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フレームワークヒンジングからのInH (BDC) 2の大きな負の線形圧縮性

Qingxin Zeng1, Kai Wang1, Bo Zou1

  • 1State Key Laboratory of Superhard Materials, College of Physics, Jilin University , Changchun 130012, China.

Journal of the American Chemical Society
|October 26, 2017
PubMed
まとめ

研究者らは,極端な負の線形圧縮性 (NLC) を示す新しい材料であるインジウム二酸化ベンゼン-1,3二酸化炭素 (InH BDC) 2を発見した. この発見により 材料科学の先進的な応用には より安全で 費用対効果の高い選択肢が生まれます

科学分野:

  • 材料科学
  • 固体化学
  • クリスタルグラフィー

背景:

  • ネガティブ・リニア・コンプレシビリティ (NLC) は,材料科学で望ましい現象である,均一な圧縮下で一つの方向に膨張する材料を記述する.
  • 現存するNLC材料は,しばしば限られた圧縮性値 (典型的には<-20 TPa−1) を有し,危険成分を含むことができる.
  • 独特の機械的性質を持つ先進的な材料を開発するには,大規模なNLCを達成することが不可欠です.

研究 の 目的:

  • 異常に大きな負の線形圧縮性を示す新しい材料を調査し,特徴づけること.
  • 研究対象の材料における極端なNLCの原因となる構造的メカニズムを探求する.
  • 新しいNLC材料の安全性と費用対効果を,既存の選択肢と比較して評価する.

主な方法:

  • 高圧X線分光実験は,圧力下にある材料の構造的反応を分析するために行われました.
  • 材料の圧縮性は,そのNLC値を定量化するために正確に測定されました.
  • NLCのメカニズムを理解するために,結晶構造とフレームワークのダイナミクスを分析した.

主要な成果:

  • β-クォーツのようなInH(BDC) 2素材は,前例のない極限NLCを−62.4 TPa−1で示した.

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  • 観測されたNLCは,材料の構造内のフレームのヒンジングメカニズムに起因する.
  • InH(BDC) 2は,Au+/Ag+またはCN−を含むNLC材料のより安全でより経済的な代替品です.
  • 結論:

    • 柔軟なフレームワーク,特に負の熱膨張特性を持つフレームワークは,大規模なNLCの有望な候補です.
    • 硬直な線形リガンドと柔軟な角度を使用するβ-クォーツのようなフレームワークは,重要なNLCを生成すると予測されています.
    • InH(BDC) 2の発見は,調整可能な圧縮性を持つ高度な材料の設計と合成のための新しい道を開きます.