Selective emitter materials and designs for high-temperature thermophotovoltaic applications
In this manuscript, we review the role of selective emitters and filter materials in designs for
thermophotovoltaics. After a brief review of the basics of thermophotovoltaics, we present a …
thermophotovoltaics. After a brief review of the basics of thermophotovoltaics, we present a …
Unprecedented thermal stability of plasmonic titanium nitride films up to 1400° C
Titanium nitride (TiN) has emerged as one of the most promising refractory materials for
plasmonic and photonic applications at high temperatures due to its prominent optical …
plasmonic and photonic applications at high temperatures due to its prominent optical …
Iridium‐Based Selective Emitters for Thermophotovoltaic Applications
G Vaidhyanathan Krishnamurthy… - Advanced …, 2023 - Wiley Online Library
The long‐term operation of refractory‐metal‐based metamaterials is crucial for applications
such as thermophotovoltaics. The metamaterials based on refractory metals like W, Mo, Ta …
such as thermophotovoltaics. The metamaterials based on refractory metals like W, Mo, Ta …
Conversion of 2H MoS2 to 1 T MoS2 via lithium ion do**: Effective removal of elemental mercury
J Wei, P He, J Wu, N Chen, T Xu, E Shi, C Pan… - Chemical Engineering …, 2022 - Elsevier
In this work, a simple high-temperature calcination method was used to produce metallic
molybdenum disulfide (1 T-Li x MoS 2). Experiments and simulations show that 1 T-MoS 2 …
molybdenum disulfide (1 T-Li x MoS 2). Experiments and simulations show that 1 T-MoS 2 …
[HTML][HTML] Spectrally selective emitters based on 3D Mo nanopillars for thermophotovoltaic energy harvesting
High-temperature stable emitters with spectral selective functionality are an absolute
condition for efficient conversion of thermal radiation into electricity using thermophotovoltaic …
condition for efficient conversion of thermal radiation into electricity using thermophotovoltaic …
Solvent-Treated Zirconium-Based Nanoporous UiO-66 Metal–Organic Frameworks for Enhanced CO2 Capture
Metal–organic framework (MOF)-derived nanoscale porous materials are widely deployed in
carbon capture, but the CO2 capacity is varied by different post-treatments, and its …
carbon capture, but the CO2 capacity is varied by different post-treatments, and its …
A high-performance, metallodielectric 2D photonic crystal for thermophotovoltaics
R Sakakibara, V Stelmakh, WR Chan, RD Geil… - Solar Energy Materials …, 2022 - Elsevier
Fuel-combustion-based thermophotovoltaic (TPV) systems are emerging as a viable power
source for small, portable generators for a spectrum of applications such as UAVs, robotic …
source for small, portable generators for a spectrum of applications such as UAVs, robotic …
Recent advances in the operando structural and interface characterisation of electrocatalysts
Using multiple operando characterisation techniques to elucidate the structure-reactivity
correlations of electrocatalytic systems is becoming more desirable. In this review article, we …
correlations of electrocatalytic systems is becoming more desirable. In this review article, we …
Transferred Graphene Monolayer to β-Ga2O3 as a Diffusion Barrier for Base Power Device Applications
M Labed, BI Park, J Kim, JH Park, JY Min, HJ Jeon… - ACS …, 2025 - ACS Publications
The quality of the metal contact of devices can be significantly improved through high-
temperature annealing, which enhances the crystal structure and reduces contamination …
temperature annealing, which enhances the crystal structure and reduces contamination …
Comparative Study of High-Temperature Annealed and RTA Process β-Ga2O3 Thin Film by Sol–Gel Process
MS Bae, SH Kim, JS Baek, JH Koh - Coatings, 2021 - mdpi.com
As a wide energy band gap semiconductor, a Ga2O3 thin film was prepared by the sol–gel
process with different annealing processes. Since Ga2O3 is a type of metal oxide structure …
process with different annealing processes. Since Ga2O3 is a type of metal oxide structure …