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Literature DB >> 24711262

Pressure-induced bond rearrangement and reversible phase transformation in a metal-organic framework.

Elinor C Spencer¹, Mangalampalli S R N Kiran, Wei Li, Upadrasta Ramamurty, Nancy L Ross, Anthony K Cheetham.

Abstract

Pressure-induced phase transformations (PIPTs) occur in a wide range of materials. In general, the bonding characteristics, before and after the PIPT, remain invariant in most materials, and the bond rearrangement is usually irreversible due to the strain induced under pressure. A reversible PIPT associated with a substantial bond rearrangement has been found in a metal-organic framework material, namely [tmenH2][Er(HCOO)4]2 (tmenH2(2+)=N,N,N',N'-tetramethylethylenediammonium). The transition is first-order and is accompanied by a unit cell volume change of about 10%. High-pressure single-crystal X-ray diffraction studies reveal the complex bond rearrangement through the transition. The reversible nature of the transition is confirmed by means of independent nanoindentation measurements on single crystals.

Entities: Chemical

Keywords: bond rearrangement; high-pressure X-ray diffraction; metal-organic frameworks; nanoindentation; pressure-induced phase transformations

Year: 2014 PMID： 24711262 DOI： 10.1002/anie.201310276

Source DB: PubMed Journal: Angew Chem Int Ed Engl ISSN： 1433-7851 Impact factor: 15.336

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Cited

4 in total

1. A Temperature-Responsive Smart Europium Metal-Organic Framework Switch for Reversible Capture and Release of Intrinsic Eu³⁺ Ions.

Authors: Min Zhu; Xue-Zhi Song; Shu-Yan Song; Shu-Na Zhao; Xing Meng; Lan-Lan Wu; Cheng Wang; Hong-Jie Zhang
Journal: Adv Sci (Weinh) Date: 2015-03-10 Impact factor: 16.806

Pressure-induced bond rearrangement and reversible phase transformation in a metal-organic framework.

1. A Temperature-Responsive Smart Europium Metal-Organic Framework Switch for Reversible Capture and Release of Intrinsic Eu³⁺ Ions.

2. A Variety of Phase-Transition Behaviors in a Niccolite Series of [NH3 (CH2 )4 NH3 ][M(HCOO)3 ]2.

3. Mechano-regulated metal-organic framework nanofilm for ultrasensitive and anti-jamming strain sensing.

4. H3O(+) tetrahedron induction in large negative linear compressibility.

Pressure-induced bond rearrangement and reversible phase transformation in a metal-organic framework.

1. A Temperature-Responsive Smart Europium Metal-Organic Framework Switch for Reversible Capture and Release of Intrinsic Eu3+ Ions.

2. A Variety of Phase-Transition Behaviors in a Niccolite Series of [NH3 (CH2 )4 NH3 ][M(HCOO)3 ]2.

3. Mechano-regulated metal-organic framework nanofilm for ultrasensitive and anti-jamming strain sensing.

4. H3O(+) tetrahedron induction in large negative linear compressibility.

1. A Temperature-Responsive Smart Europium Metal-Organic Framework Switch for Reversible Capture and Release of Intrinsic Eu³⁺ Ions.