Radiation-induced synthesis of nanoparticles in aqueous solution: A mechanistic approach

Autor: Priyanka Mangla, Chander Amgoth, M. C. Rath, Avinash Singh, Sujata Yumnam
Rok vydání: 2020
Předmět:
Zdroj: INTERNATIONAL CONFERENCE ON MULTIFUNCTIONAL MATERIALS (ICMM-2019).
ISSN: 0094-243X
DOI: 10.1063/5.0019490
Popis: Radiation-induced synthesis provides many advantages over other conventional methods of synthesis such as- minimal use of potentially toxic chemicals as reducing agents, facile synthesis, simple reaction scheme, rapid or less time consuming, dose-dependent morphology etc. It is carried out in aqueous solution which minimizes the use of organic solvents hence, tedious separation, purification and characterization process is avoided. The radiation-induced synthesis involved both high energy radiation i.e. electron beam and gamma rays (radiation-chemical methods) and low energy radiation i.e. UV photons (photochemical method). In the radiation-chemical method, reducing radicals are generated by the interaction of primary products of radiolysis of water (H•, OH•, eaq−) with the solute molecules, whereas in photochemical method, reducing radicals are generated by direct photoexcitation of solute molecule and H atom abstraction. In this article, we reviewed the mechanistic perspective involved in the synthesis of semiconductor nanoparticles i.e. - CdSe by using the radiation chemical and photochemical methods, discussed tuning of their optical properties and morphology via changing the precursor concentration, dose, dose rate and nature of reducing radicals.
Databáze: OpenAIRE