SCOPUS 정보 검색 플랫폼

Volumn 6, Issue 1, 2014, Pages 298-304

Radio-frequency-transparent, electrically conductive graphene nanoribbon thin films as deicing heating layers

(8) Volman, Vladimir a Zhu, Yu b Raji, Abdul Rahman O b Genorio, Bostjan b Lu, Wei b Xiang, Changsheng b Kittrell, Carter c Tour, James M b,c,d

a LOCKHEED MARTIN (United States)

b RICE UNIVERSITY (United States)

c RICE UNIVERSITY (United States)

d Rice University (United States)

Author keywords

carbon based thin film; deicing; electrically conductive film; graphene nanoribbon (GNR); radar; radio frequency (RF) transparent; radome; skin effect; transmission loss

Indexed keywords

CARBON-BASED; DEICING; ELECTRICALLY CONDUCTIVE FILMS; GRAPHENE NANORIBBON (GNR); RADIO FREQUENCIES; TRANSMISSION LOSS;

COATINGS; CONDUCTIVE MATERIALS; FILM THICKNESS; GRAPHENE; HEATING; MARINE APPLICATIONS; METALS; RADAR; RADOMES; SKIN EFFECT; SNOW AND ICE REMOVAL; THIN FILMS;

NANORIBBONS;

EID: 84892392100 PISSN: 19448244 EISSN: 19448252 Source Type: Journal
DOI: 10.1021/am404203y Document Type: Article

Times cited : (52)

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