2016
DOI: 10.1002/chin.201609221
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Abstract: Applications: A Comprehensive Overview -[396 refs.]. -(DHAND, C.; DWIVEDI, N.; LOH, X. J.; JIE YING, A. N.; VERMA, N. K.; BEUERMAN*, R. W.; LAKSHMINARAYANAN, R.; RAMAKRISHNA, S.; RSC Adv. 5 (2015) 127, 105003-105037, http://dx.

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Cited by 7 publications
(5 citation statements)
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“…Physical methods such as laser ablation, vapor deposition, arc discharge, sputter deposition, ball milling and ame pyrolysis dissipates radiation and consumes enormous energy. 30 Chemical methods such as wet chemical reduction, 31 microemulsion, 32 electrochemical process, 33,34 photochemical reduction, 35,36 hydrolysis, 37 thermal decomposition, 38 sono-decomposition, 39,40 chemical vapor deposition 41,42 use toxic chemicals not only hazardous to the living beings but also non-ecofriendly. Due to the limitations of these methods, the use of green synthesis approach based synthesis of nanoparticles is in great demand.…”
Section: Introductionmentioning
confidence: 99%
“…Physical methods such as laser ablation, vapor deposition, arc discharge, sputter deposition, ball milling and ame pyrolysis dissipates radiation and consumes enormous energy. 30 Chemical methods such as wet chemical reduction, 31 microemulsion, 32 electrochemical process, 33,34 photochemical reduction, 35,36 hydrolysis, 37 thermal decomposition, 38 sono-decomposition, 39,40 chemical vapor deposition 41,42 use toxic chemicals not only hazardous to the living beings but also non-ecofriendly. Due to the limitations of these methods, the use of green synthesis approach based synthesis of nanoparticles is in great demand.…”
Section: Introductionmentioning
confidence: 99%
“…Even after the diverse advantages of the top-down strategy, the bottom-up method is more frequently used and considered to be a more suitable route for the manufacture of nanostructured materials with controllable microstructure and porosity. [315][316][317] Catalytic conversion of CO 2 endows several potential benefits from a sustainable and clean environment context. However, the blue print of catalytic transformation pathways has several critical bottlenecks that need to be overcome for the successful implementation of this technology.…”
Section: Outlook and Future Directionsmentioning
confidence: 99%
“…[6][7][8][9] The strategies which are usually utilised for the synthesis of organic and inorganic nanoparticles include sol-gel reactions, mechanical milling, microemulsion polymerization, self-assembly, inorganic templates, chemical vapor deposition and biogenic synthesis. 10 Despite the advantages offered by these methods, they typically require multiple starting chemical components, initiators, crosslinkers, organic solvents, and laborious manufacturing procedures. Therefore, the development of green, and cost-effective methods for engineering nanoparticles composed entirely of biological molecules, without resorting to synthetic agents and organic solvents, could be a viable strategy to improve the manufacturing of the new generation of nanoparticles.…”
Section: Introductionmentioning
confidence: 99%