M
Matthew J. Linman
Researcher at University of California, Riverside
Publications - 19
Citations - 1056
Matthew J. Linman is an academic researcher from University of California, Riverside. The author has contributed to research in topics: Surface plasmon resonance & Biotinylation. The author has an hindex of 15, co-authored 19 publications receiving 991 citations. Previous affiliations of Matthew J. Linman include College of Wooster & University of California.
Papers
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Journal ArticleDOI
New trends in instrumental design for surface plasmon resonance-based biosensors
TL;DR: This review emphasizes the new developments in the field of SPR-related instrumentation including optical platforms, chips design, nanoscale approach and new materials.
Journal ArticleDOI
Selective detection of gas-phase TNT by integrated optical waveguide spectrometry using molecularly imprinted sol-gel sensing films.
Natalie R. Walker,Matthew J. Linman,Margaret M. Timmers,Stacey L. Dean,Colleen M. Burkett,Julie A. Lloyd,Joel D. Keelor,Brandi M. Baughman,Paul L. Edmiston +8 more
TL;DR: A chemical sensor was developed to detect the explosive 2,4,6-trinitrotoluene utilizing planar integrated optical waveguide (IOW) attenuated total reflection spectrometry and is highly selective for TNT due to the selectivity of binding site recognition of TNT and the subsequent generation of the TNT anion.
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Surface Plasmon Resonance Study of Protein−Carbohydrate Interactions Using Biotinylated Sialosides
TL;DR: The fabrication of a novel sensing interface of biotinylated sialosides to probe lectin-carbohydrate interactions using surface plasmon resonance spectroscopy (SPR) retains a high degree of native affinity for the carbohydrate motifs, allowing distinction of sialyl linkages and investigation pertaining to the effect of functional group on binding efficiency.
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Regenerable tethered bilayer lipid membrane arrays for multiplexed label-free analysis of lipid-protein interactions on poly(dimethylsiloxane) microchips using SPR imaging.
TL;DR: The tethered membrane array technology, in combination with SPRi, offers an attractive platform for studies of membrane proteins, and can also find a range of applications for rapid screening of drug candidates interacting with proteins embedded in the near-native environment.
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Sensitivity comparison of surface plasmon resonance and plasmon-waveguide resonance biosensors
TL;DR: A comprehensive sensitivity comparison of SPR and PWR biosensors for the p-polarized light component is reported and suggests that the increase in the penetration depth in PWR is made at the expense of the surface sensitivity.