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Perspectives from research on metal-semiconductor contacts: Examples from Ga2O3, SiC, (nano)diamond, and SnS: Journal of Vacuum Science & Technology A: Vol 38, No 3
Perspectives from research on metal-semiconductor contacts: Examples from Ga2O3, SiC, (nano)diamond, and SnS: Journal of Vacuum Science & Technology A: Vol 38, No 3

Smartphones get gas sensor - Embedded.com
Smartphones get gas sensor - Embedded.com

Carrier‐selective contacts using metal compounds for crystalline silicon solar cells - Ibarra Michel - Progress in Photovoltaics: Research and Applications - Wiley Online Library
Carrier‐selective contacts using metal compounds for crystalline silicon solar cells - Ibarra Michel - Progress in Photovoltaics: Research and Applications - Wiley Online Library

The energy band diagram of a metal and n-type semiconductor junction in... | Download Scientific Diagram
The energy band diagram of a metal and n-type semiconductor junction in... | Download Scientific Diagram

Novel contact structures for high mobility channel materials | MRS Bulletin | Cambridge Core
Novel contact structures for high mobility channel materials | MRS Bulletin | Cambridge Core

Liquid metal deposition process developed for wafer-scale 2D semiconductors
Liquid metal deposition process developed for wafer-scale 2D semiconductors

Plasmonic metal–semiconductor heterostructures for hot-electron-driven photochemistry | MRS Bulletin | Cambridge Core
Plasmonic metal–semiconductor heterostructures for hot-electron-driven photochemistry | MRS Bulletin | Cambridge Core

Strategies for Semiconductor/Electrocatalyst Coupling toward Solar‐Driven Water Splitting - Thalluri - 2020 - Advanced Science - Wiley Online Library
Strategies for Semiconductor/Electrocatalyst Coupling toward Solar‐Driven Water Splitting - Thalluri - 2020 - Advanced Science - Wiley Online Library

Tracking subsurface ion radiation damage with metal–oxide–semiconductor device encapsulation | Journal of Materials Research | Cambridge Core
Tracking subsurface ion radiation damage with metal–oxide–semiconductor device encapsulation | Journal of Materials Research | Cambridge Core

High-K materials and Metal Gates for CMOS applications John Robertson Engineering Department, Cambridge University, Cambridge CB
High-K materials and Metal Gates for CMOS applications John Robertson Engineering Department, Cambridge University, Cambridge CB

Metal-Semiconductor Transition - an overview | ScienceDirect Topics
Metal-Semiconductor Transition - an overview | ScienceDirect Topics

Band Bending in Semiconductors: Chemical and Physical Consequences at Surfaces and Interfaces | Chemical Reviews
Band Bending in Semiconductors: Chemical and Physical Consequences at Surfaces and Interfaces | Chemical Reviews

High-frequency organic rectifiers through interface engineering | MRS Communications | Cambridge Core
High-frequency organic rectifiers through interface engineering | MRS Communications | Cambridge Core

Metal Semiconductor, Metal Photoconductor - Charge Coupled Devices (CCDs) and Photoconductors | Coursera
Metal Semiconductor, Metal Photoconductor - Charge Coupled Devices (CCDs) and Photoconductors | Coursera

Semiconductor device - Wikipedia
Semiconductor device - Wikipedia

Metal-induced gap states - Wikipedia
Metal-induced gap states - Wikipedia

Realization of vertical metal semiconductor heterostructures via solution phase epitaxy | Nature Communications
Realization of vertical metal semiconductor heterostructures via solution phase epitaxy | Nature Communications

Metal–Semiconductor Junction – Rectifying Contact
Metal–Semiconductor Junction – Rectifying Contact

PDF) Structural Deformation and Metal-Semiconductor Transition in Coupled Carbon Chains
PDF) Structural Deformation and Metal-Semiconductor Transition in Coupled Carbon Chains

PDF) Electronic properties of chemically modi. ed graphene ribbons | Felipe Cervantes Sodi - Academia.edu
PDF) Electronic properties of chemically modi. ed graphene ribbons | Felipe Cervantes Sodi - Academia.edu

Direct and Indirect Band Gap Semiconductors
Direct and Indirect Band Gap Semiconductors

Nanomaterials | Free Full-Text | Bias Tunable Photocurrent in Metal -Insulator-Semiconductor Heterostructures with Photoresponse Enhanced by Carbon Nanotubes | HTML
Nanomaterials | Free Full-Text | Bias Tunable Photocurrent in Metal -Insulator-Semiconductor Heterostructures with Photoresponse Enhanced by Carbon Nanotubes | HTML

Amorphous InGaZnO and metal oxide semiconductor devices: an overview and current status - Journal of Materials Chemistry C (RSC Publishing) DOI:10.1039/C9TC03933C
Amorphous InGaZnO and metal oxide semiconductor devices: an overview and current status - Journal of Materials Chemistry C (RSC Publishing) DOI:10.1039/C9TC03933C

Solar-Driven CO2 Reduction Using a Semiconductor/Molecule Hybrid Photosystem: From Photocatalysts to a Monolithic Artificial Leaf | Accounts of Chemical Research
Solar-Driven CO2 Reduction Using a Semiconductor/Molecule Hybrid Photosystem: From Photocatalysts to a Monolithic Artificial Leaf | Accounts of Chemical Research