Effective band gap engineering by the incorporation of Ce, N and S dopant ions into the SrTiO3 lattice: exploration of photocatalytic activity under UV/solar light | SpringerLink
Ru doping effect on the structural, electronic, transport, optical and dye degradation properties of layered Li2MnO3 | SpringerLink
Semiconductor-Detectors
Indirect and direct bandgaps of a) the pristine and b) chemically... | Download Scientific Diagram
Electronic Structures, Bonding Configurations, and Band‐Gap‐Opening Properties of Graphene Binding with Low‐Concentration Fluorine - Duan - 2015 - ChemistryOpen - Wiley Online Library
Mobility enhancement in heavily doped semiconductors via electron cloaking | Nature Communications
Structure and Optical Bandgap Relationship of π-Conjugated Systems | PLOS ONE
How does the energy gap in an intrinsic semiconductor vary, when doped with a pentavalent impurity?
Cr-doped BaSnO3 nanoporous thin films with tunable band gap via a facile colloidal solution route - ScienceDirect
Variations in band gap energy of ZnO nanorods with cobalt doping. | Download Scientific Diagram
Catalysts | Free Full-Text | A CeO2 Semiconductor as a Photocatalytic and Photoelectrocatalytic Material for the Remediation of Pollutants in Industrial Wastewater: A Review
Crystal Chemistry, Band-Gap Red Shift, and Electrocatalytic Activity of Iron-Doped Gallium Oxide Ceramics | ACS Omega
Crystal Chemistry, Band-Gap Red Shift, and Electrocatalytic Activity of Iron-Doped Gallium Oxide Ceramics | ACS Omega
Quantum engineering of non-equilibrium efficient p-doping in ultra-wide band -gap nitrides | Light: Science & Applications
The Effects of Mn Doping on the Structural and Optical Properties of ZnO
Chapter 4a
Valence band structure and charge distribution in the layered lanthanide- doped CuCr0.99Ln0.01S2 (Ln = La, Ce) solid solutions | Scientific Reports
BASIC ELECTRONICS Module 1 Introduction to Semiconductors - ppt video online download
Designing a Lower Band Gap Bulk Ferroelectric Material with a Sizable Polarization at Room Temperature | ACS Energy Letters
Aligning the Band Gap of Graphene Nanoribbons by Monomer Doping - Bronner - 2013 - Angewandte Chemie International Edition - Wiley Online Library
Extrinsic Semiconductors: Dopants, n-type & p-type Semiconductor, Q&A
Tuning the band gap of M-doped titanate nanotubes (M = Fe, Co, Ni, and Cu): an experimental and theoretical study - Nanoscale Advances (RSC Publishing) DOI:10.1039/D0NA00932F
Band Gap Reduction - an overview | ScienceDirect Topics
Semiconductors: Why is the energy level of acceptor state closer to the valence band than to conduction band? - Quora
Barium Titanate Semiconductor Band Gap Characterization through Gravitationally Optimized Support Vector Regression and Extreme Learning Machine Computational Methods
Variations in band gap energy of ZnO nanorods with cobalt doping. | Download Scientific Diagram
