Photocatalytic hydrogen production using metal doped TiO2: A review of recent advances
Hydrogen (H 2) production via photocatalytic water splitting is one of the most promising
technologies for clean solar energy conversion to emerge in recent decades. The …
technologies for clean solar energy conversion to emerge in recent decades. The …
Plasmon‐enhanced photoelectrochemical water splitting for efficient renewable energy storage
Photoelectrochemical (PEC) water splitting is a promising approach for producing hydrogen
without greenhouse gas emissions. Despite decades of unceasing efforts, the efficiency of …
without greenhouse gas emissions. Despite decades of unceasing efforts, the efficiency of …
Broadband hot‐electron collection for solar water splitting with plasmonic titanium nitride
The use of hot electrons generated from the decay of surface plasmons is a novel concept
that promises to increase the conversion yield in solar energy technologies. Titanium nitride …
that promises to increase the conversion yield in solar energy technologies. Titanium nitride …
Ultra-broadband perfect solar absorber by an ultra-thin refractory titanium nitride meta-surface
Z Liu, G Liu, Z Huang, X Liu, G Fu - Solar Energy Materials and Solar Cells, 2018 - Elsevier
Electromagnetic wave absorbers with thinner structural thickness but with broader spectral
absorption bandwidth are more desirable for various applications in solar energy and …
absorption bandwidth are more desirable for various applications in solar energy and …
Titanium nitride epitaxial films as a plasmonic material platform: alternative to gold
Titanium nitride (TiN) is an interesting refractory metallic compound which could replace
gold as an alternative plasmonic material, especially for high temperature and …
gold as an alternative plasmonic material, especially for high temperature and …
Large‐area ultrabroadband absorber for solar thermophotovoltaics based on 3D titanium nitride nanopillars
M Chirumamilla, A Chirumamilla… - Advanced Optical …, 2017 - Wiley Online Library
Broadband absorbers, with the simultaneous advantages of thermal stability, insensitivity to
light polarization and angle, robustness against harsh environmental conditions, and large …
light polarization and angle, robustness against harsh environmental conditions, and large …
Highly plasmonic titanium nitride by room-temperature sputtering
CC Chang, J Nogan, ZP Yang, WJM Kort-Kamp… - Scientific reports, 2019 - nature.com
Titanium nitride (TiN) has recently emerged as an attractive alternative material for
plasmonics. However, the typical high-temperature deposition of plasmonic TiN using either …
plasmonics. However, the typical high-temperature deposition of plasmonic TiN using either …
Highly efficient Vanadium Nitride based metasurface absorber/emitter for solar-thermophotovoltaic system
Perfect ultraviolet-visible (UV-Vis) absorbers with a stable performance at high temperatures
and hostile environments are highly required for energy harvesting through solar …
and hostile environments are highly required for energy harvesting through solar …
Unprecedented thermal stability of plasmonic titanium nitride films up to 1400° C
T Krekeler, SS Rout, GV Krishnamurthy… - Advanced optical …, 2021 - Wiley Online Library
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 …
Plasmon-enhanced solar-driven hydrogen evolution using titanium nitride metasurface broadband absorbers
Broadband perfect absorbers in the visible region have attracted considerable attention in
many fields, especially in solar thermophotovoltaic and energy harvesting systems …
many fields, especially in solar thermophotovoltaic and energy harvesting systems …