Preparation of Thermosensitive Fluorescent Polyacrylamide Nanofiber Membrane and Visual Temperature Sensing

Abstract: Fluorescent fibers are capable of discoloration behavior under special light sources, showing great potential for applications in biomedicine, environmental monitoring, heavy-metal-ion detaction, and anti-counterfeiting. In the current paper, temperature-sensitive fluorescent poly-acrylamide (PAM) nanofiber (AuNCs@PAM NF) membranes are prepared by mixing red fluorescent gold nanoclusters (AuNCs) synthesized in-house with PAM using the electrospinning technique. The AuNCs@PAM nanofibers obtained using this meth… Show more

“…The ability for HMPVA to be located in the membrane structure will expand the membrane's performance capabilities related to its permeability and selectivity according to temperature conditions and within the limits critical for stimulating the sensitivity of the "smart" polymer. The choice of the receiving pure (unmodified) membrane and its qualities are of great importance for the result [13][14][15][16][17].…”

Flat ultrafiltration PAN/BNE membranes with temperature-responsive performance obtained by modification with “smart” PVA copolymer

“…The ability for HMPVA to be located in the membrane structure will expand the membrane's performance capabilities related to its permeability and selectivity according to temperature conditions and within the limits critical for stimulating the sensitivity of the "smart" polymer. The choice of the receiving pure (unmodified) membrane and its qualities are of great importance for the result [13][14][15][16][17].…”

Flat ultrafiltration PAN/BNE membranes with temperature-responsive performance obtained by modification with “smart” PVA copolymer

Flexible electrospun test strips functionalized with a graphene oxide/doxorubicin complex for dopamine detection