Recent developments and advances in boron-doped diamond electrodes for electrochemical oxidation of organic pollutants
Boron-doped diamond (BDD) electrode has been considered as an optimal electrode
material for electrochemical oxidation of organic contaminants in the aquatic environment …
material for electrochemical oxidation of organic contaminants in the aquatic environment …
A review on recent advances in the applications of boron-doped diamond electrochemical sensors in food analysis
O Sarakhman, Ľ Švorc - Critical Reviews in Analytical Chemistry, 2022 - Taylor & Francis
The usage of boron-doped diamond (BDD) material has found to be very attractive in
modern electroanalytical methods and received massive consideration as perspective …
modern electroanalytical methods and received massive consideration as perspective …
Recent advances in titanium-based boron-doped diamond electrodes for enhanced electrochemical oxidation in industrial wastewater treatment: A review
R Mehrkhah, M Hadavifar, M Mehrkhah… - Separation and …, 2024 - Elsevier
Today, the freshwater supply has become one of the most significant global challenges due
to the increasing world population. Various wastewaters, which contain high concentrations …
to the increasing world population. Various wastewaters, which contain high concentrations …
Clustering of hydrogen, phosphorus, and vacancies in diamond: A density functional theory analysis
Phosphorus-doped n-type diamond is currently one of the most promising wide-band-gap
materials for next-generation high-power electronics and optoelectronics. Artificial diamond …
materials for next-generation high-power electronics and optoelectronics. Artificial diamond …
Advances in n-Type Chemical Vapor Deposition Diamond Growth: Morphology and Dopant Control
R Rouzbahani, KJ Sankaran… - Accounts of Materials …, 2024 - ACS Publications
Conspectus Diamond, a wide bandgap semiconductor, has captivated researchers for
decades due to its exceptional properties. While p-type doping has dominated the field, the …
decades due to its exceptional properties. While p-type doping has dominated the field, the …
[HTML][HTML] The perspectives of diamond for 3H and 63Ni betavoltaic power sources, comparison with 4H–SiC
SI Maximenko - AIP Advances, 2023 - pubs.aip.org
Recently, power sources that utilize radioisotope energy conversion, specifically the
betavoltaic effect, have gained more attention due to the increasing demand for energy …
betavoltaic effect, have gained more attention due to the increasing demand for energy …
Luminescence properties of LiGaO2 crystal
The comprehensive spectral study of lithium metagallate LiGaO 2 crystal has been done
including methods of pump-probe techniques, optical absorption, photoluminescence …
including methods of pump-probe techniques, optical absorption, photoluminescence …
Carrier Diffusion in : A Cathodoluminescence Study. II. Ambipolar versus Exciton Diffusion
We determine the diffusion length of excess carriers in Ga N by spatially resolved
cathodoluminescence spectroscopy utilizing a single quantum well as a carrier collector or …
cathodoluminescence spectroscopy utilizing a single quantum well as a carrier collector or …
Photoluminescent behavior and structural analysis of SnO layers formed by laser-induced oxidation
We develop a rapid and spatially controlled formation method of a smooth polycrystalline
SnO film preventing the transition to the more stable SnO2 phase. The phase and structural …
SnO film preventing the transition to the more stable SnO2 phase. The phase and structural …
Diamond for High-Power, High-Frequency, and Terahertz Plasma Wave Electronics
High thermal conductivity and a high breakdown field make diamond a promising candidate
for high-power and high-temperature semiconductor devices. Diamond also has a higher …
for high-power and high-temperature semiconductor devices. Diamond also has a higher …