Dr. Nidhi Chauhan
Assistant Professor
Amity University, Noida, Uttar Pradesh
India
Biography
Dr. Nidhi Chauhan, working as Assistant Professor in Amity Institute of Nanotechnology (AINT), Amity University, Noida, Uttar Pradesh. She has been carrying out research in the field of nanomaterials based biosensor and enzyme technology. Her research work deals with the detection of many metabolites for the diagnosis of various diseases. During the 12 years of her research period (from 2009 onward), she published more than 90 research papers in highly reputed journals with total impact factor of 250. Collectively, these research papers indicated her H-index of 29 and citation index of 2663. More than 40 National/International, conferences/seminars/workshops in various cities of India, Sweden, Scotland and UK were attended by her to present her scientific work showing significant accomplishments to research. Furthermore, her significant scientific contribution was to develop a new method for the way of using detergents for washing purposes. This work was highlighted in “The Economist†newspaper published in London. Four Indian and one International patent (PCT) on "polyvinyl chloride (PVC) surface co-immobilized with enzymes and its laundry applications to remove strains" with the help of TIFAC, Department of Science & Technology, Govt. of India were filed. She have achieved numerous remarkable awards in workshops, International Conferences with Travel Grant Awards from ICMR, CSIR and DBT and Visiting Scientists Fellowships. She has also been awarded Shakutla Devi Amir Chand award for the year 2014 by ICMR, N. Delhi.
Research Interest
Dr. Nidhi Chauhan is Assistant Professor at Amity Institute of Nanotechnology, Amity University, Noida, India. She has published 90 high quality research papers in International journals with H-index of 29. Her research work in the area of disease detection and biological important molecules is of high scientific and social relevance. Her research work focused on "Synthesis of nanosensing interfaces for the detection of various metabolites in clinical samples". She has made outstanding contribution in developing novel biosensors for fine detection or measurement of metabolites in human body fluids essential for reliable diagnosis and better management of human health and diseases