Phthalocyanines for dye-sensitized solar cells
M Urbani, ME Ragoussi, MK Nazeeruddin… - Coordination Chemistry …, 2019 - Elsevier
Phthalocyanines (Pcs) are robust and intensely colored macrocycles (blue pigments) with
high chemical, thermal and light stability, properties that are of paramount importance for …
high chemical, thermal and light stability, properties that are of paramount importance for …
Engineering copper iodide (CuI) for multifunctional p‐type transparent semiconductors and conductors
Developing transparent p‐type semiconductors and conductors has attracted significant
interest in both academia and industry because metal oxides only show efficient n‐type …
interest in both academia and industry because metal oxides only show efficient n‐type …
Broadband Ultraviolet Self-Powered Photodetector Constructed on Exfoliated β-Ga2O3/CuI Core–Shell Microwire Heterojunction with Superior Reliability
A heterojunction is an essential strategy for multispectral energy-conservation
photodetection for its ability to separate photogenerated electron–hole pairs and tune the …
photodetection for its ability to separate photogenerated electron–hole pairs and tune the …
Cuprous iodide–ap‐type transparent semiconductor: History and novel applications
M Grundmann, FL Schein, M Lorenz… - … status solidi (a), 2013 - Wiley Online Library
Halide semiconductors stand at the very beginning of semiconductor science and
technology. CuI was reported as the first transparent conductor, and the first field effect …
technology. CuI was reported as the first transparent conductor, and the first field effect …
Truly transparent p-type γ-CuI thin films with high hole mobility
N Yamada, R Ino, Y Ninomiya - Chemistry of Materials, 2016 - ACS Publications
The γ-phase of copper (I) iodide (γ-CuI) is a p-type semiconductor with a wide bandgap (E
g≈ 3.1 eV). Conventionally, γ-CuI thin films have been synthesized by the iodination of Cu …
g≈ 3.1 eV). Conventionally, γ-CuI thin films have been synthesized by the iodination of Cu …
Highly conductive p-type transparent conducting electrode with sulfur-doped copper iodide
Although n-type transparent conductors have been commercialized with high optical
transmittance and electrical conductivity, the realization of their p-type counterparts has …
transmittance and electrical conductivity, the realization of their p-type counterparts has …
CuI p-type thin films for highly transparent thermoelectric pn modules
BM Morais Faustino, D Gomes, J Faria, T Juntunen… - Scientific reports, 2018 - nature.com
Developments in thermoelectric (TE) transparent p-type materials are scarce and do not
follow the trend of the corresponding n-type materials–a limitation of the current transparent …
follow the trend of the corresponding n-type materials–a limitation of the current transparent …
The role of sulfur in sulfur-doped copper (I) iodide p-type transparent conductors
CuI has been the best-known p-type transparent conductor (TC) for years, yet its conductivity
still lags behind n-type TCs. Herein, we demonstrate S-doped CuI films via pulsed laser …
still lags behind n-type TCs. Herein, we demonstrate S-doped CuI films via pulsed laser …
Fermi energy modulation by tellurium doping of thermoelectric copper (I) iodide
M Markwitz, PP Murmu, SY Back, T Mori… - Materials Today …, 2024 - Elsevier
Abstract Copper (I) iodide (CuI) is the leading inorganic p-type transparent conductor,
attracting major attention for its promising optoelectronic properties and facile growth …
attracting major attention for its promising optoelectronic properties and facile growth …
CuI: a promising halide for thermoelectric applications below 373 K
Highly transparent p-type γ-CuI thin films with enhanced thermoelectric (TE) properties were
produced by the pulsed laser deposition (PLD) technique. The film composed of fine …
produced by the pulsed laser deposition (PLD) technique. The film composed of fine …