2020
DOI: 10.1021/acsnano.0c02718
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Phononics of Graphene and Related Materials

Abstract: I present a concise account concerning the emergence of a research field, which deals with the thermal properties of graphene, covering the refinement of understanding of phonon transport in two-dimensional material systems. The practical application of graphene and fewlayer graphene in thermal interface materials are also discussed.

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Cited by 189 publications
(117 citation statements)
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“…G commonly used in the biosensing field includes graphene oxide (GO), reduced graphene (G-red), functionalized graphene ( f -G), together with emerging derivatives, such as graphene quantum dot (GQD), N-doped multiple graphene aerogel, graphene field-effect transistor (GFET) etc. The plethora of G is continuously supplied by new derivatives with unique properties, which potentially enable an entirely new generation of technologies beyond the limits of conventional materials [ 18 , 19 , 20 ].…”
Section: Graphene Nanomaterialsmentioning
confidence: 99%
“…G commonly used in the biosensing field includes graphene oxide (GO), reduced graphene (G-red), functionalized graphene ( f -G), together with emerging derivatives, such as graphene quantum dot (GQD), N-doped multiple graphene aerogel, graphene field-effect transistor (GFET) etc. The plethora of G is continuously supplied by new derivatives with unique properties, which potentially enable an entirely new generation of technologies beyond the limits of conventional materials [ 18 , 19 , 20 ].…”
Section: Graphene Nanomaterialsmentioning
confidence: 99%
“…[ 103 ] In general, high‐temperature annealing was an essential step in the preparation of graphene paper from GO, conducing the rearrangement of sp 2 carbon and the removal of oxygen‐containing functional groups, which further reduced the phonon scattering at the defects and functional groups, and finally resulted in the increase of in‐plane thermal conductivity. [ 104 ] However, the decrease of the cross‐plane thermal conductivity was attributed to the appearance of “air pockets” after high‐temperature annealing, which induced a gap between the graphene layers, and further hindered smooth transmission of phonons in the vertical direction. All in all, relatively low thermal conductivity of graphene paper in the through‐plane direction prevented its usage in high‐performance TIMs.…”
Section: Vg In Tim Applicationsmentioning
confidence: 99%
“…Seventeen years later we are approaching a time when the industry can provide this material in quality and quantity required for its application. Graphene is known for its outstanding electron mobility, [2,3] highest thermal conductivity of all materials, on par with diamond and carbon nanotubes (CNTs) and 12 times that of copper, [4][5][6] a mechanical breaking strength of 42 N/m (311 times higher than that of steel), and a Young's modulus of 1.0 ± 0.1 TPa. [7] The application of graphene as a functional layer or as an additive in coatings for corrosion protection has been attracting considerable interest in the last decade.…”
Section: Introductionmentioning
confidence: 99%