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W4304165641 abstract "In this work, a facile direct current atmospheric pressure micro-plasma (APM) technology was deployed for the synthesis of functional gold nanoparticle/chitosan (AuNP/CS) nanocomposites for the first time. Different experimental parameters, such as metal salt precursor concentration and chitosan viscosity, have been investigated to understand their effects on the resulting nanocomposite structures and properties. The nanocomposites were fully characterized using a wide range of material characterization techniques such as UV-vis, transmission electron microscope (TEM), Fourier transform infrared (FTIR) spectra and X-ray photoelectron spectroscopy (XPS) analyses. Potential reaction pathways have been proposed for the nanocomposite synthesis process. Finally, potential of the synthesized nanocomposites towards photothermal conversion and bacteria eradiation applications has been demonstrated. The results show that APM is a facile, rapid and versatile technique for the synthesis of AuNP/CS functional nanocomposites. Through this work, a more in-depth understanding of the multi-phase system (consisting of gas, plasma, liquid and solid) has been established and such understanding could shine a light on the future design and fabrication of new functional nanocomposites deploying the APM technique." @default.
W4304165641 created "2022-10-11" @default.
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W4304165641 date "2022-10-10" @default.
W4304165641 modified "2023-10-07" @default.
W4304165641 title "AuNP/Chitosan Nanocomposites Synthesized through Plasma Induced Liquid Chemistry and Their Applications in Photothermal Induced Bacteria Eradication" @default.
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W4304165641 cites W1972129160 @default.
W4304165641 cites W1973681903 @default.
W4304165641 cites W1986883371 @default.
W4304165641 cites W1992191527 @default.
W4304165641 cites W2025403651 @default.
W4304165641 cites W2027550597 @default.
W4304165641 cites W2055721190 @default.
W4304165641 cites W2060627042 @default.
W4304165641 cites W2063409791 @default.
W4304165641 cites W2069382206 @default.
W4304165641 cites W2073911038 @default.
W4304165641 cites W2077366031 @default.
W4304165641 cites W2078362380 @default.
W4304165641 cites W2088376140 @default.
W4304165641 cites W2090326871 @default.
W4304165641 cites W2093496207 @default.
W4304165641 cites W2094107695 @default.
W4304165641 cites W2094326507 @default.
W4304165641 cites W2097840847 @default.
W4304165641 cites W2100566610 @default.
W4304165641 cites W2106206412 @default.
W4304165641 cites W2115029038 @default.
W4304165641 cites W2124990807 @default.
W4304165641 cites W2131872362 @default.
W4304165641 cites W2167516940 @default.
W4304165641 cites W2167542678 @default.
W4304165641 cites W220747334 @default.
W4304165641 cites W2252838946 @default.
W4304165641 cites W2257855502 @default.
W4304165641 cites W2282449974 @default.
W4304165641 cites W2409321279 @default.
W4304165641 cites W2411493799 @default.
W4304165641 cites W2488528762 @default.
W4304165641 cites W2618964134 @default.
W4304165641 cites W2622994905 @default.
W4304165641 cites W2756447448 @default.
W4304165641 cites W2767170384 @default.
W4304165641 cites W2799666395 @default.
W4304165641 cites W2883325680 @default.
W4304165641 cites W2887185776 @default.
W4304165641 cites W2888007581 @default.
W4304165641 cites W2899200217 @default.
W4304165641 cites W2901505105 @default.
W4304165641 cites W2914177628 @default.
W4304165641 cites W2915396945 @default.
W4304165641 cites W2918915352 @default.
W4304165641 cites W2926306796 @default.
W4304165641 cites W2934547641 @default.
W4304165641 cites W2943420338 @default.
W4304165641 cites W2943918429 @default.
W4304165641 cites W2944468174 @default.
W4304165641 cites W2947544769 @default.
W4304165641 cites W2951223204 @default.
W4304165641 cites W2955430061 @default.
W4304165641 cites W2963344721 @default.
W4304165641 cites W2969450868 @default.
W4304165641 cites W2984513217 @default.
W4304165641 cites W3034587745 @default.
W4304165641 cites W3037832476 @default.
W4304165641 cites W3037870800 @default.
W4304165641 cites W3085011725 @default.
W4304165641 cites W3108730573 @default.
W4304165641 cites W3113051257 @default.
W4304165641 cites W3118453514 @default.
W4304165641 cites W3127522472 @default.
W4304165641 cites W3153106881 @default.
W4304165641 cites W3153479610 @default.
W4304165641 cites W3188442028 @default.
W4304165641 cites W3203687041 @default.
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W4304165641 doi "https://doi.org/10.3390/pharmaceutics14102147" @default.
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