allotrope of carbon
碳的同素异形体
study of allotropes
同素异形体研究
allotrope conversion
同素异形体转化
allotropes in nanotechnology
纳米技术中的同素异形体
allotropes of carbon, such as diamond and graphite, exhibit different properties.
碳的同素异形体,如金刚石和石墨,表现出不同的性质。
the study of allotropes is crucial for understanding material science.
研究同素异形体对于理解材料科学至关重要。
scientists continue to explore new allotropes with unique characteristics.
科学家们继续探索具有独特特性的新同素异形体。
the allotrope of a substance can influence its strength and conductivity.
物质的同素异形体可以影响其强度和电导率。
different allotropes of silicon have applications in electronics and solar cells.
不同类型的硅具有在电子学和太阳能电池中的应用。
the discovery of new allotropes can lead to groundbreaking technological advancements.
新同素异形体的发现可以导致突破性的技术进步。
understanding the structure of allotropes is essential for designing novel materials.
了解同素异形体的结构对于设计新型材料至关重要。
allotropes are a fascinating area of research in chemistry and physics.
同素异形体是化学和物理学中一个令人着迷的研究领域。
the properties of allotropes can be manipulated through various chemical and physical processes.
可以通过各种化学和物理过程来操纵同素异形体的性质。
allotropes provide a glimpse into the diverse possibilities of matter at the atomic level.
同素异形体让我们瞥见原子水平上物质的多样可能性。
allotrope of carbon
碳的同素异形体
study of allotropes
同素异形体研究
allotrope conversion
同素异形体转化
allotropes in nanotechnology
纳米技术中的同素异形体
allotropes of carbon, such as diamond and graphite, exhibit different properties.
碳的同素异形体,如金刚石和石墨,表现出不同的性质。
the study of allotropes is crucial for understanding material science.
研究同素异形体对于理解材料科学至关重要。
scientists continue to explore new allotropes with unique characteristics.
科学家们继续探索具有独特特性的新同素异形体。
the allotrope of a substance can influence its strength and conductivity.
物质的同素异形体可以影响其强度和电导率。
different allotropes of silicon have applications in electronics and solar cells.
不同类型的硅具有在电子学和太阳能电池中的应用。
the discovery of new allotropes can lead to groundbreaking technological advancements.
新同素异形体的发现可以导致突破性的技术进步。
understanding the structure of allotropes is essential for designing novel materials.
了解同素异形体的结构对于设计新型材料至关重要。
allotropes are a fascinating area of research in chemistry and physics.
同素异形体是化学和物理学中一个令人着迷的研究领域。
the properties of allotropes can be manipulated through various chemical and physical processes.
可以通过各种化学和物理过程来操纵同素异形体的性质。
allotropes provide a glimpse into the diverse possibilities of matter at the atomic level.
同素异形体让我们瞥见原子水平上物质的多样可能性。
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