Stone-Wales Defect in Graphene

Santosh K Tiwari^{1

2}, Sarvesh Kumar Pandey³, Raunak Pandey⁴, Nannan Wang¹, Michał Bystrzejewski⁵, Yogendra Kumar Mishra⁶, Yanqiu Zhu⁷

Affiliations

¹ Key Laboratory of New Processing Technology for Nonferrous Metals and Materials, Ministry of Education, School of Resources, Environment and Materials, Guangxi University, Nanning, 530004, China.
² Department of Chemistry, NMAM Institute of Technology, Nitte (Deemed to be University), Mangaluru, Karnataka, 547110, India.
³ Department of Chemistry, School of Basic Sciences, Manipal University Jaipur, Jaipur, Rajasthan, 303007, India.
⁴ Department of Chemical Science and Engineering, Kathmandu University, Dhulikhel, 44600, Nepal.
⁵ Faculty of Chemistry, Warsaw University, 1 Pasteur Str., Warsaw, 02-093, Poland.
⁶ Smart Materials, NanoSYD, Mads Clausen Institute, University of Southern Denmark, Alsion 2, Sønderborg, 6400, Denmark.
⁷ College of Engineering, Mathematics and Physical Sciences, University of Exeter, Exeter, EX4 4QF, UK.

PMID: 37386778
DOI: 10.1002/smll.202303340

Review

Stone-Wales Defect in Graphene

Santosh K Tiwari et al. Small. 2023 Nov.

. 2023 Nov;19(44):e2303340.

doi: 10.1002/smll.202303340. Epub 2023 Jun 29.

Authors

Santosh K Tiwari^{1

2}, Sarvesh Kumar Pandey³, Raunak Pandey⁴, Nannan Wang¹, Michał Bystrzejewski⁵, Yogendra Kumar Mishra⁶, Yanqiu Zhu⁷

Affiliations

¹ Key Laboratory of New Processing Technology for Nonferrous Metals and Materials, Ministry of Education, School of Resources, Environment and Materials, Guangxi University, Nanning, 530004, China.
² Department of Chemistry, NMAM Institute of Technology, Nitte (Deemed to be University), Mangaluru, Karnataka, 547110, India.
³ Department of Chemistry, School of Basic Sciences, Manipal University Jaipur, Jaipur, Rajasthan, 303007, India.
⁴ Department of Chemical Science and Engineering, Kathmandu University, Dhulikhel, 44600, Nepal.
⁵ Faculty of Chemistry, Warsaw University, 1 Pasteur Str., Warsaw, 02-093, Poland.
⁶ Smart Materials, NanoSYD, Mads Clausen Institute, University of Southern Denmark, Alsion 2, Sønderborg, 6400, Denmark.
⁷ College of Engineering, Mathematics and Physical Sciences, University of Exeter, Exeter, EX4 4QF, UK.

PMID: 37386778
DOI: 10.1002/smll.202303340

Abstract

2D graphene the most investigated structures from nanocarbon family studied in the last three decades. It is projected as an excellent material useful for quantum computing, artificial intelligence, and next generation advanced technologies. Graphene exists in several forms and its extraordinary thermal, mechanical, and electronic properties, principally depend on the kind of perfection of the hexagonal atomic lattice. Defects are always considered as undesired components but certain defects in graphene could be an asset for electrochemistry and quantum electronics due to the engineered electronclouds and quantum tunnelling. The authors carefully discuss the Stone-Wales imperfections in graphene and its derivatives comprehensively. A specific emphasis is focused on the experimental and theoretical aspects of the Stone-Wales defects in graphene with respect to structure-property relationships. The corroboration of extrinsic defects like external atomic doping, functionalization, edge distortion in the graphene consisting of Stone-Wales imperfections, which are very significant in designing graphene-based electronic devices, are summarized.

Keywords: Stone-Wales defect; graphene properties; graphene quantum electronics; graphene synthesis; novel graphene nanodevices.

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Stone-Wales Defect in Graphene

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Stone-Wales Defect in Graphene

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