Plasmon assisted synthesis of highly fluorescing silver quantum cluster/polymer composites for biochemical sensing
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Plasmon assisted synthesis of highly fluorescing silver quantum cluster/polymer composites for biochemical sensing. / Bernard, S.; Kutter, J. P.; Mogensen, K. B.
18th International Conference on Miniaturized Systems for Chemistry and Life Sciences, MicroTAS 2014. Chemical and Biological Microsystems Society, 2014. p. 2286-2287.Research output: Chapter in Book/Report/Conference proceeding › Article in proceedings › Research › peer-review
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TY - GEN
T1 - Plasmon assisted synthesis of highly fluorescing silver quantum cluster/polymer composites for biochemical sensing
AU - Bernard, S.
AU - Kutter, J. P.
AU - Mogensen, K. B.
PY - 2014
Y1 - 2014
N2 - Plasmonics is combined with polymer synthesis for rapid fabrication of highly fluorescing silver quantum cluster/polymer composites inside microfluidic channels. UV-light assisted synthesis of polymers has been investigated by a number of groups previously [1], however, plasmon assisted synthesis has not been presented before. This should allow highly localized fabrication of porous polymers that are defined by the location of the nanoplasmonic metal film. Silver quantum clusters (AgQCs) consisting of 2-10 atoms can be highly fluorescing in the visible wavelength range and possess a greater photostability than organic fluorophores [2]. In this work AgQCs are embedded into the oligoaniline porous matrix and is tested for indirect fluorescence detection of cyanide in a simple microfluidic device (Fig. 1). Imaging of individual silver clusters inside the channel (Fig. 1) is made possible by using 100x oil-immersion microscopy through a ∼100 μm thick glass lid of the chip, while the bottom substrate contains the plasmonic silver nanoparticle film.
AB - Plasmonics is combined with polymer synthesis for rapid fabrication of highly fluorescing silver quantum cluster/polymer composites inside microfluidic channels. UV-light assisted synthesis of polymers has been investigated by a number of groups previously [1], however, plasmon assisted synthesis has not been presented before. This should allow highly localized fabrication of porous polymers that are defined by the location of the nanoplasmonic metal film. Silver quantum clusters (AgQCs) consisting of 2-10 atoms can be highly fluorescing in the visible wavelength range and possess a greater photostability than organic fluorophores [2]. In this work AgQCs are embedded into the oligoaniline porous matrix and is tested for indirect fluorescence detection of cyanide in a simple microfluidic device (Fig. 1). Imaging of individual silver clusters inside the channel (Fig. 1) is made possible by using 100x oil-immersion microscopy through a ∼100 μm thick glass lid of the chip, while the bottom substrate contains the plasmonic silver nanoparticle film.
KW - Cyanide detection
KW - Plasmonics
KW - Quantum clusters
KW - Single molecule fluorescence
UR - http://www.scopus.com/inward/record.url?scp=84941686297&partnerID=8YFLogxK
M3 - Article in proceedings
AN - SCOPUS:84941686297
SP - 2286
EP - 2287
BT - 18th International Conference on Miniaturized Systems for Chemistry and Life Sciences, MicroTAS 2014
PB - Chemical and Biological Microsystems Society
T2 - 18th International Conference on Miniaturized Systems for Chemistry and Life Sciences, MicroTAS 2014
Y2 - 26 October 2014 through 30 October 2014
ER -
ID: 173280223