TY - BOOK ID - 146152529 TI - Preparation and Properties of 2D Materials AU - Cho, Byungjin AU - Kim, Yonghun PY - 2020 PB - Basel, Switzerland MDPI - Multidisciplinary Digital Publishing Institute DB - UniCat KW - History of engineering & technology KW - α-MoO3 KW - carbon nitride KW - g-C3N4 KW - molybdenum trioxide KW - nanoplates KW - synthesis KW - few-layer MoS2 KW - magnetron sputtering KW - magnetron sputtering power KW - raman spectroscopy KW - disorder KW - V2Se9 KW - atomic crystal KW - mechanical exfoliation KW - scanning Kelvin probe microscopy KW - MoS2 KW - black phosphorus KW - 2D/2D heterojunction KW - junction FET KW - tunneling diode KW - tunneling FET KW - band-to-band tunneling (BTBT) KW - natural molybdenite KW - MoS2 nanosheet KW - SiO2 KW - liquid exfoliation KW - photoelectric properties KW - uniaxial strain KW - flexible substrate KW - film-substrate interaction KW - photoluminescence KW - Raman spectroscopy KW - molybdenum disulfide KW - bilayer-stacked structure KW - WS2 KW - lubricant additives KW - tribological properties KW - interfacial layer KW - contact resistance KW - bias stress stability KW - saturable absorbers KW - Langmuir-Blodgett technique KW - Q-switched laser KW - chemical vapor deposition KW - P2O5 KW - p-type conduction KW - P-doped MoS2 KW - transition metal dichalcogenides KW - two-dimensional materials KW - ferroelectrics KW - 2D heterostructure KW - WSe2 KW - NbSe2 KW - Nb2O5 interlayer KW - synapse device KW - neuromorphic system KW - α-MoO3 KW - carbon nitride KW - g-C3N4 KW - molybdenum trioxide KW - nanoplates KW - synthesis KW - few-layer MoS2 KW - magnetron sputtering KW - magnetron sputtering power KW - raman spectroscopy KW - disorder KW - V2Se9 KW - atomic crystal KW - mechanical exfoliation KW - scanning Kelvin probe microscopy KW - MoS2 KW - black phosphorus KW - 2D/2D heterojunction KW - junction FET KW - tunneling diode KW - tunneling FET KW - band-to-band tunneling (BTBT) KW - natural molybdenite KW - MoS2 nanosheet KW - SiO2 KW - liquid exfoliation KW - photoelectric properties KW - uniaxial strain KW - flexible substrate KW - film-substrate interaction KW - photoluminescence KW - Raman spectroscopy KW - molybdenum disulfide KW - bilayer-stacked structure KW - WS2 KW - lubricant additives KW - tribological properties KW - interfacial layer KW - contact resistance KW - bias stress stability KW - saturable absorbers KW - Langmuir-Blodgett technique KW - Q-switched laser KW - chemical vapor deposition KW - P2O5 KW - p-type conduction KW - P-doped MoS2 KW - transition metal dichalcogenides KW - two-dimensional materials KW - ferroelectrics KW - 2D heterostructure KW - WSe2 KW - NbSe2 KW - Nb2O5 interlayer KW - synapse device KW - neuromorphic system UR - https://www.unicat.be/uniCat?func=search&query=sysid:146152529 AB - Since the great success of graphene, atomically thin-layered nanomaterials, called two dimensional (2D) materials, have attracted tremendous attention due to their extraordinary physical properties. Specifically, van der Waals heterostructured architectures based on a few 2D materials, named atomic-scale Lego, have been proposed as unprecedented platforms for the implementation of versatile devices with a completely novel function or extremely high-performance, shifting the research paradigm in materials science and engineering. Thus, diverse 2D materials beyond existing bulk materials have been widely studied for promising electronic, optoelectronic, mechanical, and thermoelectric applications. Especially, this Special Issue included the recent advances in the unique preparation methods such as exfoliation-based synthesis and vacuum-based deposition of diverse 2D materials and also their device applications based on interesting physical properties. Specifically, this Editorial consists of the following two parts: Preparation methods of 2D materials and Properties of 2D materials ER -