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Union and Characterization of Molecularly Imprinted Polymer for Prasugrel Drug Base on 2-Hydroxyethyl Methacrylate Monomer in Biological and Pharmaceutical Samples Paper ID: JCEAC-24-06-2019-20
Abstract : In this examination work, a molecularly engraved polymer (MIP) was integrated for Prasugrel. In this technique, a polymer was first orchestrated utilizing 2-hydroxyethyl methacrylate (HEMA) as a monomer, N, N'- methylenebisacrylamide as a crosslinker, and azobisisobutyronitrile (AIBN) as an initiator. The fruitful blend of the MIP was affirmed by essential investigation (CHN), Fourier-change infrared (FT-IR) spectroscopy and checking electron microscopy (SEM). At that point, the impacts of different parameters, for example, pH, temperature, MIP limit, selectivity, adsorption energy and adsorption isotherms were examined by UV-Vis spectroscopy. The adjustment bend was plotted for Prasugrel in these conditions and direct range, point of confinement of recognition (LOD) and cutoff of measurement (LOQ) were accounted for. At long last, the presentation of the combined MIP as an adsorbent was considered under upgraded conditions for the extraction and assurance of Prasugrel in tablet framework and natural liquids, for example, pee and plasma by superior fluid chromatography (HPLC).
Advancement of Food Waste Disposal Technology Using Sodium Hydroxide Paper ID: JCEAC-24-06-2019-17
Abstract : In this exploration, we concentrated on the reusing of sustenance waste utilizing sodium hydroxide (NaOH). Pyrolysis of rice, one of the real components of sustenance squander in Japan, was done to get carbon material with adsorption capacity, together with fuel gases (H2, CH4). Subsequently, it was conceivable to change over rice into carbon material while producing fuel gas. With expanding the NaOH expansion and temperature, the substance of CO and CO2 diminishes, those of H2 and CH4 expanded in the produced gas, and the mass of the buildup after pyrolysis with NaOH diminishes to one-tenth load of crude rice. The buildup after pyrolysis is a carbonaceous material with around 80% carbon content, and the buildup after pyrolysis with NaOH (rice test: NaOH = 1: 1) has smooth permeable surface with higher explicit surface territory (901 m2/g) than that after pyrolysis without NaOH (72 m2/g).