the band gap of MXenes with various surface groups. | Download Table
Double transition metal MXenes with wide band gaps and novel magnetic properties - Nanoscale (RSC Publishing)
Lithiation of the Two-Dimensional Silicon Carbide–Graphene van der Waals Heterostructure: A First Principles Study - J. Phys. Chem. C - X-MOL
Carbide - Wikipedia
Effects of the Interlayer Interaction and Electric Field on the Band Gap of Polar Bilayers: A Case Study of Sc2CO2 - J. Phys. Chem. C - X-MOL
Boron carbide: Consistency of components, lattice parameters, fine structure and chemical composition makes the complex structure reasonable - ScienceDirect
Tantalum carbide - Wikipedia
Two dimensional ruthenium carbide: structural and electronic features - Physical Chemistry Chemical Physics (RSC Publishing)
Adsorption Induced Indirect-to-Direct Band Gap Transition in Monolayer Blue Phosphorus - J. Phys. Chem. C - X-MOL
Chemistry of one dimensional silicon carbide materials: Principle, production, application and future prospects - ScienceDirect
Two dimensional ruthenium carbide: structural and electronic features - Physical Chemistry Chemical Physics (RSC Publishing)
Silicon carbide - Wikipedia
Two dimensional ruthenium carbide: structural and electronic features - Physical Chemistry Chemical Physics (RSC Publishing)
Chemical doping of graphene - Journal of Materials Chemistry (RSC Publishing)
Silicon carbide embedded in carbon nanofibres: structure and band gap determination - Physical Chemistry Chemical Physics (RSC Publishing)
Silicon Carbide: The Return of an Old Friend | Sigma-Aldrich
Review article: silicon carbide. Structure, properties and processing
Surface State Mediated Electron Transfer Across the N-Type SiC/Electrolyte Interface,The Journal of Physical Chemistry C - X-MOL
Silicon Carbide
Band structures of hexagonal boron nitride and silicon carbide (top);... | Download Scientific Diagram
Carbon nanosheet facilitated charge separation and transfer between molybdenum carbide and graphitic carbon nitride toward efficient photocatalytic H2 production - ScienceDirect
Harnessing no-photon exciton generation chemistry to engineer semiconductor nanostructures | Scientific Reports
