odhalit Parlament muzeum band gap modification in doped mxene sc2cf2 Podřízený hudebník Včela
The surface functional modification of Ti3C2Tx MXene by phosphorus doping and its application in quasi-solid state flexible supercapacitor - ScienceDirect
Prediction of MXene based tunable band gap 2D semiconductors: GW quasiparticle calculations
Two-dimensional MXenes: From morphological to optical, electric, and magnetic properties and applications
The surface functional modification of Ti3C2Tx MXene by phosphorus doping and its application in quasi-solid state flexible supercapacitor - ScienceDirect
Prediction of MXene based tunable band gap 2D semiconductors: GW quasiparticle calculations
Two-Dimensional Molybdenum Carbide (MXene) as an Efficient Electrocatalyst for Hydrogen Evolution | ACS Energy Letters
Band gap modification in doped MXene: Sc2CF2 - Journal of Materials Chemistry C (RSC Publishing)
Strain-Induced Band Modulation, Work Function, and QTAIM Analysis of Surface O-Functionalized Ti2C MXene | ACS Omega
First-principles study of structural, electronic and magnetic properties of transition metal doped Sc2CF2 MXene - ScienceDirect
Prediction of MXene based tunable band gap 2D semiconductors: GW quasiparticle calculations
Prediction of MXene based tunable band gap 2D semiconductors: GW quasiparticle calculations
Strain-Induced Band Modulation, Work Function, and QTAIM Analysis of Surface O-Functionalized Ti2C MXene | ACS Omega
Prediction of MXene based tunable band gap 2D semiconductors: GW quasiparticle calculations
Modification of energy band gap by doping the semiconductor. Metal... | Download Scientific Diagram
Strain-Induced Band Modulation, Work Function, and QTAIM Analysis of Surface O-Functionalized Ti2C MXene | Semantic Scholar
Engineering the band gap of Hf2CO2 MXene semiconductor by C/O doping | SpringerLink
The surface functional modification of Ti3C2Tx MXene by phosphorus doping and its application in quasi-solid state flexible supercapacitor - ScienceDirect
Band gap modification in doped MXene: Sc2CF2
Tunable Indirect to Direct Band Gap Transition of Monolayer Sc2CO2 by the Strain Effect | ACS Applied Materials & Interfaces
Engineering the band gap of Hf2CO2 MXene semiconductor by C/O doping | SpringerLink
Prediction of MXene based tunable band gap 2D semiconductors: GW quasiparticle calculations
Tunable Band Structures of Heterostructured Bilayers with Transition-Metal Dichalcogenide and MXene Monolayer | The Journal of Physical Chemistry C
In Silico Band-Gap Engineering of Cr2C MXenes as Efficient Photocatalysts for Water-Splitting Reactions | The Journal of Physical Chemistry C
MXetronics: MXene-Enabled Electronic and Photonic Devices | ACS Materials Letters