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Company Information:

Company Name: NOHMS Technologies
City: Lexington
State: KY
Zip+4: 40511-8507
Woman-Owned: No
Minority-Owned: No
HUBZone-Owned: No
Website URL: N/A
Phone: N/A

Award Totals:

Program/Phase Award Amount ($) Number of Awards
SBIR Phase I $821,840.00 6
SBIR Phase II $500,000.00 1

Award List:

Novel Electrochemical Couples for High Energy and Power Density

Award Year / Program / Phase: 2011 / SBIR / Phase I
Agency: DOD
Principal Investigator: Navaneedhakrishnan Jayaprakash, Project Manager – (607) 229-9088
Award Amount: $149,922.00
Abstract:
ABSTRACT: For this SBIR Proposal, NOHMs Technology will design a safe, non-flammable, dendrite-suppressing electrolyte from a family of unique class of self-suspended hybrid nanoparticles for use in Li-S batteries. The three electrolytes to be explored are: (1) NOHMs Electrolyte, (2) NOHMs… More

High Energy Battery Materials with Novel Separator and Electrolytes for Space Applications

Award Year / Program / Phase: 2012 / SBIR / Phase I
Agency: NASA
Principal Investigator: Navaneedharakrishnan Jayaprakash, Principal Investigator
Award Amount: $122,318.00
Abstract:
Future space exploration energy-storage needs span a wide range of requirements. NASA's Exploration missions will require safe, human-rated, high specific energy, high energy density and high efficiency-storage systems that can be used in space and on the moon and Mars. These energy storage… More

SBIR Phase I: Sulfur-infused carbon nanostructures for High Energy Density Secondary Batteries

Award Year / Program / Phase: 2012 / SBIR / Phase I
Agency: NSF
Principal Investigator: Navaneedhakrish Jayaprakash
Award Amount: $149,826.00
Abstract:
This Small Business Innovation Research Phase I project will develop a novel nano-scale process for synthesizing sulfur infused carbon composite cathode materials to produce high-energy density lithium-sulfur (Li-S) secondary batteries with a high rate of charge/discharge and extraordinarily long… More

SBIR Phase I: Porous carbon substrate for long life lithium-sulfur batteries

Award Year / Program / Phase: 2012 / SBIR / Phase I
Agency: NSF
Principal Investigator: Navaneedhakrish Jayaprakash
Award Amount: $149,964.00
Abstract:
This Small Business Innovation Research Phase I project will address issues related to the development of high-energy lithium-ion batteries. Today, mobile devices require faster performance and smaller sizes for greater portability. However, the faster processors in these devices impose energy… More

Lithium-Sulfur batteries for energy storage applications

Award Year / Program / Phase: 2012 / SBIR / Phase I
Agency: DOD
Principal Investigator: Surya Moganty, Battery Scientist – (607) 379-5444
Award Amount: $99,964.00
Abstract:
NOHMs Technologies proposes to demonstrate the feasibility of developing a novel Lithium-Sulfur chemistry for electrical energy storage that provides high charge and discharge rates, high cycle life, and high energy density. The proposed technology is based on innovative sulfur-infused carbon… More

SBIR Phase II: Sulfur-infused carbon nanostructures for High Energy Density Secondary Batteries

Award Year / Program / Phase: 2013 / SBIR / Phase II
Agency: NSF
Principal Investigator: Navaneedhakrish Jayaprakash
Award Amount: $500,000.00
Abstract:
This proposed Small Business Innovation Research Phase II project will develop a novel nano- scale process for synthesizing sulfur-infused carbon composite cathode materials to produce high- energy density lithium-sulfur (Li-S) secondary batteries with a high rate of charge/discharge and… More

SBIR Phase I: High Capacity Li2S-Si Rechargeable Batteries for Energy Storage Applications

Award Year / Program / Phase: 2013 / SBIR / Phase I
Agency: NSF
Principal Investigator: Surya Moganty
Award Amount: $149,846.00
Abstract:
This Small Business Innovation Research Phase I project will develop a novel secondary battery platform based on a lithium sulfide-carbon composite cathode and a silicon anode that demonstrates high energy density and long cycle life. Today, mobile devices require faster performance and smaller… More