Investigation of Au Nanoparticles Loading Temperature Responsive Hybrid Microgels

Chen Lu; Xiao Yun Liu; Liu Sheng Zha

doi:10.4028/www.scientific.net/AMR.650.268

Paper Titles

The Effects of Natural Dopant Acids on Morphologies and Antibacterial Activity of Polyaniline
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T-Ray NDE Inspections on the Fiber Direction of Thermoplastic PPS-Based CFRP Composites
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Study on the Leaching Performance of Chrome in Waste Leather Products
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Abnormal Diamagnetic Respond in Co_0.2Mn_1.7Sn Compound
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Investigation of Au Nanoparticles Loading Temperature Responsive Hybrid Microgels
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Research on Microbial Degradation of Bamboo Lignin for Extraction of Natural Bamboo Fiber
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Smart Efficient Flame Retardant Carpets in Non Halogen Flame Retardant Polymers
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Study of Adaptability of the Compound of Sulfonate Acid Water Reducing Agent with Ceramic Slurry Blank
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A Study of Coating Surface Microstructure and Characteristics of Coated Paper Related to Binder
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HomeAdvanced Materials ResearchAdvanced Materials Research Vol. 650Investigation of Au Nanoparticles Loading...

Investigation of Au Nanoparticles Loading Temperature Responsive Hybrid Microgels

Abstract:

Gold nanoparticles (Au NPs) were loaded into poly(N-isopropylacrylamide) based temperature responsive microgels by seed-growth method. Their growth process was tracked by their extinction spectra at various reaction times. Their average diameter measured by field emission transmission electron microscopy is 12 nm, and their weight content by thermogravimetric analysis is 29.2%. The localized surface plasmon resonance (LSPR) property of the loaded Au NPs changes remarkably within the same temperature range as the particle size of the hybrid microgels varys, due to variation of the refractive index surrounding the Au NPs and plasmonic coupling between them. This result indicates that the LSPR property of the Au NPs embedded within temperature responsive microgels can be tuned by environmental temperature.