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Surface and diffusive capacity controlled electrochemistry in nickel boride/nickel borate
Vinit Kaluram Kanade,Chaitanya Kaluram Kanade,Rahul B. Pujari,Dong-Weon Lee,Girish Sambhaji Gund,김태성 한국공업화학회 2022 Journal of Industrial and Engineering Chemistry Vol.116 No.-
Electrochemical energy storage devices have attracted considerable attention because of their ability tosupply high energy and power in energy management systems. In this work, we synthesized highly electrochemicallyactive nickel boride/nickel borate (NixB/NiBxOy) composite materials using a chemicalcoprecipitation method. The variation of precursor solution’s concentration controlled the chemical, morphological,surface area and structural properties of composite material. The electrochemical measurementsof NixB/NiBxOy material display a high charge storage capacity of 201.5 mAh/g at 5 mV s1scan rate amongst the different concentration. The charge storage capacity, rate capability and cycle stabilityof NixB/NiBxOy materials were effectively controlled by the material composition, structure, size,surface area and porosity feature through the charge kinetics, surface and diffusive capacity contributionand the battery–type charge storage mechanism. These findings provide an important insight to controlelectrochemical properties by optimizing the physical and chemical features of battery–type material.
Opto-Electrical Properties of Marine Derived Porphyra-334 Mycosporine-Like Amino Acid
Ahn, Yongtae,Chopade, Prathamesh,Lee, Jeonghun,Kim, Hyoung-Shik,Seo, Hyo Hyun,Kanade, Vinit,Ansari, S. G.,Tongaonkar, Rucha,Park, Sung Ha,Kulkarni, Atul,Moh, Sang Hyun American Scientific Publishers 2018 Journal of nanoelectronics and optoelectronics Vol.13 No.3
<P>Mycosporine-like amino acids (MAAs) are metabolites produced by a variety of freshwater and marine organisms including bacteria, fungi, and algae. MAAs play an important role of photoprotection, i.e., protection of these organisms from harmful UV radiations. One of the MAAs, Porphyra-334 was subjected to study its opto electrical properties by Silicon nano-ribbon field effect transistor (FET) device and by cyclic voltammetry. SiNR and SP FET showed ambipolar characteristics. Porphyra-334 enhanced the photoconductivity of the SP FET. The electrochemical properties were described by cyclic voltammetry (CV) which supported the previous studies that Porphyra-334 is not an antioxidant and is oxidatively robust. The high electrochemical stability of the Porphyra-334 solution was demonstrated by the low current amplitude (mu A). Electrochemical Impedance spectroscopy was also performed. The Nyquist plot showed high resistance for Porphyra-334 under dark and illuminating conditions. These high resistance values demonstrate that within the solution, transport of Porphyra-334 molecules is slow, which indicates that Porphyra-334 molecules have good electrochemical stability.</P>