Mano Yadav scite author profile

Surface of nylon membrane was modified by the graft copolymerization of glycidyl methacrylate (GMA) using persulfate and thiosulfate as redox initiator system. Effect of various reaction parameters such as initiator concentration, monomer concentration, polymerization time, and temperature on degree of grafting was also studied. Maximum grafting of 100% was achieved by using equimolar concentration (0.008M) of redox initiator and 0.5M of GMA monomer at 70 C in 60 min. Grafted nylon membranes with various graft levels of GMA were characterized by various techniques such as fourier transform infrared spectroscopy, thermo gravimetric analysis, and scanning electron microscopy. The GMA grafted nylon (NyM-g-GMA) membranes with different graft levels were evaluated as a support for immobilization of rabbit anti goat antibody (RAG IgG). Antibody (Ab) immobilized NyM-g-GMA membranes were evaluated using ELISA and Bradford protein estimation method. Nylon membrane with 60% graft level showed optimum immobilization of Ab at RAG IgG conc. of 0.625 lg/mL with low nonspecific binding. Maximum immobilization efficiency (I.E.%) of 56% was observed for membrane with 60% graft level at 50 lg/ mL of RAG IgG in PBS (pH 7.4). Ab immobilized NyMg-GMA discs were found to be stable up to 6 weeks at 4 C and 2 days at 37

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Essential secret image sharing approach with same size of meaningful shares

Yadav

Singh

2021

Multimed Tools Appl

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Energy trends of routing protocols for H-WSN

Singh

Rishiwal

Yadav

2016

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Mano Yadav

Multi-Objective Optimization in WSN: Opportunities and Challenges

Power Aware Routing to Support Real Time Traffic in Mobile Adhoc Networks

Surface modification of nylon membrane by glycidyl methacrylate graft copolymerization for antibody immobilization

Essential secret image sharing approach with same size of meaningful shares

Energy trends of routing protocols for H-WSN

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