antimony and tin based oxides that can be fluorine doped.
Conductive Pastes:• Organic compatible silver salts are used in conjunction with
silver powder to formulate front-side grid-like contacts.
Barriers:• Backside Polymer Films and Encapsulants.
Optically Clear Silicone Encapsulants
silicone on glass for concentration PV
Monomers for High Temperature Proton ExchangeMembranes Inorganic Scaffold Materials : • Silica, alumina, aluminosilicates. Functionalizing agents for porous
silica membranes.
• Siliglide™ 10 – low-friction, “glide” surfaces for glass, vitreous and metal substrates• Seramic™ SI-A – dielectric, thermally resistant SiO2 coatings, deep UV curable• Gelest OE41 – optically clear 1.41 flexible 2-component low temperature cure• Gelest OE42 – optically clear 1.42 flexible 2-component low temperature cure• Gelest OE43 – optically clear 1.43 flexible 2-component low temperature cure
• Aquaphile™ AQ – water-wettable anti-fog coating for glass and ceramics
Proton Mobility Facilitators
Silahydrocarbons
High-Speed Polyester Polyester Moisture Resistant Epoxy
Silicate Esters
Lifetime Extension for Polyester Back-Sheets
Adhesion Promoters
SnO:F, ZnO:Al, SbTO:
• Gelest offers precursors for vapor phase and solution phase deposition of Groups IlI-V, II-VI, and IV (Si/Ge) band-gap materials.
• CdTe/CdSe Cadmium Telluride, Cadmium Selenide and CIGS (Copper Indium Gallium Selenide) precursors are available for vapor phase, solution and pyrolytic deposition in applications ranging from large area arrays to quantum dots.
• Gelest offers volatile silylated and non-volatile dithiocarbamate and carboxylate metal chalcogenide precursors. • Triple Junction GaAs Solar Cells / Metamorphic Multijunction Solar Cells. Germanium layers provide lattice match
for growth of GaAs in multi band-gap photovoltaics.
Band-gap Materials :
Generation Generation GenerationPolymer
WaterSO3
SO3
SO3
SO3
SO3
SO3
SO3
SO3
Fuel Cells –Proton Exchange Membrane FC
CXSV060
SIT8715.6
OMAL086 OMZN017 AKA090
SNB2000 SND3255
Conductive Pastes:Organic compatible silver salts are used in conjunction with silver powder to formulate front-side grid-like contacts.
Backside Polymer Films and Encapsulants.
Optically Clear Optically Clear Silicone Encapsulants
silicone on glass for concentration PV
Backside Polymer Films and Encapsulants.
silver powder to formulate front-side grid-like contacts.
Backside Polymer Films and Encapsulants.
CXSV060
Organic compatible silver salts are used in conjunction with silver powder to formulate front-side grid-like contacts.
CXSV060
OMAL086 OMZN017 AKA090
• Gelest OE42 – optically clear 1.42 flexible 2-component low temperature cure• Gelest OE43 – optically clear 1.43 flexible 2-component low temperature cure
• Aquaphile™ AQ – water-wettable anti-fog coating for glass and ceramics
• Gelest OE41 – optically clear 1.41 flexible 2-component low temperature cure• Gelest OE42 – optically clear 1.42 flexible 2-component low temperature cure• Gelest OE43 – optically clear 1.43 flexible 2-component low temperature cure
• Gelest OE41 – optically clear 1.41 flexible 2-component low temperature cure• Gelest OE42 – optically clear 1.42 flexible 2-component low temperature cure
• Seramic™ SI-A – dielectric, thermally resistant SiO• Gelest OE41 – optically clear 1.41 flexible 2-component low temperature cure
• Siliglide™ 10 – low-friction, “glide” surfaces for glass, vitreous and metal substrates• Seramic™ SI-A – dielectric, thermally resistant SiO
• Siliglide™ 10 – low-friction, “glide” surfaces for glass, vitreous and metal substrates• Seramic™ SI-A – dielectric, thermally resistant SiO
• Siliglide™ 10 – low-friction, “glide” surfaces for glass, vitreous and metal substrates• Siliglide™ 10 – low-friction, “glide” surfaces for glass, vitreous and metal substrates
SIT8718.0SIT8718.0
Polyester Back-SheetsPolyester Back-SheetsLifetime Extension for Polyester Back-SheetsLifetime Extension for Polyester Back-SheetsLifetime Extension for
Photovoltaic –Hydroen fuel is channeled through field flow plates to the anode on one side of the fuel cell, while oxygen from the air is channeled to the cathode on the other side of the cell.
1
At the anode, a platinum catalyst causes the hydrogen to split into positive hydrogen ions (protons) and negatively charged electrons.
2
At the cathode, the electrons and positively charged hydrogen ions combine with oxygen to form water, which flows out of the cell.
4
The Polymer Electrolyte Membrane (PEM) allows only the positively chared ions to pass through it to the cathode. The negatively charged electrons must travel along an external circuit to the cathode, creating an electrial current.
3
Electrodes, Solid State Electrolytes, Proton-conducting solids –Ceria (cerium oxides) by sol-gel and pyrolytic deposition
Catalysts –Nanowires
Wind Turbine –Turbine Lubricants for Low Temperature Environments
Coupling Agents for Composites
Passivation Layers - coatings that prevent carrier recombination :• Silicon Nitride, Silicon Carbide and Silicon Carbonitride and perform a variety of roles on the topmost active layer
of photovoltaic devices. Gelest provides both single-source precursors and precursors used in combination witha secondary reactant such as ammonia or, with PECVD systems, nitrogen.
Anti-Reflection / All-Angle Coatings :• Gelest provides a wide-range of index materials based on silicon, germanium,
tantalum and other metal-organics for direct use or by thermal or hydrolytic conversion. These materials are used in step-index, gradient-index or quarter-wavestacks. Applications range from AR-coatings to Bragg mirrors and reflectors.
air
substrate
quarter-wave thickness of high-index material
quarter-wave thickness of low-index material
Reflected light= combination of 7 beams
Incident Light
n = 1 - air
nH = high index
nH = high index
nH = high index
nL = low index
nL = low index
nS = substrate
Quarter-Wave Stack
AKC159.8
GEG5001
CXCD045
AKS704
SIB1871.0
SNB1100
SNT7560
CXSV060
SIT8715.6
SIT8718.0
CXSV080
OMAL086 OMZN017 AKA090
SNB2000 SND3255
SIC2415.0
CXCE041
GEG5800
SIA0200.0 SIM6487.4
SIG5832.0
SIM6577.0 SIT7283.0
SIT8723.0
AKC186
SIB1817.0 SIB1811.7
AKI362.4
SIB1873.0
SIC2268.5SIM6515.0
AKT810SIT7110.0
SIT8715.5
SID2790.0
SIT7123.0
GEG5001
Transparent Conductive Oxide Coatings -TCOs• Gelest offers a range of materials that can be deposited without the vacuum requirements of sputtering
techniques. Alternative material technologies that eliminate indium include zinc, antimony and tin based oxides that can be fluorine doped.
Conductive Pastes:• Organic compatible silver salts are used in conjunction with
silver powder to formulate front-side grid-like contacts.
Barriers:• Backside Polymer Films and Encapsulants.
Optically Clear Silicone Encapsulants
silicone on glass for concentration PV
Monomers for High Temperature Proton ExchangeMembranes Inorganic Scaffold Materials : • Silica, alumina, aluminosilicates. Functionalizing agents for porous
silica membranes.
• Siliglide™ 10 – low-friction, “glide” surfaces for glass, vitreous and metal substrates• Seramic™ SI-A – dielectric, thermally resistant SiO2 coatings, deep UV curable• Gelest OE41 – optically clear 1.41 flexible 2-component low temperature cure• Gelest OE42 – optically clear 1.42 flexible 2-component low temperature cure• Gelest OE43 – optically clear 1.43 flexible 2-component low temperature cure
• Aquaphile™ AQ – water-wettable anti-fog coating for glass and ceramics
Proton Mobility Facilitators
Silahydrocarbons
High-Speed Polyester Polyester Moisture Resistant Epoxy
Silicate Esters
Lifetime Extension for Polyester Back-Sheets
Adhesion Promoters
SnO:F, ZnO:Al, SbTO:
• Gelest offers precursors for vapor phase and solution phase deposition of Groups IlI-V, II-VI, and IV (Si/Ge) band-gap materials.
• CdTe/CdSe Cadmium Telluride, Cadmium Selenide and CIGS (Copper Indium Gallium Selenide) precursors are available for vapor phase, solution and pyrolytic deposition in applications ranging from large area arrays to quantum dots.
• Gelest offers volatile silylated and non-volatile dithiocarbamate and carboxylate metal chalcogenide precursors. • Triple Junction GaAs Solar Cells / Metamorphic Multijunction Solar Cells. Germanium layers provide lattice match
for growth of GaAs in multi band-gap photovoltaics.
Band-gap Materials :
Generation Generation GenerationPolymer
WaterSO3
SO3
SO3
SO3
SO3
SO3
SO3
SO3
Fuel Cells –Proton Exchange Membrane FC
Electrodes, Solid State Electrolytes,
Ceria (cerium oxides) by sol-gel and pyrolytic deposition
At the cathode, the electrons and positively charged hydrogen ions combine with oxygen to form water, which flows out of the cell.
Electrodes, Solid State Electrolytes, Electrodes, Solid State Electrolytes, Proton-conducting solids –Ceria (cerium oxides) by sol-gel and pyrolytic deposition
Catalysts –Nanowires
SIC2415.0
GEG5800
SIT8723.0
SIB1817.0
Monomers for High Temperature Proton ExchangeMembranes Inorganic Scaffold Materials :
Silica, alumina, aluminosilicates. Functionalizing agents for porous silica membranes.
SO3
Wind Turbine –Wind Turbine –
Ceria (cerium oxides) by sol-gel and pyrolytic deposition
CXCE041
Electrodes, Solid State Electrolytes,
Ceria (cerium oxides) by sol-gel and pyrolytic deposition
Catalysts –
SIB1817.0
Membranes Inorganic Scaffold Materials : Silica, alumina, aluminosilicates. Functionalizing agents for porous
SIM6487.4SIM6487.4
Silahydrocarbons
SIM6577.0SIM6577.0
Turbine Lubricants for Low Temperature Environments
SIM6577.0
Turbine Lubricants for Low Temperature EnvironmentsTurbine Lubricants for Low Temperature Environments
Proton Mobility FacilitatorsProton Mobility FacilitatorsProton Mobility Facilitators
11 East Steel Rd.Morrisville, PA 19067Phone: 215-547-1015Fax: [email protected]
Gelest, Inc.Provides technical expertise in silicon and metal-organic materialsfor applications in alternative energy. The core manufacturing technology of Gelest is silanes, silicones and metal-organics with thecapability to handle flammable, corrosive and air sensitive materials. Headquartered in Morrisville, PA Gelest is recognized world-wide as an innovative manufacturer and supplier in commercial and research quantities, serving advanced technology markets through a material science driven approach.
Organosilicon and Metal-Organic materials from Gelest are helping to meet the challenges for:
Meeting the Demands of Renewable Energy:
Capture & StorageAdvanced Batteries –
Capacitors –Collectorelectrode
Activatedcarbon electrode
(2) With electric field
Hole Electron Positive ion Negative ion
(1) Without electric field
Ultracapacitor
Organosilicon and
Metal-Organic Materials
Lithium Cathodes:
CXFE030 SID4220.5
SIB1824.82 OMPH066
CXLI083
Ionic Liquids provide broad voltage windows, high ionic
conductivities and low vapor pressure
• Ultracapacitors (electrochemical double layer capacitors EDLCs) offer high power and energy densityby utilizing high surface area porous carbon electrodes and ultra-thin dielectric distances. Broadervoltage windows are anticipated with hydrogel or organic electrolytes.
For additional information on Gelest’s Silicon and Metal-Organic based products or to enquire how we may assist in Enabling Your Technology, please contact:
Solid Polymer, Gel Electrolyte Systems, Li-SPE (lithium solid polymer electrolyte systems).
Organosilicon and
Metal-O
rganic Materials
Cathode Fabrication
Ureasil Gel Electrolytes
Li SaltsLi, Na Complex
SIB1550.0 SIB1856.0
Electrolyte Acid Scavengers Gel Electrolytes© 2010 Gelest, Inc.
• Electroactive and Dielectric Materials - including membranes, electrodes and electrolytes• Water Immiscible Fluids - for electrolyte, heat transfer and lubricant applications• Structural Materials - including mesoporous ceramics and advanced composites
• Component Protection Materials - including passivation and encapsulation• Sol-Gel Coatings - for AR (anti-reflection) and abrasion resistance
• Optical Materials - including band-gap and index materials
Generation, Capture and Storage
www.gelest.com
OMPH066
Li, Na Complex
Capacitors –
low vapor pressure
Ionic Liquids provide broad voltage windows, high ionic
conductivities and
Li, Na Complex
Metal-O
rganic
11 East Steel Rd.Morrisville, PA 19067Phone: 215-547-1015Fax: [email protected]
Gelest, Inc.Provides technical expertise in silicon and metal-organic materialsfor applications in alternative energy. The core manufacturing technology of Gelest is silanes, silicones and metal-organics with thecapability to handle flammable, corrosive and air sensitive materials. Headquartered in Morrisville, PA Gelest is recognized world-wide as an innovative manufacturer and supplier in commercial and research quantities, serving advanced technology markets through a material science driven approach.
Organosilicon and Metal-Organic materials from Gelest are helping to meet the challenges for:
Meeting the Demands of Renewable Energy:
Capture & StorageAdvanced Batteries –
Capacitors –Collectorelectrode
Activatedcarbon electrode
(2) With electric field
Hole Electron Positive ion Negative ion
(1) Without electric field
Ultracapacitor
Organosilicon and
Metal-Organic Materials
Lithium Cathodes:
CXFE030 SID4220.5
SIB1824.82 OMPH066
CXLI083
Ionic Liquids provide broad voltage windows, high ionic
conductivities and low vapor pressure
• Ultracapacitors (electrochemical double layer capacitors EDLCs) offer high power and energy densityby utilizing high surface area porous carbon electrodes and ultra-thin dielectric distances. Broadervoltage windows are anticipated with hydrogel or organic electrolytes.
For additional information on Gelest’s Silicon and Metal-Organic based products or to enquire how we may assist in Enabling Your Technology, please contact:
Solid Polymer, Gel Electrolyte Systems, Li-SPE (lithium solid polymer electrolyte systems).
Organosilicon and
Metal-O
rganic Materials
Cathode Fabrication
Ureasil Gel Electrolytes
Li SaltsLi, Na Complex
SIB1550.0 SIB1856.0
Electrolyte Acid Scavengers Gel Electrolytes© 2010 Gelest, Inc.
• Electroactive and Dielectric Materials - including membranes, electrodes and electrolytes• Water Immiscible Fluids - for electrolyte, heat transfer and lubricant applications• Structural Materials - including mesoporous ceramics and advanced composites
• Component Protection Materials - including passivation and encapsulation• Sol-Gel Coatings - for AR (anti-reflection) and abrasion resistance
• Optical Materials - including band-gap and index materials
Generation, Capture and Storage
www.gelest.com
Provides technical expertise in silicon and metal-organic materialsfor applications in alternative energy. The core manufacturing technology of Gelest is silanes, silicones and metal-organics with thecapability to handle flammable, corrosive and air sensitive
Headquartered in Morrisville, PA Gelest is recognized world-wide as an innovative manufacturer and supplier in commercial and research quantities, serving advanced technology markets through a
for applications in alternative energy. The core manufacturing technology of Gelest is silanes, silicones and metal-organics with thecapability to handle flammable, corrosive and air sensitive
Provides technical expertise in silicon and metal-organic materials
www.gelest.com
based products or to enquire how we may assist in based products or to enquire how we may assist in based products or to enquire how we may assist in For additional information on Gelest’s Silicon and Metal-Organic based products or to enquire how we may assist in For additional information on Gelest’s Silicon and Metal-Organic
research quantities, serving advanced technology markets through a research quantities, serving advanced technology markets through a research quantities, serving advanced technology markets through a wide as an innovative manufacturer and supplier in commercial and research quantities, serving advanced technology markets through a
Headquartered in Morrisville, PA Gelest is recognized world-wide as an innovative manufacturer and supplier in commercial and
capability to handle flammable, corrosive and air sensitive Headquartered in Morrisville, PA Gelest is recognized world-
wide as an innovative manufacturer and supplier in commercial and
capability to handle flammable, corrosive and air sensitive Headquartered in Morrisville, PA Gelest is recognized world-
technology of Gelest is silanes, silicones and metal-organics with thecapability to handle flammable, corrosive and air sensitive
for applications in alternative energy. The core manufacturing technology of Gelest is silanes, silicones and metal-organics with thecapability to handle flammable, corrosive and air sensitive
for applications in alternative energy. The core manufacturing