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乙二醇选择性电氧化用于涤纶树脂的回收利用
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作者 杨笑 马一鸣 +2 位作者 季增锐 公彦美 房忠雪 《大学化学》 CAS 2023年第12期193-199,共7页
聚对苯二甲酸乙二醇酯(涤纶树脂,简称PET)作为一类常见的塑料制品,其回收再利用可以有效减少环境污染和能源消耗,目前主要分为机械与化学两类回收方式。但目前化学回收法仍存在不足,并未广泛应用,主要问题之一是水解产物分离提纯困难。... 聚对苯二甲酸乙二醇酯(涤纶树脂,简称PET)作为一类常见的塑料制品,其回收再利用可以有效减少环境污染和能源消耗,目前主要分为机械与化学两类回收方式。但目前化学回收法仍存在不足,并未广泛应用,主要问题之一是水解产物分离提纯困难。因此,以可再生能源为驱动力,将电催化与PET回收转化相结合,利用镍泡沫作为工作电极使氢氧化钠溶液中的乙二醇逐步氧化为乙醇醛、乙醇酸钠,最终生成易于沉淀分离的草酸钠,从而避免能源大量消耗,提高经济效益。本新创实验实现学科交叉,涉及多种基础实验操作,提升学生综合专业素养。有助于学生了解绿色化学与可持续发展理念,拓展专业视野,激发科学探索兴趣。 展开更多
关键词 电氧化 PET塑料 酯水解 对苯二甲酸 草酸钠
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Regulating non-precious transition metal nitrides bifunctional electrocatalysts through surface/interface nanoengineering for air-cathodes of Zn-air batteries 被引量:1
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作者 Qixing Du yanmei gong +4 位作者 Muhammad Arif Khan Daixin Ye Jianhui Fang Hongbin Zhao Jiujun Zhang 《Green Energy & Environment》 SCIE EI CSCD 2022年第1期16-34,共19页
Zn-air batteries(ZABs),especially the secondary batteries,have engrossed a great interest because of its high specific energy,economical and high safety.However,due to the insufficient activity and stability of bifunc... Zn-air batteries(ZABs),especially the secondary batteries,have engrossed a great interest because of its high specific energy,economical and high safety.However,due to the insufficient activity and stability of bifunctional electrocatalysts for air-cathode oxygen reduction reaction(ORR)and oxygen evolution reaction(OER)processes,the practical application of rechargeable ZABs is seriously hindered.In the effort of developing high active,stable and cost-effective electrocatalysts,transition metal nitrides(TMNs)have been regarded as the candidates due to their high conductivity,strong corrosion-resistance,and bifunctional catalytic performance.In this paper,the research progress in TMNs-based material as ORR and OER electrocatalysts for ZABs is discussed with respect to their synthesis,chemical/physical characterization,and performance validation/optimization.The surface/interface nanoengineering strategies such as defect engineering,support binding,heteroatom introduction,crystal plane orientation,interface construction and small size effect,the physical and chemical properties of TMNs-based electrocatalysts are emphasized with respect to their structures/morphologies,composition,electrical conductivity,specific surface area,chemical stability and corrosion resistance.The challenges of TMNs-based materials as bifunctional air-cathode electrocatalysts in practical application are evaluated,and numerous research guidelines to solve these problems are put forward for facilitating further research and development. 展开更多
关键词 Surface/interface nanoengineering Non-precious transition metal nitrides Zn-air batteries Oxygen reduction reaction Oxygen evolution reaction
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