Keywords : Biomedical


Biomedical Waste Management

Anusri U; Princely Angelinal Y; Durga Maheswari N

International Research Journal on Advanced Science Hub, 2020, Volume 2, Issue 10, Pages 16-23
DOI: 10.47392/irjash.2020.183

Infectious and hazardous waste are engendering within health care and hospitals. The emissions of definite metals and chlorinated dioxins and furans in the flue gasses of medical waste are comparatively high as compared to the emissions from different combustion sources. Discriminate disposal of these wastes possesses a serious threat to the ecosystem and human health. Tremendous efforts have been made by the government to ensure the availability of medical disposal services. In general, the incineration method is one of the most extensively used techniques for the disposal of medical wastes. The process involves burning waste at a very high elevated temperature. The article deals with the fundamental problems as definition, categories of medical waste, and the process like segregation, storage, and transport and disposal methods are discussed. A statistics of CBMWTF operation under 11 districts surveyed. Effective biomedical waste management is mandatory for healthy humans and to the unstained environment. 

Green-synthesis of metallic nanoparticles & their biomedical utilizations: An illustrative review

Goswami Lakhminandan; Gogoi Manas Jyoti

International Research Journal on Advanced Science Hub, 2020, Volume 2, Issue Special Issue ICAMET 10S, Pages 6-10
DOI: 10.47392/irjash.2020.191

In modern days the study and research of metallic nanoparticles is one of the important fields of science due to its important application in the field of catalysis, bio-medical, sensors, antimicrobials, catalysis, agricultural field etc. The green synthesis of nanoparticles have proved to be better than the chemical method due to the large amount of capital involved in production in chemical method and it can solve the difficult environmental challenges like solar energy conservation , agricultural production, catalysis etc. These biocompatible nanoparticles exists in the form of mono-metallic nanoparticles or in two or more metals as alloys found extremely beneficial applications as antioxidant, anticancer, antimicrobial, antidiabetic, anticoagulant agents. In this review, an attempt is made to project the different routes of bio-synthesized processes to obtain metallic nanoparticles and their biomedical utilizations.