Loren Data's SAM Daily™

SAMDAILY.US - ISSUE OF JANUARY 19, 2025 SAM #8454
SPECIAL NOTICE

99 -- TECHNOLOGY/BUSINESS OPPORTUNITY High-performance electrode with tuneable RF transmission

Notice Date

1/17/2025 4:12:45 PM
 

Notice Type

Special Notice
 

NAICS

444180 —
 

Contracting Office

LLNS � DOE CONTRACTOR Livermore CA 94551 USA
 

ZIP Code

94551
 

Solicitation Number

IL-13988
 

Response Due

2/17/2025 6:00:00 PM
 

Archive Date

03/04/2025
 

Point of Contact

Jared Lynch, Phone: 9254226667, Charlotte Eng, Phone: 9254221905
 

E-Mail Address

lynch36@llnl.gov, eng23@llnl.gov
(lynch36@llnl.gov, eng23@llnl.gov)
 

Description

Opportunity: Lawrence Livermore National Laboratory (LLNL), operated by the Lawrence Livermore National Security (LLNS), LLC under contract no. DE-AC52-07NA27344 (Contract 44) with the U.S. Department of Energy (DOE), is offering the opportunity to enter into a collaboration to further develop and commercialize its High-performance electrode with tuneable RF transmission. Background: High performance transparent conductive oxides (TCOs) can provide a continuous electrically conductive surface when deposited onto a substrate, but over large areas (over a couple centimeters in dimensions), there can be significant voltage drops. This can be overcome by adding conductive busbars (metal lines) to create long-range high conductivity pathways. Typical devices using high-performance TCOs require busbars to achieve desirable performance. With higher electronic conductivity, there is significant reflection of radio frequency (RF) radiation. The combination of TCO with busbars results in low sheet resistance and is unsuitable for large electrochemical devices, such as in smart windows. The alternative for TCOs with busbars is metal meshes since they have high conductivity, but the meshes also have drawbacks. They provide a limited electrochemically active surface. They also lose RF transparency as their spacing separation distance approaches the wavelength of incoming electromagnetic radiation. Common metal meshes are square or hexagonal arrays of wires and effectively block all EM radiation above a certain wavelength. The ability to maintain sufficient conductivity of electrochemical device substrates while maintaining adequate RF transparency would allow for creation of new, useful electrochemical and electrochromic devices. Description: LLNL researchers have developed a relatively large electrochemically active window with low sheet resistance yet has dramatically increased RF transmission. In-situ measurements show an ~40% increase in reflection at 12GHz when tinting for 10 minutes as compared to the off state. The researchers achieved this through combining novel geometric design of the metal traces with the appropriate grade of TCO material. The orientation of metal traces relative to the incident RF wave determines the reflectivity of the electrode while the overall sheet resistance is determined by TCO layer. Advantages/Benefits: 1.) Electrochemically active substrates with low sheet resistance but increased RF transmission. Novel design can also allow for tuneable RF transmission. 2.) Specific architectures allow for tuneable RF reflection up to 40% increase in RF reflection when in the fully on state compared to the off state. 3.) Multiple metal trace designs allow for electrode properties where polarization of the RF transmission is possible. Potential Applications: Dual functionality Smart Windows: can work with potentially all Smart Window products on the market while introducing additional functionality outside of just visible optical response. Development Status: Current stage of technology development: TRL ? 0-2 ? 3-5 ? 5-9 LLNL has filed for patent protection on this invention. LLNL is seeking industry partners with a demonstrated ability to bring such inventions to the market. Moving critical technology beyond the Laboratory to the commercial world helps our licensees gain a competitive edge in the marketplace. All licensing activities are conducted under policies relating to the strict nondisclosure of company proprietary information. Please visit the IPO website at https://ipo.llnl.gov/resources for more information on working with LLNL and the industrial partnering and technology transfer process. Note: THIS IS NOT A PROCUREMENT. Companies interested in commercializing LLNL's High-performance electrode with tuneable RF transmission should provide an electronic OR written statement of interest, which includes the following: Company Name and address. The name, address, and telephone number of a point of contact. A description of corporate expertise and/or facilities relevant to commercializing this technology. Please provide a complete electronic OR written statement to ensure consideration of your interest in LLNL's High-performance electrode with tuneable RF transmission. The subject heading in an email response should include the Notice ID and/or the title of LLNL�s Technology/Business Opportunity and directed to the Primary and Secondary Point of Contacts listed below. Written responses should be directed to: Lawrence Livermore National Laboratory Innovation and Partnerships Office P.O. Box 808, L-779 Livermore, CA 94551-0808 Attention: IL-13988
 

Web Link

SAM.gov Permalink
(https://sam.gov/opp/9430a20edbf44ca7a5baf964864b13f1/view)
 

Place of Performance

Address: Livermore, CA, USA

Country: USA
 

Record

SN07316409-F 20250119/250117230100 (samdaily.us)
 

Source

SAM.gov Link to This Notice
(may not be valid after Archive Date)

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