Wide bandgap oxide semiconductors: from materials physics to optoelectronic devices
Wide bandgap oxide semiconductors constitute a unique class of materials that combine
properties of electrical conductivity and optical transparency. They are being widely used as …
properties of electrical conductivity and optical transparency. They are being widely used as …
A review of low‐temperature solution‐processed metal oxide thin‐film transistors for flexible electronics
Solution processing, including printing technology, is a promising technique for oxide thin‐
film transistor (TFTs) fabrication because it tends to be a cost‐effective process with high …
film transistor (TFTs) fabrication because it tends to be a cost‐effective process with high …
Mobility–stability trade-off in oxide thin-film transistors
Thin-film transistors based on amorphous oxide semiconductors could be used to create low-
cost backplane technology for large flat-panel displays. However, a trade-off between …
cost backplane technology for large flat-panel displays. However, a trade-off between …
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 …
Electronic defects in amorphous oxide semiconductors: A review
Amorphous oxide semiconductors (AOSs) have been commercialized since 2012 as thin‐
film transistor (TFT) backplanes in flat‐panel displays. This review first provides a brief …
film transistor (TFT) backplanes in flat‐panel displays. This review first provides a brief …
High-performance p-channel transistors with transparent Zn doped-CuI
Abstract 'Ideal'transparent p-type semiconductors are required for the integration of high-
performance thin-film transistors (TFTs) and circuits. Although CuI has recently attracted …
performance thin-film transistors (TFTs) and circuits. Although CuI has recently attracted …
Semiconductor glass with superior flexibility and high room temperature thermoelectric performance
Most crystalline inorganic materials, except for metals and some layer materials, exhibit bad
flexibility because of strong ionic or covalent bonds, while amorphous materials usually …
flexibility because of strong ionic or covalent bonds, while amorphous materials usually …
Room‐temperature solution‐synthesized p‐type copper (I) iodide semiconductors for transparent thin‐film transistors and complementary electronics
Here, room‐temperature solution‐processed inorganic p‐type copper iodide (CuI) thin‐film
transistors (TFTs) are reported for the first time. The spin‐coated 5 nm thick CuI film has …
transistors (TFTs) are reported for the first time. The spin‐coated 5 nm thick CuI film has …
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 …
Selenium alloyed tellurium oxide for amorphous p-channel transistors
Compared to polycrystalline semiconductors, amorphous semiconductors offer inherent cost-
effective, simplicity, and uniform manufacturing. Traditional amorphous hydrogenated Si falls …
effective, simplicity, and uniform manufacturing. Traditional amorphous hydrogenated Si falls …