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Ma Yanyan,Zhang Weida,CHENGSHAOBO,Yang Wanting,Liu Yuxing,Yang Shengyu,Zhang Xinling,Guo Minrui,Chen Guogang 한국원예학회 2022 Horticulture, Environment, and Biotechnology Vol.63 No.6
Prunus domestica L. cv. Ximei fruit perishes quickly due to intense metabolic activity after being harvested. To prolong shelf life and maintain fruit quality, the eff ects of 1-methylcyclopropene (1-MCP) treatment on P. domestica fruit during storage at 4 ± 1 °C were investigated. The results showed that the soluble solid content (SSC), respiratory rate (29.8%), ethylene production (27.2%), anthocyanin content, malonaldehyde content (MDA), hydrogen peroxide content (H 2O2), and superoxide anion activity (O 2·−) of P. domestica fruit were all signifi cantly reduced by 1-MCP treatment (1.0 μL L −1), while the content of ascorbic acid and total phenol, and the activity of SUPEROXIDE DISMUTASE (SOD, 61.3%), CATALASE (CAT, 39.0%), ASCORBATE PEROXIDASE (APX, 23.7%), and PEROXIDASE (POD, 38.0%) increased compared to untreated fruit after 35 days of cold storage. Overall, 1-MCP treatment could maintain high postharvest quality and anti- oxidant activity in P. domestica fruit
Eco-friendly Polypyrrole-coated Cocozelle Composites for Supercapacitor Application
Hui Ji,Chuanjie Zhang,Weida Rao,Bin Guo,Lingling Fan,Zikui Bai,Haifeng Bao,Jie Xu 한국섬유공학회 2020 Fibers and polymers Vol.21 No.6
Cocozelle is essentially consisted of hemicellulose and lignin with a hierarchically porous structure. Herein,cocozelle slices after freeze-drying were employed as green substrates to support the growth of polypyrrole (PPy) via a facileoxidative polymerization approach. The cocozelle surface was densely covered with sheet-like PPy due to the hydrogenbonding between PPy and cocozelle. The PPy/cocozelle composites could be facilely utilized as supercapacitor electrodes,which showed a high specific capacitance of 1108 F g-1 with an energy density of 70.5 Wh kg-1 and a power density of398 W kg-1 at a charge/discharge current density of 0.8 mA cm-2 as well as desirable cycling life with a capacitance retentionrate of 76.9 % after 1000 cycles. Moreover, 95.3 % of the initial specific capacitance obtained at 0.2 mA cm-2 could bereached as the current density increased to 1.6 mA cm-2. These results demonstrate that cocozelle could be used as a superioralternative biomass-derived substrate for the developments of eco-friendly and renewable energy storage devices.