A New Hybrid Material: Monolithic Biomorphic Carbon/Nickel Nanoparticles for Energy Storage Devices

T. S. Orlova; A. A. Spitsyn; D. A. Ponomarev; D. A. Kirilenko; A. E. Romanov

doi:10.1134/S1063785019080297

A New Hybrid Material: Monolithic Biomorphic Carbon/Nickel Nanoparticles for Energy Storage Devices

Autores: Orlova T.S.¹, Spitsyn A.A.², Ponomarev D.A.², Kirilenko D.A.¹^,3, Romanov A.E.¹^,3
Afiliações:
1. Ioffe Physical Technical Institute, Russian Academy of Sciences
2. St. Petersburg State Forest Technical University
3. St. Petersburg University of Information Technologies, Mechanics, and Optics
Edição: Volume 45, Nº 8 (2019)
Páginas: 809-813
Seção: Article
URL: https://journals.rcsi.science/1063-7850/article/view/208400
DOI: https://doi.org/10.1134/S1063785019080297
ID: 208400

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A simple, inexpensive, and ecologically safe method has been used to obtain a new hybrid material—biomorphic carbon/nickel nanoparticles (bioC/NiNPs) composite—comprising a highly porous, partly graphitized carbon matrix (bioC) containing uniformly distributed nickel nanoparticles (NiNPs) with 5–70 nm dimensions. Transmission electron microscopy investigation showed that the bioC matrix consists predominantly of onion-like carbon with hollow capsules/pores about 5 nm in size and also contains graphite globules with dimensions up to 200 nm. The obtained bioC/NiNPs composite demonstrates high electrochemical capacitance stable up to about 1000 charge/discharge cycles and can be considered as promising material for monolithic electrodes of supercapacitors.

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hybrid carbon materials, nanocomposites, microstructure, electrochemical capacitance.

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A New Hybrid Material: Monolithic Biomorphic Carbon/Nickel Nanoparticles for Energy Storage Devices

Texto integral

Resumo

Palavras-chave

Sobre autores

T. Orlova

A. Spitsyn

D. Ponomarev

D. Kirilenko

A. Romanov

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