M
Manas Roy
Researcher at Indian Institute of Technology Kanpur
Publications - 23
Citations - 831
Manas Roy is an academic researcher from Indian Institute of Technology Kanpur. The author has contributed to research in topics: Catalysis & Aryl. The author has an hindex of 13, co-authored 23 publications receiving 686 citations. Previous affiliations of Manas Roy include Indian Institute of Engineering Science and Technology, Shibpur & National Institute of Technology Agartala.
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Heavily nitrogen doped, graphene supercapacitor from silk cocoon
Vikrant Sahu,Sonia Grover,Brindan Tulachan,Meenakshi Sharma,Gaurav Srivastava,Manas Roy,Manav Saxena,Niroj Kumar Sethy,Kalpana Bhargava,Deepu Philip,Hansung Kim,Gurmeet Singh,Sushil Kumar Singh,Mainak Das,Raj Kishore Sharma +14 more
TL;DR: In this article, the authors have developed a cheap and easy process for synthesizing heavily nitrogen doped graphene from non-mulberry silk cocoon membrane (Tassar, Antheraea mylitta) by pyrolyzing the cocoon at 400°C in argon atmosphere.
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Water soluble carbon nano-onions from wood wool as growth promoters for gram plants
TL;DR: Water-soluble carbon nano-onions isolated from wood wool-a wood-based pyrolysis waste product of wood, can enhance the overall growth rate of gram plants and can act as efficient growth stimulants which can be used as benign growth promoters.
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Seed treatment with iron pyrite (FeS2) nanoparticles increases the production of spinach
Gaurav Srivastava,Chinmaya Kumar Das,Anubhav Das,Satish Kumar Singh,Manas Roy,Hansung Kim,Niroj Sethy,Ashok Kumar,Raj Kishore Sharma,Sushil Kumar Singh,Deepu Philip,Mainak Das +11 more
TL;DR: In this paper, the authors synthesized such iron pyrite nanoparticles in a controlled environment and used them as seed treatment agent (Pro-fertilizer) for spinach crops.
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Carbon nano-onions as nontoxic and high-fluorescence bioimaging agent in food chain—an in vivo study from unicellular E. coli to multicellular C. elegans
TL;DR: In vivo effects of water-soluble carbon nano-onions introduced in common food web of two model organisms and it is found that wsCNOs serve as highly-fluorescent bioimaging agent suggesting new avenues in nanotoxicology research and biomedical application including drug delivery.
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Cerium oxide nanoparticles promote neurogenesis and abrogate hypoxia-induced memory impairment through AMPK-PKC-CBP signaling cascade.
Aditya Arya,Anamika Gangwar,Sushil Kumar Singh,Manas Roy,Mainak Das,Niroj Kumar Sethy,Kalpana Bhargava +6 more
TL;DR: The present study results suggest that nanoceria can be translated as promising therapeutic molecules for neurodegenerative diseases.