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   optical and thermal enhancement of plasmonic nanofluid based on core/shell nanoparticles  
   
نویسنده duan huiling ,tang liangliang ,zheng yuan ,zhang ping
منبع plasmonics - 2018 - دوره : 13 - شماره : 4 - صفحه:1135 -1141
چکیده    The plasmonic effect is introduced in solar thermal areas to enhance light harvest and absorption. the optical properties of plasmonic nanofluid are simulated by finite difference time domain (fdtd) method. due to the excitation of localized surface plasmon resonance (lspr) effect, an intensive absorption peak is observed at 0.5 μm. the absorption characteristics are sensitive to particle size and concentration. as the particle size increases, the absorption peak is broadened and shifted to longer wavelength. the absorption of sio2/ag plasmonic nanofluid is improved gradually as the volume concentration increases, especially in the uv region. the absorption edge is shifted from 0.6 to 1.0 μm as the volume concentration increases from 0.001 to 0.01. the thermal simulation of suspended sio2/ag nanoparticle shows a uniform temperature rise of 17.91 k under solar irradiation (am 1.5), while under the same condition, the temperature rises in ag nanoparticle and al nanoparticle are 11.12 and 5.39 k, respectively. the core/shell plasmonic nanofluid exhibits a higher photothermal performance, which has a potential application in photothermal areas. a higher temperature rise can be obtained by improving the incident light intensity or optical absorption properties of nanoparticles.
کلیدواژه plasmonic effect ,photothermal conversion ,core/shell nanoparticles ,temperature rise
آدرس hohai university, college of energy and electrical engineering, china, hohai university, college of energy and electrical engineering, china, hohai university, college of energy and electrical engineering, china, guilin university of electronic technology, electromechanical engineering college, china
 
     
   
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