Hydrodynamic cativation as a tool to control macro-, micro-, and nano-properties of inorganic materials

J.Find; S.C.Emerson; I.M.Krausz

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Hydrodynamic cativation as a tool to control macro-, micro-, and nano-properties of inorganic materials

机译：流体动力学催化作为控制无机材料的宏观，微观和纳米特性的工具

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Hydrodynamic cavitation was shown to be a powerful tool for the synthesis of nanos tructured catalysts, ceramics, and piezoelectrics in high phase purities. The macro-, micro-, and nano-properties of solid-state materials could be controlled through adjusting the cavitational regime during synthesis by simple mechanical adjustment. The synthesis of nanostructured titania, piezoelectrics, perovskites, supported and unsupported cobalt molybdates, and Pd and Ag supported on alumina illustrate changes in morphology and size of crystals, growth in a preferred orientation of crystallites, and control of crystallographic strain and size compared of classically prepared materials.

机译：流体动力空化被证明是用于合成高相纯度纳米结构催化剂，陶瓷和压电材料的有力工具。固态材料的宏观，微观和纳米特性可以通过简单的机械调节在合成过程中调节空化状态来控制。纳米结构的二氧化钛，压电体，钙钛矿体，负载和未负载的钼酸钴，以及负载在氧化铝上的Pd和Ag的合成说明了晶体形态和尺寸的变化，微晶择优取向的生长以及与传统方法相比晶体学应变和尺寸的控制准备好的材料。

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《Journal of Materials Research》 |2001年第12期|p.3503-3513|共11页
作者
J.Find; S.C.Emerson; I.M.Krausz;
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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);美国《生物学医学文摘》(MEDLINE);
原文格式 PDF
正文语种 eng
中图分类工程材料学;
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Hydrodynamic cativation as a tool to control macro-, micro-, and nano-properties of inorganic materials

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