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Titlebook: Biocompatible Graphene for Bioanalytical Applications; Yuwei Hu,Fenghua Li,Li Niu Book 2015 The Author(s) 2015 Bioanalytical Application.B

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發(fā)表于 2025-3-21 16:23:00 | 只看該作者 |倒序?yàn)g覽 |閱讀模式
期刊全稱Biocompatible Graphene for Bioanalytical Applications
影響因子2023Yuwei Hu,Fenghua Li,Li Niu
視頻videohttp://file.papertrans.cn/187/186760/186760.mp4
發(fā)行地址Summarizes the latest advances in using graphene and bio-compatible graphene materials for biosensing.Illustrates how to exfoliate, functionalize and decorate graphene with proper targets.Provides det
學(xué)科分類(lèi)SpringerBriefs in Molecular Science
圖書(shū)封面Titlebook: Biocompatible Graphene for Bioanalytical Applications; Yuwei Hu,Fenghua Li,Li Niu Book 2015 The Author(s) 2015 Bioanalytical Application.B
影響因子.This book highlights the latest advances in the use of graphene and bio-compatible-material-decorated graphene to detect various targets (e.g. DNA, RNA, amino acids, peptides, proteins, enzymes, antigens, glucose, DA, AA, UA, ATP, NADH, gas, ions, etc.). It focuses on the specific interaction of these substances with graphene (or modified graphene) and the efficient transduction of the target recognition event into detectable signals via various techniques. Particular emphasis is given to well-designed strategies for constructing graphene-based platforms and target determination. It also covers other bio-analytical applications including cellular imaging, drug delivery and bacteria inhibition, before turning to a discussion of future challenges and prospects of graphene in bio-analytical applications. This book is intended for researchers working in the fields of analytical chemistry, nanomaterials and biomedical engineering..Li Niu. is a Professor at the State Key Laboratory of Electroanalytical Chemistry, Changchun Institute of Applied Chemistry, Chinese Academy of Sciences..
Pindex Book 2015
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https://doi.org/10.1007/978-3-8349-6513-4asi infinite size. This unique intrinsic structure endows graphene with remarkable properties, which actually are largely determined by the methods used to fabricate and exfoliate graphene sheets. Besides using the appropriate synthesis methods, one commonly adopted strategy to improve and expand th
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Kreative Industrien Berlins im überblickp./sp.)-bonded network. According to the binding affinity difference between single-stranded DNA (ssDNA) and double-stranded DNA (dsDNA) to graphene sheet, GO has been successfully adopted as a platform to discriminate DNA sequences. Fluorescent, electrochemical, electrical, surface-enhanced Raman s
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https://doi.org/10.1007/978-3-658-32194-9adsorbed biomolecules. Graphene materials act as good candidates for glucose sensing due to the high surface area, excellent conductivity, and small band gap, which are favorable for biomolecules loading and electrons conducting. Generally, graphene-based platforms for glucose determination could be
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