K
Konstantin S. Novoselov
Researcher at University of Manchester
Publications - 102
Citations - 15096
Konstantin S. Novoselov is an academic researcher from University of Manchester. The author has contributed to research in topics: Graphene & Graphene nanoribbons. The author has an hindex of 47, co-authored 102 publications receiving 12517 citations. Previous affiliations of Konstantin S. Novoselov include National University of Singapore.
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Graphene re-knits its holes
TL;DR: In this article, nano-holes, etched under an electron beam at room temperature in singlelayer graphene sheets as a result of their interaction with metal impurities, are shown to heal spontaneously by filling up with either non-hexagon, graphene-like, or perfect hexagon 2D structures.
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Photothermoelectric and photoelectric contributions to light detection in metal-graphene-metal photodetectors.
Tim Echtermeyer,P. S. Nene,Maxim Trushin,Roman V. Gorbachev,Anna Eiden,Silvia Milana,Zhipei Sun,John Schliemann,Elefterios Lidorikis,Konstantin S. Novoselov,Andrea C. Ferrari +10 more
TL;DR: In this paper, the wavelength and polarization-dependent measurements of metal-graphene-metal photodetectors were performed to quantify and control the relative contributions of both photothermo- and photoelectric effects, adding to the overall photoresponse.
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Wafer-Scale and Wrinkle-Free Epitaxial Growth of Single-Orientated Multilayer Hexagonal Boron Nitride on Sapphire
A-Rang Jang,Seokmo Hong,Chohee Hyun,Seong In Yoon,Gwangwoo Kim,Hu Young Jeong,Tae Joo Shin,Sung O Park,Kester Wong,Sang Kyu Kwak,Noejung Park,Kwangnam Yu,Eunjip Choi,Artem Mishchenko,Freddie Withers,Konstantin S. Novoselov,Hyunseob Lim,Hyeon Suk Shin +17 more
TL;DR: Wafer-scale and wrinkle-free epitaxial growth of multilayer hexagonal boron nitride on a sapphire substrate by using high-temperature and low-pressure chemical vapor deposition is presented.
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Graphene devices for life
TL;DR: Kostas Kostarelos and Kostya S. Novoselov examine the potential of graphene in biomedical applications and suggest a number of applications that could benefit from graphene-based materials engineering.
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Engineering Graphene Flakes for Wearable Textile Sensors via Highly Scalable and Ultrafast Yarn Dyeing Technique.
Shaila Afroj,Nazmul Karim,Zihao Wang,Sirui Tan,Pei He,Pei He,Matthew Holwill,Davit Ghazaryan,Davit Ghazaryan,Anura Fernando,Konstantin S. Novoselov +10 more
TL;DR: A highly scalable and ultrafast production of graphene-based flexible, washable, and bendable wearable textile sensors that show excellent temperature sensitivity, very good washability, and extremely high flexibility are reported.