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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- 2D materials
- adsorption energy
- and magnetic property
- copper vanadate
- density functional theory
- density of states
- electronic properties
- electronic structure
- field effect transistors
- first principles calculations
- fluorescence emission
- graphene oxide
- graphene/MoS2 heterostructure
- hybrid density functional
- indium selenide
- light-harvesting performance
- mechanical behaviors
- MOS (Metal Oxide Semiconductor) capacitor
- Optical properties
- palladium selenide monolayer
- photocatalytic properties
- physical properties
- Raman mapping
- Schottky barrier
- Stone–Wales defected graphene
- surface plasmon resonance
- Technology, engineering, agriculture
- Technology: general issues
- transition metal dichalcogenide
- transition metal dichalcogenides
- tungsten diselenide
- type-II heterostructure
- van der Waals heterostructure
- water splitting
- work function
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