D
Debabrata Mandal
Researcher at Indian Institute of Technology Kharagpur
Publications - 15
Citations - 453
Debabrata Mandal is an academic researcher from Indian Institute of Technology Kharagpur. The author has contributed to research in topics: Quenching (fluorescence) & Conductivity. The author has an hindex of 7, co-authored 15 publications receiving 327 citations. Previous affiliations of Debabrata Mandal include Birla Institute of Technology and Science & Indian Institutes of Technology.
Papers
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Modeling of electrical discharge machining process using back propagation neural network and multi-objective optimization using non-dominating sorting genetic algorithm-II
TL;DR: This study attempts to model and optimize the complex electrical discharge machining process using soft computing techniques, and a pareto-optimal set has been predicted in this work.
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Hollow nanostructures of metal oxides as emerging electrode materials for high performance supercapacitors
Sudipta Biswas,Vikas Sharma,Debabrata Mandal,Ananya Chowdhury,Mayukh Chakravarty,Surbhi Priya,Chinmayee Chowde Gowda,Puja De,Inderjeet Singh,Inderjeet Singh,Amreesh Chandra +10 more
TL;DR: In this paper, a targeted strategy of stabilizing hollow nanostructures of metal oxides is proposed for developing next-generation supercapacitors, where a nucleation and growth driven mechanism, for obtaining hollow structures, can be utilized to fabricate simple binary to complex ternary oxides.
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Curcumin Complexed with Graphene Derivative for Breast Cancer Therapy
Debajyoti De,Chandan Kanta Das,Debabrata Mandal,Mahitosh Mandal,Nisha Pawar,Amreesh Chandra,Amar Gupta +6 more
TL;DR: The optical images of cancerous cells treated with GO, GQDs, Cur, GO-Cur, and G QDs-Cur corroborated well with the results from the MTT assay in terms of the percentage of dead cells, and opened a window to determine the mechanism of killing the cancerous cell.
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Defect-induced weak ferromagnetism in transition metal-doped ZnO nanoparticles
TL;DR: In this paper, citric acid-capped and ethylene glycol-stabilized pristine and transition metal (TM=Co, Fe, Mn and Ni)-doped ZnO nanoparticles with the generic formula Zn1−x.............. TM
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DNA supported graphene quantum dots for Ag ion sensing.
TL;DR: The strong green photoluminescence of GQDs showed significant quenching, owing to the appearance of associated Förster resonance energy transfer processes, which led to high sensing efficiencies and synergistically contribute to Ag+ detection.