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Neha Bhardwaj
Researcher at University Institute of Engineering and Technology, Panjab University
Publications - 46
Citations - 2255
Neha Bhardwaj is an academic researcher from University Institute of Engineering and Technology, Panjab University. The author has contributed to research in topics: Chemistry & Medicine. The author has an hindex of 20, co-authored 33 publications receiving 1325 citations. Previous affiliations of Neha Bhardwaj include Academy of Scientific and Innovative Research & Indian Institute of Technology Delhi.
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Recent advances in enzyme immobilization techniques: Metal-organic frameworks as novel substrates
Jyotsana Mehta,Jyotsana Mehta,Neha Bhardwaj,Neha Bhardwaj,Sanjeev K. Bhardwaj,Sanjeev K. Bhardwaj,Ki-Hyun Kim,Akash Deep,Akash Deep +8 more
TL;DR: In this article, the authors discuss different approaches used in the development of MOF-enzyme biocatalytic supports, such as surface adsorption, diffusion, and in-situ encapsulation.
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An overview of different strategies to introduce conductivity in metal–organic frameworks and miscellaneous applications thereof
Sanjeev K. Bhardwaj,Sanjeev K. Bhardwaj,Neha Bhardwaj,Neha Bhardwaj,Rajnish Kaur,Jyotsana Mehta,Jyotsana Mehta,Amit L. Sharma,Amit L. Sharma,Ki-Hyun Kim,Akash Deep,Akash Deep +11 more
TL;DR: In this article, a comprehensive review of various synthetic and integrating strategies to improve electrical conductivity and long-range charge transport properties in metal-organic frameworks (MOFs) is provided.
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MOF–Bacteriophage Biosensor for Highly Sensitive and Specific Detection of Staphylococcus aureus
Neha Bhardwaj,Neha Bhardwaj,Sanjeev K. Bhardwaj,Sanjeev K. Bhardwaj,Jyotsana Mehta,Jyotsana Mehta,Ki-Hyun Kim,Akash Deep,Akash Deep +8 more
TL;DR: The results of this study highlight that the proposed biosensor is more sensitive than most of the previous methods while exhibiting some advanced features like specificity, regenerability, extended range of linear detection, and stability for long-term storage (even at room temperature).
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Advances in nanomaterial-based electrochemical biosensors for the detection of microbial toxins, pathogenic bacteria in food matrices
TL;DR: This review focused on sources of pathogenic microbes and their toxins; possible routes of their entrainment in food, and current development of NM-based biosensors to realize real-time detection of the target analytes.
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Graphene modified screen printed immunosensor for highly sensitive detection of parathion.
Jyotsana Mehta,Jyotsana Mehta,Priya Vinayak,Priya Vinayak,Satish K. Tuteja,Varun A. Chhabra,Neha Bhardwaj,Neha Bhardwaj,Ashok K. Paul,Ki-Hyun Kim,Akash Deep,Akash Deep +11 more
TL;DR: A graphene based impedimetric immunosensor has been fabricated and employed for highly sensitive and specific detection of parathion and showed high selectivity towardsParathion in the presence of malathion, paraoxon, and fenitrothion.