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http://dx.doi.org/10.14478/ace.2017.1049

Infrared Absorption and Reflection Properties of Silver Nanoparticles Synthesized by Liquid Reduction Method  

Hong, Min Ji (Department of Industrial Chemistry, Pukyong National University)
Park, Min Ji (Department of Industrial Chemistry, Pukyong National University)
Kim, Jong Hwa (Department of Industrial Chemistry, Pukyong National University)
Rokade, Ashish A. (Department of Industrial Chemistry, Pukyong National University)
Jin, Young Eup (Department of Industrial Chemistry, Pukyong National University)
Lee, Gun-Dae (Department of Industrial Chemistry, Pukyong National University)
Park, Seong Soo (Department of Industrial Chemistry, Pukyong National University)
Publication Information
Applied Chemistry for Engineering / v.28, no.5, 2017 , pp. 587-592 More about this Journal
Abstract
Uniform and optimum sized silver nanoplates were synthesized through the liquid phase reduction method by using silver nitrate solution as a starting chemical, dimethylformmide (DMF) as a reducing solvent, and polyvinylpyrrolidone (PVP) as reducing and surfactant agents. Synthesized and also film samples were characterized by using SEM, TEM, UV-Vis-NIR spectroscopy, particle size analyzer (PSA), and XRD. Triangle nanoplates with the size of 100~200 nm were found from the sample synthesized at $70^{\circ}C$ for 72 h using silver nitrate, DMF and 26 wt% PVP. The sample could reflect near-infrared light because it showed the maximum absorbing peak at about 1,000 nm. When the content or particle size of silver nanoplates increased in coating solutions, the transmittance decreased and the reflectance increased in film samples.
Keywords
silver; nanoplate; reduction; NIR;
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Times Cited By KSCI : 4  (Citation Analysis)
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1 L. Huang, Y. Zhai, S. Dong, and J. Wang, Efficient preparation of silver nanoplates assisted by non-ploar solvents, J. Colloid Interface Sci., 331, 384-388 (2009).   DOI
2 M. Tsuji, X. Tang, M. Matsunage, Y. Maeda, and M. Watanabe, Shape evolution of flag types of silver nanostructures from nanorod seeds in PVP-assisted DMF solution, Cryst. Growth Des., 10, 5238-5243 (2010).   DOI
3 I. Pastoriza-Santos and L. M. Liz-Marzan, Synthesis of silver nanoprisms in DMF, Nano Lett., 2, 903-905 (2002).   DOI
4 M. Kim, J. Lee, J. Lee, and K. Choi, Synthesis of silver nanoplates with controlled shapes by reducing silver nitrate with poly(vinyl pyrrolidone) in N-methylpyrrolidone, Cryst. Eng. Comm., 15, 4660-4666 (2013).   DOI
5 N. Kiyoto, S. Hakuta, T. Tani, M. Naya, and K. Kamada, Development of a near-infrared reflective film using disk-shaped silver nanoparticles, J. Soc. Photogr. Sci. Technol. Jpn., 76, 469-472 (2013).
6 W. Zhong, N. Yu, L. Zhang. Z. Liu, Z. Wang, J. Hu, and Z. Chen, Synthesis of CuS nanoplate-containing PDMS film with excellent near-infrared shielding properties, RSC Adv., 6, 18881-18890 (2016).   DOI
7 X. Zeng, Y. Zhou, S. Ji, H. Luo, H. Yao, X. Huang, and P. Jin, The preparation of a high performance near-infrared shielding $CsxWO_3/SiO_2$ composite resin coating and research on its optical stability under ultraviolet illumination, RSC Adv., 3, 8050-8060 (2015).
8 S. Sim, D. Bae, and J. Han, Preparation of silver nanoparticles by chemical reduction-protection method using 1-decanoic acid and tri-n-octylphosphine, and their application in electrically conductive silver nanoplate, Appl. Chem. Eng., 27, 68-73 (2016).   DOI
9 J. Lee, A study on synthesis and dispersion of silver nanoparticle using trisodium citrate, J. Korean Acad. Ind. Coop. Soc., 17, 772-779 (2016).
10 S. Kim, S. Park, G. Kim, and H. Kim, Synthesis of silver nanoparticles and dispersion stability, J. Korean Ceram. Soc., 12, 98-107 (2009).
11 Y. Yoon, S. Ryu, S. Yang, and S. Lee, Particle behavior of silver nanoparticles synthesized by electrical resistance analysis, J. Korean Inst. Electron. Mater. Eng., 28, 531-538 (2015).
12 C. Lee, D. Kim, and K. Nam, Study of the interaction between PVP and silver cation, J. Korean Chem. Soc., 53, 565-569 (2009).   DOI
13 Y. Xia, Y. Xiong, B. Lim, and S. Skrabalak, Shape-controlled synthesis of metal nanocrystals: Simple chemistry meets complex physics, Angew. Chem. Int. Ed., 48, 60-103 (2009).   DOI
14 D. Kim, Metal nanoparticles with controlled sizes and shapes, Polym. Sci. Tech., 24, 269-276 (2013).
15 N. Xiong, Z. Li, H. Xie, Y. Zhao, M. Li, Y. Wang, and J. Li, Synthesis and electrical properties of silver nanoplates for electronic applications, Mater. Sci. Pol., 33, 242-250 (2015).   DOI
16 Y. Kim, The effect of zeta-potential on the stabilization of silver nanoparticle colloid prepared by alcohol reduction method with PVP, J. Korean Ind. Eng. Chem., 14, 487-492 (2003).
17 J. Zeng, Y. Zheng, M. Rycenga, J. Tao, Z. Li, Q. Zhang, Y. Zhu, and Y. Xia, Controlling the shapes of silver nanocrystals with different capping agents, J. Am. Chem. Soc., 132, 8552-8553 (2010).   DOI
18 M. Jang, J. Kang, G. Choi, H. Choi, and Y. Kim, The effect of window film on the thermal performance of window system, Korean J. Air-cond. Refrig. Eng., 6, 134-136 (2013).
19 M. Carboni, M. Carravetta, X. Zhang, and E. Stulz, Efficient NIR light blockage with matrix embedded silver nanoprism thin films for energy saving window coating, J. Mater. Chem. C, 4, 1584-1588 (2016).   DOI
20 N. Li, Q. Zhang, S. Quinlivan, J. Goebl, Y. Gan, and Y. Yin, $H_2O_2$-aided seed-mediated synthesis of silver nanoplates with improved yield and efficiency, Chem. Phys. Chem., 13, 2526-2530 (2012).   DOI