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Company Information:

Company Name:
GoNano Technologies
Address:
121 West Sweet Avenue #115
Moscow, ID 83843-2386
Phone:
(208) 892-2000
URL:
N/A
EIN:
261364573
DUNS:
808496009
Number of Employees:
6
Woman-Owned?:
No
Minority-Owned?:
No
HUBZone-Owned?:
Yes

Commercialization:

Has been acquired/merged with?:
N/A
Has had Spin-off?:
N/A
Has Had IPO?:
N/A
Year of IPO:
N/A
Has Patents?:
N/A
Number of Patents:
N/A
Total Sales to Date $:
$ 0.00
Total Investment to Date $
$ 0.00
POC Title:
N/A
POC Name:
N/A
POC Phone:
N/A
POC Email:
N/A
Narrative:
N/A

Award Totals:

Program/Phase Award Amount ($) Number of Awards
SBIR Phase I $472,659.00 3

Award List:

SBIR Phase I: Nanospring-Based Ultracapacitor Electrodes

Award Year / Program / Phase:
2009 / SBIR / Phase I
Award Amount:
$147,549.00
Agency:
NSF
Principal Investigator:
Abstract:
This Small Business Innovation Research Phase I project is for development of Nanospring mats for electrodes in next generation ultracapacitors. The mats have high surface area for integration into ultracapacitor devices. The high specific power of ultracapacitors coupled with their ability to be… More

SBIR Phase I:Method for carbon capture and recycling

Award Year / Program / Phase:
2010 / SBIR / Phase I
Award Amount:
$176,385.00
Agency:
NSF
Principal Investigator:
Abstract:
This SBIR Phase I project will convert (recycle) CO2 into useful and economically important by-products (i.e., industrial feed stocks) using a nano crystalline anatase (TiO2) photo catalyst with a high surface area. Anatase is a well known photo-catalyst. The co-founders of the Nanospring platform… More

SBIR Phase I: Four-way Catalytic Converter for Lean Burn Diesel Engines

Award Year / Program / Phase:
2011 / SBIR / Phase I
Award Amount:
$148,725.00
Agency:
NSF
Principal Investigator:
Abstract:
This Small Business Innovation Research (SBIR) Phase I project will demonstrate the technical and commercial viability of a novel four-way catalytic converter for lean burn diesel applications that is based on high-surface area nanomaterials applied directly to the inner walls of existing catalytic… More