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2D Materials and Van der Waals Heterostructures

2D Materials and Van der Waals Heterostructures

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The advent of graphene and, more recently, two-dimensional materials has opened new perspectives in electronics, optoelectronics, energy harvesting, and sensing applications. This book, based on a Special Issue published in Nanomaterials – MDPI covers experimental, simulation, and theoretical research on 2D materials and their van der Waals heterojunctions. The emphasis is the physical properties and the applications of 2D materials in state-of-the-art sensors and electronic or optoelectronic devices.

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Keywords

  • 2D materials
  • adsorption energy
  • and magnetic property
  • CdS/g-C3N4
  • copper vanadate
  • CVD
  • density functional theory
  • density of states
  • diode
  • electronic properties
  • electronic structure
  • field effect transistors
  • first principles calculations
  • fluorescence emission
  • Graphene
  • graphene oxide
  • graphene/MoS2 heterostructure
  • half-metallocene
  • heterojunction
  • hybrid density functional
  • indium selenide
  • large-area
  • Layer-dependent
  • light-harvesting performance
  • mechanical behaviors
  • MOS (Metal Oxide Semiconductor) capacitor
  • MXene
  • Optical properties
  • palladium selenide monolayer
  • photoanode
  • photocatalysis
  • photocatalytic properties
  • photodetection
  • photodetector
  • photovoltaics
  • physical properties
  • PMMA
  • Raman mapping
  • responsivity
  • Schottky barrier
  • sensitivity
  • Stone–Wales defected graphene
  • strain-tunable
  • surface plasmon resonance
  • Technology, engineering, agriculture
  • Technology: general issues
  • Ti3C2Tx
  • transition metal dichalcogenide
  • transition metal dichalcogenides
  • tungsten diselenide
  • type-II heterostructure
  • van der Waals heterostructure
  • water splitting
  • work function
  • WS2
  • ZnO/WS2
  • ZnO/WSe2

Links

DOI: 10.3390/books978-3-03928-769-7

Editions

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