Fluorescence quenching by lipid encased nanoparticles shows that amyloid-β has a preferred orientation in the membrane

B Chandra, BK Maity, A Das, S Maiti - Chemical Communications, 2018 - pubs.rsc.org
Short range plasmonic fields around a nanoparticle can modulate fluorescence or Raman
processes. In lipid encased nanoparticles, this can potentially measure the relative depths of …
被引用次数:10 相关文章

Fluorescence quenching by lipid encased nanoparticles shows that amyloid-β has a preferred orientation in the membrane

B Chandra, BK Maity, A Das… - Chemical …, 2018 - pubmed.ncbi.nlm.nih.gov
Short range plasmonic fields around a nanoparticle can modulate fluorescence or Raman
processes. In lipid encased nanoparticles, this can potentially measure the relative depths of …

Fluorescence quenching by lipid encased nanoparticles shows that amyloid-β has a preferred orientation in the membrane.

B Chandra, BK Maity, A Das, S Maiti - Chemical Communications …, 2018 - europepmc.org
Short range plasmonic fields around a nanoparticle can modulate fluorescence or Raman
processes. In lipid encased nanoparticles, this can potentially measure the relative depths of …

[引用][C] Fluorescence quenching by lipid encased nanoparticles shows that amyloid-β has a preferred orientation in the membrane

BK Maity, A Das, S Maiti - 2018