Baoyuan Man scite author profile

Field-effect transistor (FET) is regarded as the most promising candidate for the next-generation biosensor, benefiting from the advantages of label-free, easy operation, low cost, easy integration, and direct detection of biomarkers in liquid environments. With the burgeoning advances in nanotechnology and biotechnology, researchers are trying to improve the sensitivity of FET biosensors and broaden their application scenarios from multiple strategies. In order to enable researchers to understand and apply FET biosensors deeply, focusing on the multidisciplinary technical details, the iteration and evolution of FET biosensors are reviewed from exploring the sensing mechanism in detecting biomolecules (research direction 1), the response signal type (research direction 2), the sensing performance optimization (research direction 3), and the integration strategy (research direction 4). Aiming at each research direction, forward perspectives and dialectical evaluations are summarized to enlighten rewarding investigations.

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Role of graphene in improving catalytic behaviors of AuNPs/MoS₂/Gr/Ni-F structure in hydrogen evolution reaction*

Xiu¹,

Zhang²,

Hou³

et al. 2021

Chinese Phys. B

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The efficient production of hydrogen through electrocatalytic decomposition of water has broad prospects in modern energy equipment. However, the catalytic efficiency and durability of hydrogen evolution catalyst are still very deficient, which need to be further explored. Here in this work, we prove that introducing a graphene layer (Gr) between the molybdenum disulfide and nickel foam (Ni–F) substrate can greatly improve the catalytic performance of the hybrid. Owing to the excitation of local surface plasmon resonance (LSPR) of gold nanoparticles (NPs), the electrocatalytic hydrogen releasing activity of the MoS2/Gr/Ni–F heterostructure is greatly improved. This results in a significant increase in the current density of AuNPs/MoS2/Gr/Ni–F composite material under light irradiation and in the dark at 0.2 V (versus reversible hydrogen electrode (RHE)), which is much better than in MoS2/Gr/Ni–F composite materials. The enhancement of hydrogen release can be attributed to the injection of hot electrons into MoS2/Gr/Ni–F by AuNPs, which will improve the electron density of MoS2/Gr/Ni–F, promote the reduction of H2O, and further reduce the activation energy of the electrocatalyst hydrogen evolution reaction (HER). We also prove that the introduction of graphene can improve its stability in acidic catalytic environments. This work provides a new way of designing efficient water splitting system.

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Baoyuan Man

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Review on two-dimensional material-based field-effect transistor biosensors: accomplishments, mechanisms, and perspectives

Role of graphene in improving catalytic behaviors of AuNPs/MoS₂/Gr/Ni-F structure in hydrogen evolution reaction*

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Baoyuan Man

High-intensity vector signals for detecting SARS-CoV-2 RNA using CRISPR/Cas13a couple with stabilized graphene field-effect transistor

MoS2-spaced bimetal composite structure as SERS-SPR sensor for glucose detection

Synthesis, characterization and optical properties of multipod ZnO whiskers

Review on two-dimensional material-based field-effect transistor biosensors: accomplishments, mechanisms, and perspectives

Role of graphene in improving catalytic behaviors of AuNPs/MoS2/Gr/Ni-F structure in hydrogen evolution reaction*

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Product

Resources

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Role of graphene in improving catalytic behaviors of AuNPs/MoS₂/Gr/Ni-F structure in hydrogen evolution reaction*