Quantitative Structure-Activity Relationships (QSARs ) for Materials Science

机译：材料科学的定量构效关系（QSAR）

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The field of combinatorial synthesis and "artificial intelligence" in materials science is still in its infancy. In order to develop and accelerated strategy in the discovery of new materials and processes, requires the need to integrate both the experimental aspects of combinatorial synthesis with the computational aspects of information based design of materials. In biology and organic chemistry, this has been accomplished by developing descriptors which help to specify "quantitative structure- activity relationships' at the molecular level. If materials science is to adopt these strategies as well, a similar framework of "QSARs" is required. In this paper, we outline some approaches that can lay the foundations for QSARs in materials science.

机译：材料科学中的组合综合和“人工智能”领域仍处于起步阶段。为了开发和加速发现新材料和工艺的策略，需要将组合合成的实验方面与基于信息的材料设计的计算方面相结合。在生物学和有机化学中，这是通过开发描述符来完成的，这些描述符有助于在分子水平上指定“定量结构-活性关系”，如果材料科学也要采用这些策略，则需要类似的“ QSAR”框架。在本文中，我们概述了一些可以为材料科学中的QSAR奠定基础的方法。

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《Symposium on Combinatorial and Artificial Intelligence Methods in Materials Science, Nov 26-29, 2001, Boston, Massachusetts, U.S.A. 》|2001年|p.223-232|共10页
会议地点 Boston MA(US);Boston MA(US)
作者
Krishna Rajan; Changwon Suh; Arun Rajagopalan; Xiang Li;
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Combinatorial Materials Science and Informatics Laboratory Department of Materials Science Eng. and Information Technology Program Rensselaer Polytechnic Institute, Troy NY 12180-3590 USA;

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原文格式 PDF
正文语种 eng
中图分类无线电电子学、电信技术 ;
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Quantitative Structure-Activity Relationships (QSARs ) for Materials Science

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