Silica-assisted bottom-up synthesis of graphene-like high surface area carbon for highly efficient ultracapacitor and Li-ion hybrid capacitor applications-Reference-Cited by-同舟云学术

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Silica-assisted bottom-up synthesis of graphene-like high surface area carbon for highly efficient ultracapacitor and Li-ion hybrid capacitor applications

Published:2016 Issue:15 Volume:4 Page:5578-5591
ISSN:2050-7488
Container-title:Journal of Materials Chemistry A
language:en
Short-container-title:J. Mater. Chem. A

Author:

Mhamane Dattakumar¹²³⁴,Aravindan Vanchiappan⁵⁶⁷⁸^ORCID,Kim Myeong-Seong¹²³⁴,Kim Hyun-Kyung¹²³⁴⁹,Roh Kwang Chul¹⁰¹¹¹²¹³⁴,Ruan Dianbo¹²³⁴,Lee Sang Hyun¹⁴¹⁵⁴,Srinivasan Madhavi⁵⁶⁷⁸¹⁶,Kim Kwang-Bum¹²³⁴

Affiliation:

1. Department of Materials Science and Engineering

2. Yonsei University

3. Seoul 120-749

4. Republic of Korea

5. Energy Research Institute@NTU (ERI@N)

6. Nanyang Technological University

7. Singapore 637553

8. Singapore

9. Department of Materials Science and Metallurgy

10. Energy Efficient Materials Team

11. Energy & Environmental Division

12. Korea Institute of Ceramic Engineering & Technology

13. Jinju 660-031

14. Sky Chem

15. Seongnam 462-901

16. School of Materials Science and Engineering

Abstract

A silica-assisted method was developed to prepare graphene-like carbon displaying excellent capacitive charge storage.

Publisher

Royal Society of Chemistry (RSC)

Subject

General Materials Science,Renewable Energy, Sustainability and the Environment,General Chemistry

Link

http://pubs.rsc.org/en/content/articlepdf/2016/TA/C6TA00868B

Reference58 articles.

1. Chemical methods for the production of graphenes

2. Recent advances in the efficient reduction of graphene oxide and its application as energy storage electrode materials

3. Synthesis of graphene-based nanosheets via chemical reduction of exfoliated graphite oxide

4. Trigol based reduction of graphite oxide to graphene with enhanced charge storage activity

5. Functionalized Single Graphene Sheets Derived from Splitting Graphite Oxide

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