nanophase materials exhibit unique optical properties due to their reduced particle size.
纳米相材料由于其粒径减小而表现出独特的光学性能。
researchers are developing nanophase titanium dioxide for improved photocatalytic applications.
研究人员正在开发纳米相二氧化钛,以改进光催化应用。
the nanophase structure of this alloy contributes to its exceptional mechanical strength.
该合金的纳米相结构使其具有优异的机械强度。
nanophase catalysts show significantly higher activity in chemical reactions.
纳米相催化剂在化学反应中表现出更高的活性。
nanophase coatings can provide enhanced corrosion resistance for metal surfaces.
纳米相涂层可以为金属表面提供增强的耐腐蚀性。
the synthesis of nanophase iron oxide requires precise temperature control.
纳米相氧化铁的合成需要精确的温度控制。
nanophase semiconductors are promising for next-generation electronic devices.
纳米相半导体对于下一代电子设备很有前景。
these nanophase composites combine the benefits of multiple materials.
这些纳米相复合材料结合了多种材料的优点。
nanophase materials science has emerged as a rapidly growing field.
纳米相材料科学已成为一个快速发展的领域。
the properties of nanophase particles differ from bulk materials.
纳米相颗粒的特性与块体材料不同。
nanophase zinc oxide is widely used in sunscreen formulations.
纳米相氧化锌广泛应用于防晒霜配方中。
advanced characterization techniques are essential for studying nanophase structures.
先进的表征技术对于研究纳米相结构至关重要。
nanophase materials exhibit unique optical properties due to their reduced particle size.
纳米相材料由于其粒径减小而表现出独特的光学性能。
researchers are developing nanophase titanium dioxide for improved photocatalytic applications.
研究人员正在开发纳米相二氧化钛,以改进光催化应用。
the nanophase structure of this alloy contributes to its exceptional mechanical strength.
该合金的纳米相结构使其具有优异的机械强度。
nanophase catalysts show significantly higher activity in chemical reactions.
纳米相催化剂在化学反应中表现出更高的活性。
nanophase coatings can provide enhanced corrosion resistance for metal surfaces.
纳米相涂层可以为金属表面提供增强的耐腐蚀性。
the synthesis of nanophase iron oxide requires precise temperature control.
纳米相氧化铁的合成需要精确的温度控制。
nanophase semiconductors are promising for next-generation electronic devices.
纳米相半导体对于下一代电子设备很有前景。
these nanophase composites combine the benefits of multiple materials.
这些纳米相复合材料结合了多种材料的优点。
nanophase materials science has emerged as a rapidly growing field.
纳米相材料科学已成为一个快速发展的领域。
the properties of nanophase particles differ from bulk materials.
纳米相颗粒的特性与块体材料不同。
nanophase zinc oxide is widely used in sunscreen formulations.
纳米相氧化锌广泛应用于防晒霜配方中。
advanced characterization techniques are essential for studying nanophase structures.
先进的表征技术对于研究纳米相结构至关重要。
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