The present work deals with a new biodegradable biopolymer electrolyte-based carboxymethylcellulose, CMC which was isolated from palm oil empty fruit bunch. Biopolymer electrolytes weredeveloped with different ratios of sodium acetate (NaCH3COO) via a solution casting technique, andtheir structural, electrical and electrochemical behaviours were investigated. The incorporation of 30wt% sodium acetate yielded an optimized ionic conductivity of 1.83 × 10?3 S cm?1 at roomtemperature. Fourier transform infrared results suggested that interactions between componentsoccurred in the biopolymer. The CMC-NaCH3COO film with the highest conductivity had anelectrochemical stability of 2.8 V, and transference number measurements confirmed that ionspredominate in the conduction of electrolytes.
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机译:本工作涉及一种新的可生物降解的生物聚合物电解质基羧甲基纤维素,CMC从棕榈油空果束中分离。研究了通过溶液铸造技术的不同比例,用溶液浇铸技术,以及血管结构,电学和电化学行为培养的生物聚合物电解质。掺入30wt%乙酸钠在室温下优化离子电导率为1.83×10?3 s 3 s。傅里叶变换红外结果表明,生物聚合物中零部件的相互作用。具有最高导电性的CMC-NACH3COO膜具有2.8V的电化学稳定性,转移数量测量证实了ICOSPREMOMINATE在电解质的传导中。
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