Haiyang Gui scite author profile

The improved label-free DNA sensor based on pentacene organic thin-film transistors (OTFTs) with high sensitivity and air stability was fabricated by inserting a copper phthalocyanine (CuPC) layer between metal electrodes and pentacene active layer. Compared to the electric signals of devices with bare pentacene layer, one can reasonably infer that the single-stranded DNA (ssDNA) molecules may be well immobilized onto the CuPc/pentacene film surface, as well as not degrading the performance of the DNA sensor. Furthermore, the optimized thickness of the CuPc layer for the electrical response to the ssDNA immobilization was also obtained. As a result, the device with a CuPc layer shows that the sensitivity is slightly improved, and there is no significant initial performance drop after exposure to the ambient for 30 days.CuPc is used as the interfacial layer on pentacene film to enhance the sensitivity and air stability of the OFET-based sensors.

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Novel insights into the unique intrinsic sensing essences of 2D tin chalcogenides for ethanol: From hexagonal SnS2 to orthorhombic SnS

Qin

Bai

Xie

et al. 2023

Vacuum

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Haiyang Gui

Enhanced NH3 sensing performance at ppb level derived from Ti3C2T -supported ZnTi-LDHs nanocomposite with similar metal-semiconductor heterostructure

A label-free biosensor based on organic transistors by using the interaction of mercapto DNA and gold electrodes

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High sensitivity and air stability in an organic transistor-based biosensor by inserting a CuPc layer

Novel insights into the unique intrinsic sensing essences of 2D tin chalcogenides for ethanol: From hexagonal SnS2 to orthorhombic SnS

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