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NANOTEK INSTRUMENTS INC
UEI: HFQ6DV4TVLK7
# of Employees: 12
HUBZone Owned: Yes
Socially and Economically Disadvantaged: No
Woman Owned: No
Award Charts
Award Listing
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Graphene-Enabled Pre-Lithiated Anode for High-Efficiency Li-ion Batteries
Amount: $149,997.14This proposal seeks to develop a high-efficiency and long-cycle-life graphene-silicon anode by an innovative pre-lithiation strategy. Graphene possesses ultra-high mechanical strength and high electri ...
SBIRPhase I2021Department of Defense Air Force -
A Drop-In Non-Flammable Electrolyte for Fire-Resistant, High Performance Lithium-ion Batteries
Amount: $166,498.00Recent incidents on Li-ion batteries (LIBs) have raised safety concerns for electric vehicles, cell phones, and many other battery-powered devices. The root cause arises from the flammable organic liq ...
STTRPhase I2020Department of Defense Army -
Graphene-Enabled Long-Cycle-Life Lithium-Sulfur Batteries without Excess Lithium and Electrolyte
Amount: $99,997.73This proposal seeks to advance the next generation of portable energy storage by exploiting the high specific energy intrinsic to the Li-S system. While sulfurs low electrical conductivity and the inh ...
SBIRPhase I2018Department of Defense Army -
Cost-Effective Manufacturing of High-Energy Lithium-Ion Batteries Utilizing Next Generation, Graphene-Protected Silicon Anodes and Non-Flammable Elect
Amount: $79,999.00This proposal seeks to develop a high-energy lithium-ion battery with enhanced safety enabled by a cost-effective graphene-protected nano-Si anode and a non-flammable electrolyte. Graphene possesses u ...
SBIRPhase I2016Department of Defense Navy -
SBIR Phase II: Ultra High Capacity and High Rate Anodes for Next Generation Lithium-Ion Batteries
Amount: $463,406.00This Small Business Innovation Research (SBIR) Phase II project aims to develop cost-effective and commercializable anode materials exhibiting large lithium storage capacity, high rate capability, and ...
SBIRPhase II2012National Science Foundation -
SBIR Phase I: Ultra High Capacity and High Rate Anodes for Next Generation Lithium-Ion Batteries
Amount: $149,990.00This Small Business Innovation Research Phase I project seeks to develop a new generation of anode materials for lithium-ion batteries having the advantages of low cost, high Li+ ion storage capacity, ...
SBIRPhase I2010National Science Foundation -
High-Capacity Nano Graphene Materials for Asymmetric Electrochemical Capacitors
Amount: $99,994.00The two most critical barriers to the large-scale implementation of supercapacitors for powering electric vehicles (EVs) are electrode performance (e.g., device weight, internal resistance, energy den ...
SBIRPhase I2009Department of Energy -
Low-Cost Manufacturing of Sheet Molding Compound Bipolar Plates for PEM Fuel Cells
Amount: $749,040.00In fuel cell systems, the bipolar plate is known to significantly impact the performance, durability, volume-to-weight ratio, and cost. This project will develop an innovative class of low-cost sheet ...
SBIRPhase II2007Department of Energy -
Nano Graphene Plate-Reinforced Polymer Composites
Amount: $750,000.00This project will develop a new class of nanocomposites containing isolated, individual, nano-scaled graphene plates (NGPs). Like carbon nano-tubes, NGP materials exhibit attractive properties like c ...
SBIRPhase II2006Department of Energy -
Low-Cost Manufacturing of Sheet Molding Compound Bipolar Plates for PEM Fuel Cells
Amount: $100,000.00The fluid-flow field plate, or bipolar plate, is known to significantly impact the performance, durability, and cost of a fuel cell system. Conventional methods of fabricating bipolar plates require t ...
SBIRPhase I2006Department of Energy