利用钼单原子和铑纳米颗粒将聚酰胺废料升级再造为叔胺。

IF 19.3 1区 材料科学 Q1 CHEMISTRY, PHYSICAL
Minhao Tang, Ji Shen, Fengtao Zhang, Yanfei Zhao, Tao Gan, Wei Zeng, Rongxiang Li, Dingsheng Wang, Buxing Han, Zhimin Liu
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引用次数: 0

摘要

通过对聚酰胺废料进行化学回收利用来实现可持续发展具有巨大潜力,特别是在回收一系列含氮化合物方面。在此,我们报告了一种新型策略,即在温和条件下(如 180 ºC),借助乙酸中的 H2,在支持 Mo 单原子和 Rh 纳米颗粒的锐钛型二氧化钛上,将聚酰胺废料升级回收为叔胺。在该方案中,聚酰胺首先通过酸解转化为二乙酰胺中间体,然后以 100% 的选择性氢化为相应的羧酸单体和叔胺。研究证实,Mo 单原子和 Rh 纳米粒子共同激活二乙酰胺中间体的两个酰胺键,并协同催化其氢脱氧生成叔胺,但这种催化剂对羧酸的氢化无效。这项研究提出了一种将各种聚酰胺废料重构为叔胺和羧酸的有效方法,具有广阔的应用前景。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Upcycling of Polyamide Wastes to Tertiary Amines Using Mo Single Atoms and Rh Nanoparticles.

The pursuit of sustainable practices through the chemical recycling of polyamide wastes holds significant potential, particularly in enabling the recovery of a range of nitrogen-containing compounds. Herein, we report a novel strategy to upcycle polyamide wastes to tertiary amines with the assistance of H2 in acetic acid under mild conditions (e.g., 180 °C), which is achieved over anatase TiO2 supported Mo single atoms and Rh nanoparticles. In this protocol, the polyamide is first converted into diacetamide intermediates via acidolysis, which are subsequently hydrogenated into corresponding carboxylic acid monomers and tertiary amines in 100 % selectivity. It is verified that Mo single atoms and Rh nanoparticles work together to activate both amide bonds of the diacetamide intermediate, and synergistically catalyze its hydrodeoxygenation to form tertiary amine, but this catalyst is ineffective for hydrogenation of carboxylic acid. This work presents an effective way to reconstruct various polyamide wastes into tertiary amines and carboxylic acids, which may have promising application potential.

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来源期刊
ACS Energy Letters
ACS Energy Letters Energy-Renewable Energy, Sustainability and the Environment
CiteScore
31.20
自引率
5.00%
发文量
469
审稿时长
1 months
期刊介绍: ACS Energy Letters is a monthly journal that publishes papers reporting new scientific advances in energy research. The journal focuses on topics that are of interest to scientists working in the fundamental and applied sciences. Rapid publication is a central criterion for acceptance, and the journal is known for its quick publication times, with an average of 4-6 weeks from submission to web publication in As Soon As Publishable format. ACS Energy Letters is ranked as the number one journal in the Web of Science Electrochemistry category. It also ranks within the top 10 journals for Physical Chemistry, Energy & Fuels, and Nanoscience & Nanotechnology. The journal offers several types of articles, including Letters, Energy Express, Perspectives, Reviews, Editorials, Viewpoints and Energy Focus. Additionally, authors have the option to submit videos that summarize or support the information presented in a Perspective or Review article, which can be highlighted on the journal's website. ACS Energy Letters is abstracted and indexed in Chemical Abstracts Service/SciFinder, EBSCO-summon, PubMed, Web of Science, Scopus and Portico.
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