Journal Menu
Volume 6, Issue 1 (2016), Pages [1] - [94]
SILVER NANOAGGREGATES ON CHITOSAN FUNCTIONALIZED REDUCED GRAPHENE OXIDE USING MICROWAVES RADIATION
[1] N.-T. Nguyen and J.-H. Liu, A green method for in situ synthesis of poly(vinyl alcohol)/chitosan hydrogel thin films with entrapped silver nanoparticles, J. Taiwan Inst. Chem. Eng. 45 (2014), 2827-2833.
[2] H. Fei, C. Yang, H. Bao and G. Wang, Flexible all-solid-state supercapacitors based on graphene/carbon black nanoparticle film electrodes and cross-linked porous gel electrolytes, J. Power Sources 266 (2014), 488-495.
[3] J. Chen, P. Xiao, J. Gu, Y. Huang, J. Zhang, W. Wang and T. Chen, Au nanoparticle-loaded PDMAEMA brush grafted graphene oxide hybrid systems for thermally smart catalysis, RSC Adv. 4 (2014), 44480-44485.
[4] M. Maity and U. Maitra, An easily prepared palladium-hydrogel nanocomposite catalyst for C-C coupling reactions, J. Mater. Chem. A 2 (2014), 18952-18958.
[5] C. Du, Z. Yao, Y. Chen, H. Bai and L. Li, Synthesis of metal nanoparticle@graphene hydrogel composites by substrate-enhanced electroless deposition and their application in electrochemical sensors, RSC Adv. 4 (2014), 9133-9138.
[6] M. Gao, C. K. N. Peh, W. L. Ong and G. W. Ho, Green chemistry synthesis of a nanocomposite graphene hydrogel with three-dimensional nano-mesopores for photocatalytic production, RSC Adv. 3 (2013), 13169-13177.
[7] H. Gao, F. Xiao, C. B. Ching and H. Duan, Flexible all-solid-state asymmetric supercapacitors based on free-standing carbon nanotube/graphene and nanoparticle/graphene paper electrodes, ACS Appl. Mater. Inter. 4 (2012), 7020-7026.
[8] M. Wan, Z. Liu, S. Li, B. Yang, W. Zhang, X. Qin and Z. Guo, Silver nanoaggregates on chitosan functionalized graphene oxide for high-performance surface-enhanced Raman scattering, Appl. Spectrosc. 67 (2013), 761-766.
[9] B. Marta, M. Potara, M. Iliut, E. Jakab, T. Radu, F. Imre-Lucaci, G. Katona, O. Popescu and
[10] T. Jiao, H. Zhao, J. Zhou, Q. Zhang, X. Luo, J. Hu, Q. Peng and X. Yan, Self-assembly reduced graphene oxide nanosheet hydrogel fabrication by anchorage of chitosan/silver and its potential efficient application toward dye degradation for wastewater treatments, ACS Sustainable Chemistry & Engineering, 2015.
[11] I. Bilecka and M. Niederberger, Microwave chemistry for inorganic nanomaterials synthesis, Nanoscale 2 (2010), 1358.
[12] M. Tsuji, M. Hashimoto, Y. Nishizawa, M. Kubokawa and T. Tsuji, Microwave-assisted synthesis of metallic nanostructures in solution, Chem. Eur. J. 11 (2005), 440-452.
[13] B. Hu, S.-B. Wang, K. Wang, M. Zhang and S.-H. Yu, Microwave-assisted rapid facile “green” synthesis of uniform silver nanoparticles: Self-assembly into multilayered films and their optical properties, J. Phys. Chem. C 112 (2008), 11169-11174.
[14] S. A. Masurkar, P. R. Chaudhari, V. B. Shidore and S. P. Kamble, Rapid biosynthesis of silver nanoparticles using Cymbopogan citratus (lemongrass) and its antimicrobial activity, Nanomicro Letters 3 (2011), 189-194.
[15] N. N. Mallikarjuna and R. S. Varma, Microwave-assisted shape-controlled bulk synthesis of noble nanocrystals and their catalytic properties, Crystal Growth & Design 7 (2007), 686-690.
[16] M. N. Nadagouda, T. F. Speth and R. S. Varma, Microwave-assisted green synthesis of silver nanostructures, Acc. Chem. Res. 44 (2011), 469-478.
[17] J. Martín-Gil, F. J. Martín-Gil, M. José-Yacamán, L. Carapia-Morales and T. Falcón-Bárcenas, Microwave-assisted synthesis of hydrated sodium uranyl oxonium silicate, Pol. J. Chem. 79 (2005), 1399-1403.
[18] V. da Silva Lacerda, J. B. López-Sotelo, A. Correa-Guimarães, S. Hernández-Navarro, M. Sánchez-Bascones, L. M. Navas-Gracia, P. Martín-Ramos, E. Pérez-Lebeña and J. Martín-Gil, A kinetic study on microwave-assisted conversion of cellulose and lignocellulosic waste into hydroxymethylfurfural/furfural, Bioresour. Technol. 180 (2015), 88-96.
[19] J. Vera-Agullo, H. Varela-Rizo, J. A. Conesa, C. Almansa, C. Merino and I. Martin-Gullon, Evidence for growth mechanism and helix-spiral cone structure of stacked-cup carbon nanofibers, Carbon, 45 (2007), 2751-2758.
[20] T. Sun, D. Zhou, J. Xie and F. Mao, Preparation of chitosan oligomers and their antioxidant activity, Eur. Food Res. Technol. 225 (2007), 451-456.
[21] M. Montazer, A. Shamei and F. Alimohammadi, Synthesizing and stabilizing silver nanoparticles on polyamide fabric using silver-ammonia/PVP/UVC, Prog. Org. Coat. 75 (2012), 379-385.
[22] P. K. Ang,
[23] M. Fang, J. Long, W. Zhao, L. Wang and G. Chen, pH-Responsive chitosan-mediated graphene dispersions, Langmuir 26 (2010), 16771-16774.
[24] P. M. Matei, P. Martín-Ramos, M. Sánchez-Báscones, S. Hernández-Navarro, A. Correa-Guimaraes, L. M. Navas-Gracia, C. A. Rufino, M. C. Ramos-Sánchez and J. Martín-Gil, Synthesis of chitosan oligomers/propolis/silver nanoparticles composite systems and study of their activity against Diplodia seriata, Int. J. Polym. Sci. 2015 (2015), 1-11.
[25] S. Park, J. An,
[26] M. Raffi, F. Hussain, T. M. Bhatti, J. I. Akhter, A. Hameed and M. M. Hasan, Antibacterial characterization of silver nanoparticles against E. Coli ATCC-15224, J. Mater. Sci. Technol. 24 (2008), 192-196.