TY - JOUR
T1 - Metal nanoparticle-hydrogel nanocomposites for biomedical applications - An atmospheric pressure plasma synthesis approach
AU - Nolan, Hugo
AU - Sun, Daye
AU - Falzon, Brian G
AU - Chakrabarti, Supriya
AU - Padmanaban, Dilli babu
AU - Maguire, Paul
AU - Mariotti, Davide
AU - Yu, Tao
AU - Sun, Dan
PY - 2018/11
Y1 - 2018/11
N2 - The development of multifunctional nanocomposite materials is of great interest for various biomedical applications. A popular approach to produce tailored nanocomposites is to incorporate functional nanoparticles into hydrogels. Here, a benign atmospheric pressure microplasma synthesis approach has been deployed for the synthesis of metal and alloy NPs in-situ in a poly (vinyl alcohol) hydrogel. The formation of gold, silver, and gold-silver alloy NPs was confirmed via spectroscopic and microscopic characterization techniques. The properties of the hydrogel were not compromised during formation of the composites. Practical applications of the NP/PVA nanocomposites has been demonstrated by anti-bacterial testing. This establishes AMP processing as a viable one-step technique for the fabrication of NP/hydrogel composites, with potential multifunctionality for a range of biomedical applications.
AB - The development of multifunctional nanocomposite materials is of great interest for various biomedical applications. A popular approach to produce tailored nanocomposites is to incorporate functional nanoparticles into hydrogels. Here, a benign atmospheric pressure microplasma synthesis approach has been deployed for the synthesis of metal and alloy NPs in-situ in a poly (vinyl alcohol) hydrogel. The formation of gold, silver, and gold-silver alloy NPs was confirmed via spectroscopic and microscopic characterization techniques. The properties of the hydrogel were not compromised during formation of the composites. Practical applications of the NP/PVA nanocomposites has been demonstrated by anti-bacterial testing. This establishes AMP processing as a viable one-step technique for the fabrication of NP/hydrogel composites, with potential multifunctionality for a range of biomedical applications.
KW - anti-bacterial composites
KW - atmospheric pressure microplasma synthesis
KW - biomedical materials
KW - green synthesis
KW - NP/hydrogel composites
U2 - 10.1002/ppap.201800112
DO - 10.1002/ppap.201800112
M3 - Article
JO - Plasma Processes and Polymers
JF - Plasma Processes and Polymers
M1 - 1800112
ER -