Circumventing Wear and Tear of Adaptive Porous Materials

Canossa Stefano; Ji Zhe; Wuttke Stefan

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Circumventing Wear and Tear of Adaptive Porous Materials

机译：规避自适应多孔材料的磨损

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The assessment of the architectural stability of molecular porous materials is not yet a common practice, but critical to their understanding and development. The conformational adaptation of porous materials to guest binding and other chemical dynamics poses a risk of architectural damage, leading to performance deterioration during their prolonged usage. The deformation of the framework backbone and the disconnection of building units are driven by chemical, mechanical, and thermal perturbations, and can be quantitatively described by the term connection completeness. Analytical means that can be used to measure this parameter are presented in order to provide a standard, practical protocol for evaluating architectural damage made to framework materials. Preventive and remedial strategies are proposed for enhancing the architectural integrity of frameworks without compromising their functional mechanisms, paving the way to the design of robust yet adaptive materials. In this way, the discussion on architectural stability is initiated, and readers are encouraged to carefully characterize molecular porous materials for a better understanding of their structure-property relationship.

机译：对分子多孔材料的建筑稳定性的评估尚未成为常见的做法，对他们的理解和发展至关重要。多孔材料对客户约束和其他化学动力学的构象适应构建建筑损伤的风险，导致其延长使用过程中的性能恶化。框架骨架的变形和建筑物单元的断开由化学，机械和热扰动驱动，并且可以通过术语连接完整性定量描述。提供可用于测量该参数的分析装置，以提供用于评估对框架材料所做的架构损坏的标准实用方案。提出了提高框架架构完整性的预防性和补救策略，而不会影响其功能机制，铺平了稳健的自适应材料的设计。以这种方式，启动了关于建筑稳定性的讨论，并鼓励读者仔细描述分子多孔材料以更好地了解其结构性质关系。

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来源
《Advanced Functional Materials》 |2020年第41期|1908547.1-1908547.8|共8页
作者
Canossa Stefano; Ji Zhe; Wuttke Stefan;
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作者单位

Univ Antwerp Dept Phys EMAT Groenenborgenlaan 171 B-2020 Antwerp Belgium;

Univ Calif Berkeley Dept Chem Berkeley CA 94720 USA;

Basque Ctr Mat BCMat UPV EHU Sci Pk Leioa 48940 Spain|Ikerbasque Basque Fdn Sci Bilbao 48013 Spain;

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原文格式 PDF
正文语种 eng
中图分类
关键词
adaptive materials; damage; defects; metal-organic frameworks; Porous materials;

机译：自适应材料;损伤;缺陷;金属 - 有机框架;多孔材料;

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1. POWDER METALLURGY WEAR-RESISTANT MATERIALS BASED ON IRON. II. MATERIALS HOT-PRESSED FROM POROUS COMPACTS [J] . G.A. Baglyuk, L.A. Poznyak Powder Metallurgy and Metal Ceramics . 2001,第3a4期

机译：基于铁的粉末冶金耐磨材料。二。多孔压坯热压材料
2. Sintered wear-resistant iron-based materials, II. materials obtained by hot pressure treatment of porous preforms [J] . Baglyuk G. A., Poznyak L. A. Порошковая Металлургия . 2001,第3a4期

机译：烧结耐磨铁基材料，二。通过多孔预成型件的热压处理获得的材料
3. Types of wear and tear of biomaterials used in orthopaedic surgery [J] . L. Klimek, E. Wolowiec, B. Majkowska Journal of Achievements in Materials and Manufacturing Engineering . 2013,第2期

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4. Production of wear-resistant iron-based powder materials by hot forging porous blanks in the presence of liquid phase of Ni - B eutectic [C] . Vladimir Dorofeyev, Alexander Babets, Tatyana Goncharova, Euro PM2017 congress amp; exhibition proceedings . 2017

机译：Ni-B共晶液相存在下热锻多孔毛坯生产耐磨铁基粉末材料。
5. Development of Wearable Gesture Based Controllers using Intelligent and Adaptive Materials. [D] . Van Volkinburg, Kyle Robert. 2016

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6. Microstructural Analysis of Porous Composite Materials: Dynamic Imaging of Drug Dissolution and Diffusion Through Porous Matrices [O] . Paul M. Young, Kathy Nguyen, Allan S. Jones, 2008

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7. STUDY OF THE COMPOSITION OF RUBBER COMPOSITE MATERIALS AGAINST WEAR AND TEAR AND TENSILE STRENGTH OF MATERIAL RUBBER SIDEWALL ON A CEMENT PATH IN PT. SEMEN TONASA. Tbk [O] . Abdul Halik, Nur Rahmah H. Anwar, Muhammad Gazali 2017

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Circumventing Wear and Tear of Adaptive Porous Materials

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