Colloidal nanocomposite of TiN and N-doped few-layer graphene for plasmonics and electrocatalysis
A combination of high carrier density, high surface area, solution processability, and low cost
is desired in a material for electrocatalytic applications, including H2 evolution and a counter
electrode of a solar cell. Also, plasmonic-based applications in biological systems can be
derived from such material. In this regard, a colloidal nanocomposite of TiN and N-doped
few-layer graphene (TiN–NFG) is synthesized from molecular precursors. TiN nanocrystals
(NCs) provide free electrons for electrical conductivity and plasmonics, whereas NFG is …
is desired in a material for electrocatalytic applications, including H2 evolution and a counter
electrode of a solar cell. Also, plasmonic-based applications in biological systems can be
derived from such material. In this regard, a colloidal nanocomposite of TiN and N-doped
few-layer graphene (TiN–NFG) is synthesized from molecular precursors. TiN nanocrystals
(NCs) provide free electrons for electrical conductivity and plasmonics, whereas NFG is …
Colloidal Nanocomposite of TiN and N-Doped Few-Layer Graphene for Plasmonics and Electrocatalysis
M JAGADEESWARARAO, U BANSODE, GS Shanker… - 2017 - dr.iiserpune.ac.in
A combination of high carrier density, high surface area, solution processability, and low cost
is desired in a material for electrocatalytic applications, including H2 evolution and a counter
electrode of a solar cell. Also, plasmonic-based applications in biological systems can be
derived from such material. In this regard, a colloidal nanocomposite of TiN and N-doped
few-layer graphene (TiN-NFG) is synthesized from molecular precursors. TiN nanocrystals
(NCs) provide free electrons for electrical conductivity and plasmonics, whereas NFG is …
is desired in a material for electrocatalytic applications, including H2 evolution and a counter
electrode of a solar cell. Also, plasmonic-based applications in biological systems can be
derived from such material. In this regard, a colloidal nanocomposite of TiN and N-doped
few-layer graphene (TiN-NFG) is synthesized from molecular precursors. TiN nanocrystals
(NCs) provide free electrons for electrical conductivity and plasmonics, whereas NFG is …
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