On Mon, Oct 23, 2017 at 11:05 AM, Rainwater, Jason (CONTR) <Jason.Rainwater@ee.doe.gov> wrote:
Julia – thank you for the introduction and for correcting the project status for Neah Power Systems on our website.
Office of Energy Efficiency and Renewable Energy XXXXXX, we are not currently updating the project status of projects that are in progress, but we do monitor and track them. Was there anything specific you wanted to see changed for Neah’s project summary on www.sbv.org?
Best regards,
Jason Rainwater
Program Analyst - Team Leader
Redhorse Corp. | U.S. Department of Energy
Office of Energy Efficiency and Renewable Energy
1000 Independence Avenue, SW
Washington, DC 20585
Office: 202-586-9197
Cell: 240-246-5740
Jason.Rainwater@ee.doe.gov
Neah Power in ....Vehicle Technologies Office Merit Review 2017
Home » Vehicle Technologies Office Merit Review 2017: Post-Test Analysis of Lithium-Ion Battery Materials
Presentation given by Department of Energy (DOE) at the 2017 DOE Vehicle Technologies Office and Hydrogen and Fuel Cells Program Annual Merit Review and Peer Evaluation Meeting about Electrochemical Storage.
Neah has been added as collaborator with a much bigger budget..
Hello Bill,
I wrote the SBV regarding the ANL testing. Here is the email string I received today. Read from the bottom up. You're a smart guy familiar with the technology. What do you think?
Regards
------------------------------------
Julia,
I contacted the PI (Ira Bloom) and here is his update on this project:
Greg: It took a while to get the CRADA paperwork in place. The CRADA was fully executed on 4/18/2017. We received the initial samples for characterization from NEAH Power. The samples were shipped to us on 5/26/2017 and were received in June. The baseline material was characterized in terms of microstructure; these results were shared with NEAH by e-mail and discussed with them on a phone call on 7/10/2017. We continue to characterize their materials and should have more results to share with them by the end of the week. --Ira
So, it looks like things are now on track and the project is underway.
Greg
-----------------------------------
From: Kelley, Julia S. [mailto:kelleyjs@ornl.gov]
Sent: Thursday, July 27, 2017 9:05 AM
To: Krumdick, Gregory K. <gkrumdick@anl.gov>
Cc: Palmer, Jennifer A. <palmerja@ornl.gov>; Blankenship, Angela A. <blankenshiaa@ornl.gov>; aldenic@verizon.net; Blankenship, Angela A. <blankenshiaa@ornl.gov>
Subject: Question: SBV - AMO project at ANL - no progress in a year - please provide status info
Importance: High
Greg:
During Round 2 of the Small Business Voucher Pilot program, Neah Power Systems was assigned to Argnonne National Laboratory and funds were provided for the work by DOE’s AMO program office. Following up on my call today, would you please contact the PI and let me know what the status is of this project? I need to report back to the small business ASAP.
Thank you.
Julia Kelley
Julia Kelley
Oak Ridge National Laboratory
Small Business Vouchers Pilot Program
(865) 574-1013
kelleyjs@ornl.gov
---------------------------------------
From: Blankenship, Angela A.
Sent: Tuesday, July 25, 2017 1:18 PM
To: Kelley, Julia S.
Subject: FW: Is this project dead? No movement in a year.
Hi Julia,
Is it possible that ANL has incurred cost that they just haven’t invoiced yet? We haven’t received any invoices at all, and the beginning date for the PO was 10/27/2016.
Angie
------------------------------------------
From: Palmer, Jennifer A.
Sent: Monday, July 24, 2017 7:47 PM
To: Kelley, Julia S. <kelleyjs@ornl.gov>
Cc: Blankenship, Angela A. <blankenshiaa@ornl.gov>
Subject: FW: Is this project dead? No movement in a year.
Company Name: Neah Power Systems Program Office: Advanced Manufacturing Location: Bothell, WA Website: neahpower.com EMAIL: Dr. Chris D’Couto, President & CEO; cdcouto@neahpower.com Award Amount: $300,000 Project Term: 12 months Project Status: In Progress Participating Lab(s): Argonne National Laboratory
Project Status: In Progress
It took a while to get the CRADA paperwork in place. The CRADA was fully executed on 4/18/2017 The year is up and the report still says in progress... so very good question
If you look at the photos on the website you can see the Argonne Lab Labels... in the image below this is an Argonne Lab photo...
Company Name: Neah Power Systems Program Office: Advanced Manufacturing Location: Bothell, WA Website: neahpower.com EMAIL: Dr. Chris D’Couto, President & CEO; cdcouto@neahpower.com Award Amount: $300,000 Project Term: 12 months Project Status: In Progress Participating Lab(s): Argonne National Laboratory
Lowering Battery Costs Through Repurposed Electronic Foundry Manufacturing
CRITICAL NEED Battery technology has advanced by leaps and bounds in the past decade, but current lithium-ion battery chemistries based on a high-energy cathode and a lithium-intercalation anode, such as graphite, are reaching some of their limits when it comes to providing high-energy-density power at a low cost per unit with low capital cost for production.
Replacing graphite with lithium metal or lithium alloy is a viable method to increase energy density. Neah Power Systems has patented a three-dimensional porous silicon based lithium-metal battery that has demonstrated 1,500 watts per liter of volume and 500 watts per kilogram. This battery uses older generation computer chip manufacturing technology that is widely available throughout the world, enabling a low cost, which the company targets at $150 per kilowatt hour in high volume production. Such a low price point would make the battery applicable across industries, from small devices such as cell phones to larger applications for stationary power, automotive and grid-scale back up. Such a foundry model allows a low capital-cost ramp up into high volume production, with very high quality control. Through the SBV Pilot, the company will utilize Argonne National Laboratory staff and expertise to determine the optimal metallization scheme for porous silicon as well as reliable and reproducible processes and insights into possible causes of degradation, capacity fade and dendrite growth.
PROJECT INNOVATION + ADVANTAGES In addition to utilizing existing manufacturing technology, the battery uses existing materials for the anode, cathode, the separator and the electrolytes. This reduces the risk of new materials adoption and testing. The technology also includes a unique approach using microchip geometry to control dendrite growth. The understanding acquired through the project will improve the manufacturing of the porous silicon, in particular the metallization process. This will help the company achieve target metrics on cost, and performance, and allow longer cycle lifetime for the battery.
POTENTIAL IMPACT Economy: Developing new technologies that can piggyback on older industries preserves jobs, utilizes existing infrastructure and fosters opportunities in advanced manufacturing, including domestic job creation.
Environment: Electric vehicles reduce pollution associated with gasoline combustion. Electricity storage is also an important complement for renewable electricity systems, which vary in how much power they produce based on local weather conditions.
Security: Electric vehicles are increasingly cost-competitive with their gasoline counterparts, but consumers will remain hesitant to purchase them until their range grows longer. Higher penetration for such vehicles can dramatically reduce U.S. gasoline consumption and the country's resulting reliance on overseas oil markets.
SBV is an initiative of the Office of Energy Efficiency & Renewable Energy within the U.S. Department of Energy (DOE) and participating DOE national labs.
Contact the webmaster to send comments, report problems,
In the pdf above you can see neah power named as a collaborator should have been an major company announcement...
I contacted the PI (Ira Bloom) and here is his update on this project:
Greg: It took a while to get the CRADA paperwork in place. The CRADA was fully executed on 4/18/2017. We received the initial samples for characterization from NEAH Power. The samples were shipped to us on 5/26/2017 and were received in June. The baseline material was characterized in terms of microstructure; these results were shared with NEAH by e-mail and discussed with them on a phone call on 7/10/2017. We continue to characterize their materials and should have more results to share with them by the end of the week. --Ira
So, it looks like things are now on track and the project is underway.
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