Haijun Luo scite author profile

Biosensors can convert the concentration of biological analytes into an electrical signal or other signals for detection. They are widely used in medical diagnostics, food safety, process control, and environmental monitoring fields. In recent years, new schemes of stable biosensor interfaces have attracted much attention. Interface design is a vital part of biosensor development, since its stability can be directly related to the quality of sensing performance such as sensitivity, stability, and linearity. This review summarized the latest methods and materials used to construct stable biosensor interfaces and pointed some future perspectives and challenges of them. From the literature, we found that nanomaterials, polymers, and their composites such as chitosan, cellulose, and conducting polymers are the most common materials used in the biosensor interface design. Apart from materials, there are increasing developments in monolayer membrane techniques, three-dimensional constructions, and other interface techniques. This review is a study of the latest progress in biosensor interface stability solutions, which may provide some references and innovative directions of biosensor interface design for researchers in biosensor fields and encourage people to further explore new materials and methods.

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Adsorption and dissociation of H2S on Mo(100) surface by first-principles study

Luo

Cai

Tao

et al. 2014

Applied Surface Science

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Conformational structure variation of human serum albumin after binding interaction with black phosphorus quantum dots

Huang

Luo

et al. 2020

International Journal of Biological Macromolecules

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Characterization of metamorphic InxAl1−xAs∕GaAs buffer layers using reciprocal space mapping

Lee¹,

Park²,

Tang³

et al. 2007

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The depth profiles of metamorphic In x Al 1−x As ͑0.05Ͻ x Ͻ 1͒ buffer layers grown on GaAs substrates were characterized using the x-ray reciprocal space mapping. Three types of metamorphic samples were investigated and compared: step grade, single-slope linear grade, and dual-slope linear grade. The lattice mismatch, residual strain, crystallographic tilt, tilt azimuth, and the full width at half maximum were obtained from the reciprocal space maps. The tilt angle of linearly graded buffer layers stayed low at low In compositions until InϷ 60%, at which composition the tilt angle increased abruptly. All linear-grade samples had an untilted relaxed structure in the low In region ͑below 60% In͒ and a tilted structure in the upper, high In region ͑above 60% In͒. The average lattice mismatch between the untilted relaxed structure and the tilted structure determines the tilt angle. The tilt angle of the step-graded layers increased at a near-linear rate as the In composition was increased. The tilt azimuth was intermediate between the ͗100͘ and ͗110͘ in-plane directions. The x-ray full width at half maximum generally increased with the In composition, but tended lower toward surface. We suggest a possible design strategy for the linear-grade metamorphic buffer layer based on our result.

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Haijun Luo

Materials and Methods of Biosensor Interfaces With Stability

Adsorption and dissociation of H2S on Mo(100) surface by first-principles study

Conformational structure variation of human serum albumin after binding interaction with black phosphorus quantum dots

Characterization of metamorphic InxAl1−xAs∕GaAs buffer layers using reciprocal space mapping

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