Browsing by Author "Singh, Jay"
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Item INTRODUCTION TO SMART AND INTELLIGENT NANOMATERIALS FOR BIOSENSORS (Book Chapter)(Elsevier, 2024-1) Natarajan, Arunadevi; Singh, Kshitij RB; Rai, Harshita; Singh, Jay; Pandey, Shyam S; Singh, Ravindra Pratap; Malhotra, Bansi DThe upgraded version of nanotechnology is the development of novel material with multiple functionalities by integrating the fields of physics, chemistry, material science, engineering, and biotechnology. The small-sized nanoparticles have outstanding characteristics like improved absorption, large surface area, quantum effects, and high reactivity. Its high targeting nature, unpredictable side effects, and drug delivery to the healthy tissues when exposed largely are the major drawbacks in the biomedical field compared with other areas. Smart and intelligent materials are developed to overcome all these challenges. It offers important prospects like flexibility, sensitivity, selectivity, easily portable, and user friendly, which provides fair and accurate detection of diseases. The integration of nanotechnology-based diagnostics devices with IoT will deliver positive impacts in the food, environment, medical, and agriculture sectors. This chapter provides an overview of classification, tuneable properties of the smart material by varying external stimuli, and recent applications in the biomedical area.Item INTRODUCTION: AN OVERVIEW OF NANOCOATINGS TOWARD MEDICAL DEVICE(Elsevier, 2024-01-01) Natarajan, Arunadevi; Singh, RB Kshitij; Solanki, R Pratima; Singh, Jay; Singh, Ravindra PratapNanomaterial’s research has many interesting and proven results in the progression of the biomedical and pharmaceutical fields. The process of interlinking nanoparticles/composites with medical devices in the form of coatings and target delivery systems paved new horizons for the diagnosis and treatment of many diseases. The outstanding characteristics and functional properties of nanomaterials upsurge the efficacy, decrease the difficulties connected with medical devices, and advance the accuracy and function of drug delivery systems. Hence, in this chapter, we presented the role of nanomaterial in medical devices with the help of nanotechnology, their merits, and mitigating the disadvantages of improper handling of these nanocompounds.Item MXENE-BASED FUNCTIONAL MATERIALS AS ANTIBACTERIAL AND ANTIVIRAL AGENTS (Book Chapter)(American Chemical Society, 2023-12-13) Thapa, Sushma; Singh, Kshitij Rb; Natarajan, Arunadevi; Singh, Jay; Pandey, Shyam S; Singh, Ravindra PratapRecent Progress in Nanomaterials with Antiviral/Antimicrobial Functionalities. Nanomaterials play a key role in treating various infectious diseases owing to their antibacterial characteristics. Nowadays the development of novel functional materials with antibacterial or antiviral surfaces that inhibit microbial adherence or destroy the bacteria has received significant attention. Volume one of this book presents design strategies, classifications and synthesis methods for a variety of functional materials; describes techniques for antibacterial and antiviral detection and activity measurement; and reviews relevant surface protection mechanisms. The audience for this book includes those working in a wide variety of disciplines, including chemistry, biology, materials science, nanotechnology, and forensic and pharmaceutical sciences.Item MXENES-BASED BIOSENSORS(Wiley, 2024-01-01) Thapa, Sushma; Singh Kshitij, R B; Natarajan, Arunadevi; Kerry, Rout George; Singh, Jay; Pandey Shyam, S; Singh, Ravindra PratapMXenes are recently developed two-dimensional (2D) inorganic compounds with few atomic layers that have exceptional properties, for instance, thermal, magnetic, optical, electronic, and mechanical. Owing to their excellent properties, chemical composition, and layered structure, MXene is one of the prime materials for the advancement of biosensors, among other latest nanomaterials. Fabricating advanced biosensors with high selectivity and sensitivity is one of the most required concerns in biosensors. Numerous nanomaterials, including MXenes, have been introduced to fabricate biosensors for obtaining high selectivity and sensitivity. Therefore, in this book chapter, advanced biosensors were discussed based on 2D MXene for biomedical, agricultural, and environmental remediation applicationsItem SELF-ASSEMBLED COMPLEXES: FROM MOLECULES TO BIODERIVED MATERIALS FOR SUSTAINABLE SENSING TECHNOLOGIE (Editorial)(Elsevier B.V., 2025-01-11) Singh, Ravindra Pratap; Pandey, Shyam S; Natarajan, Arunadevi; Singh, JayThis special issue is focused on the development and characterization of nanosized self-assembled molecules for various sensing applications. The scope of the issue was contented and received many research and review articles, proving that the process of synchronizing chemistry/biology/material science with novel technology will end up with substances of sensing importance. The quality of the published articles in this issue is revealed from their way of interpretation, illustrative diagrams, and scientific explanation. All the articles in this special issue will upsurge the understanding and knowledge about functional materials to budding researchers.Item TARGETED ELIMINATION OF HEAVY METALS FROM INDUSTRIAL WASTEWATER: SYNERGISTIC EFFECT OF NANO METAL OXIDES (Article)(Taiwan Institute of Chemical Engineers, 2025-01) Swathika, Manoharan; Andal, Narasimhan Muthulakshmi; Dharani, Sivasubramaniam; Singh, Jay; Pandey Shyam, S; Singh Kshitij, RB; Natarajan, ArunadeviUnprocessed solutions containing hazardous heavy metals, even in trace amounts, exert a detrimental impact on human health and pose a threat to biodiversity, hydrosphere ecosystems, and communities. Liquid waste containing heavy metals has been found to pose a notable threat to the environment.In this study, nano NiO, MnO, and NiMnO3 were synthesized and characterized systematically. The nano metal oxides were used as an adsorbent for the elimination of heavy metals from industrial wastewater.In view of this, the efficacy of synthesized metal oxides as potential sorbents is investigated to chelate Pb (II) ions which are present as one of the major contaminants of industrial effluents. Three adsorption systems viz., Pb(II) – NiO, Pb(II) - MnO, and Pb(II) – NiMnO3 mixture were experimentally verified by Batch equilibration and fixed bed column methods. Pre and post-run sorbent materials are characterized using SEM and EDAX analyses to examine the appropriate changes. A trial fixed bed column was run for the effluent sample, wherein 98% Pb (II) removal was registered against 96 % as observed in Batch mode. This emphasizes the potential of the synthesized metal oxides as efficient sorbents for addressing heavy metal contamination in industrial wastewater.