Bioinspired assemblies and plasmonic interfaces for electrochemical biosensing
Electrochemical biosensing represents a collection of techniques that may be utilized for capture and detection of biomolecules in both simple and complex media.While the instrumentation and technological aspects play important roles in detection capabilities,the interfacial design aspects are of equal importance,and often,those inspired by nature produce the best results.This review highlights recent material designs,recognition schemes,and method developments as they relate to targeted electrochemical analysis for biological systems.This includes the design of electrodes functionalized with peptides,proteins,nucleic acids,and lipid membranes,along with nanoparticle mediated signal amplification mechanisms.The topic of hyphenated surface plasmon resonance assays is also discussed,as this technique may be performed concurrently with complementary and/or confirmatory measurements.Together,smart materials and experimental designs will continue to pave the way for complete biomolecular analyses of complex and technically challenging systems.
Biosensor Biochip Surface functionalization Lipid membrane Nanopore Electrochemical surface plasmon resonance
Samuel S.Hinman Quan Cheng
Environmental Toxicology,University of California-Riverside,Riverside,CA 92521,USA Environmental Toxicology,University of California-Riverside,Riverside,CA 92521,USA;Department of Che
国际会议
南京
英文
136-146
2016-12-23(万方平台首次上网日期,不代表论文的发表时间)