K
Kostya S. Novoselov
Researcher at National University of Singapore
Publications - 442
Citations - 234951
Kostya S. Novoselov is an academic researcher from National University of Singapore. The author has contributed to research in topics: Graphene & Bilayer graphene. The author has an hindex of 115, co-authored 392 publications receiving 207392 citations. Previous affiliations of Kostya S. Novoselov include University of Manchester & Russian Academy of Sciences.
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Journal ArticleDOI
Graphene as a transparent conductive support for studying biological molecules by transmission electron microscopy
Rahul R. Nair,Peter Blake,J. R. Blake,Recep Zan,S. Anissimova,Ursel Bangert,Alexander P. Golovanov,Sergey V. Morozov,Andre K. Geim,Kostya S. Novoselov,Tatiana Latychevskaia +10 more
TL;DR: In this paper, a simple procedure to produce free-standing graphene membranes has been designed for imaging individual biological molecules in transmission electron microscope (TEM) and high contrast has been achieved even though no staining has been applied.
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Electrically controlled water permeation through graphene oxide membranes
Kai-Ge Zhou,K. S. Vasu,C. T. Cherian,Mehdi Neek-Amal,Mehdi Neek-Amal,Jingyu Zhang,H. Ghorbanfekr-Kalashami,K. Huang,Owen P. Marshall,Vasyl G. Kravets,Jacob A. Abraham,Yang Su,Alexander N. Grigorenko,Andrew Pratt,Andre K. Geim,François M. Peeters,Kostya S. Novoselov,Rahul R. Nair +17 more
TL;DR: Elect electrically controlled water permeation through micrometre-thick graphene oxide membranes is demonstrated, from ultrafast permeation to complete blocking, which opens up an avenue for developing smart membrane technologies for artificial biological systems, tissue engineering and filtration.
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Micrometer-scale ballistic transport in encapsulated graphene at room temperature
A. S. Mayorov,Roman V. Gorbachev,Sergey V. Morozov,L. Britnell,Rashid Jalil,L. A. Ponomarenko,Peter Blake,Kostya S. Novoselov,Kenji Watanabe,Takashi Taniguchi,Andre K. Geim +10 more
TL;DR: In this article, a hexagonal boron-nitride was used to encapsulate graphene, which made the material practically insusceptible to the ambient atmosphere and simultaneously allowed the use of the material as an ultrathin top gate dielectric.
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Nanolithography and manipulation of graphene using an atomic force microscope
TL;DR: In this article, an atomic force microscope (AFM) was used to manipulate graphene films on a nanoscopic length scale, by means of local anodic oxidation with an AFM, to structure isolating trenches into single-layer and few-layer graphene flakes, opening the possibility of tabletop graphene based device fabrication.
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Strain mapping in a graphene monolayer nanocomposite.
TL;DR: It has been demonstrated that the distribution of strain across the graphene monolayer is relatively uniform at levels of applied strain up to 0.6% but that it becomes highly nonuniform above this strain.