Invention Grant
- Patent Title: Flexible and compliant thermal interface materials with ultrahigh thermal conductivities
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Application No.: US15559260Application Date: 2016-03-17
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Publication No.: US10731269B2Publication Date: 2020-08-04
- Inventor: Mustafa Akbulut , Cengiz Yegin , Nirup K. Nagabandi , Blake Teipel
- Applicant: The Texas A&M University System
- Applicant Address: US TX College Station
- Assignee: THE TEXAS A&M UNIVERSITY SYSTEM
- Current Assignee: THE TEXAS A&M UNIVERSITY SYSTEM
- Current Assignee Address: US TX College Station
- Agency: Vivacqua Law PLLC
- International Application: PCT/US2016/022876 WO 20160317
- International Announcement: WO2016/149500 WO 20160922
- Main IPC: F28F13/00
- IPC: F28F13/00 ; C25D15/00 ; C25D3/38 ; C25D7/00 ; H01L23/373 ; H01L23/42 ; B32B9/00 ; C09K5/14 ; H05K7/20 ; B82Y30/00 ; B82Y40/00 ; H01L23/00
Abstract:
Inefficient dissipation of heat limits the performance of electronic devices. Thermal interface materials (TIMs) can be used in electronic devices to dissipate heat more effectively and efficiently. Nanocomposites have been prepared using functionalized boron nitride nanosheets (BNNS). The incorporation of soft-ligand functionalized BNNS in a metal matrix was used to nanofabricate kinetically-trapped nanocomposites TIMs.
Public/Granted literature
- US20180216248A1 FLEXIBLE AND COMPLIANT THERMAL INTERFACE MATERIALS WITH ULTRAHIGH THERMAL CONDUCTIVITIES Public/Granted day:2018-08-02
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