Giant Negative Area Compressibility Tunable in a Soft Porous Framework Material

Cai, Weizhao; Gładysiak, Andrzej; Anioła, Michalina; Smith, Vincent J.; Barbour, Leonard J.; Katrusiak, Andrzej

doi:10.1021/jacs.5b03280

Cited by 107 publications

(108 citation statements)

References 33 publications

(61 reference statements)

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“…A recent application of crystalline phase transition involves positive or negative thermal expansion based on an anisotropic change of the crystal shape caused by a change in temperature678. Most previous studies have been concerned with full phase transition, where the structure, electronic state and/or conformation of all of the molecules within the crystals vary under crystallographic control145891011. Reversible processes for the repeated performance of crystals require a combination of a double stimulus for the forward and backward phase transition, that is, photoirradiation, temperature change, irradiation at different wavelengths and the backward process is generally 1–2 orders of magnitude slower than the forward process1213141516.…”

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confidence: 99%

Rapid and reversible photoinduced switching of a rotaxane crystal

et al. 2016

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Crystalline phase transitions caused by external stimuli have been used to detect physical changes in the solid-state properties. This study presents the mechanical switching of crystals of ferrocene-containing rotaxane controlled by focused laser light. The expansion and contraction of the crystals can be driven by turning on and off laser light at 445 nm. The irradiation-induced expansion of the crystal involves elongation along the a, b and c axes at 30 °C, whereas heating of the crystal at 105 °C causes the shortening of c axis. The expansions reversibly occur and have the advantage of a rapid relaxation (reverse) process. Single-crystal X-ray crystallography reveals the detailed structural changes of the molecules, corresponding to a change in the size of the crystals on laser irradiation. This molecular crystal behaviour induced by laser irradiation, is demonstrated for the remote control of objects, namely, microparticle transport and microswitching in an electric circuit.

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confidence: 99%

Rapid and reversible photoinduced switching of a rotaxane crystal

et al. 2016

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“…10,11 NLC is a rare but highly attractive mechanical property and has a number of important applications in fields such as ultrasensitive pressure-sensing devices, artificial muscles and next-generation body armor. 1,9,12−14 What's more, lots of biological species in nature are thought to make use of NLC, like the contraction of elephant trunk, movement squid, and octopus.…”

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confidence: 99%

Negative Linear Compressibility in Organic Mineral Ammonium Oxalate Monohydrate with Hydrogen Bonding Wine-Rack Motifs

Qiao

Wang

Yuan

et al. 2015

J. Phys. Chem. Lett.

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Negative linear compressibility (NLC) is a relatively uncommon phenomenon and rarely studied in organic systems. Here we provide the direct evidence of the persistent NLC in organic mineral ammonium oxalate monohydrate under high pressure using synchrotron X-ray powder diffraction, Raman spectroscopy and density functional theory (DFT) calculation. Synchrotron X-ray powder diffraction measurement reveals that ammonium oxalate monohydrate shows both positive and negative linear compressibility along b-axis before 11.5 GPa. The red shift of the external Raman modes and abnormal changes of several selected internal modes in high-pressure Raman spectra further confirmed the NLC. DFT calculations demonstrate that the N-H···O hydrogen bonding "wine-rack" motifs result in the NLC along b-axis in ammonium oxalate monohydrate. We anticipate the high-pressure study of ammonium oxalate monohydrate may represent a promising strategy for accelerating the pace of exploitation and improvement of NLC materials especially in organic systems.

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“…[159] This effect can be considered to be origami behavior. [173] When heated, such materials are compressed in one direction with negative linear strain. [173] When heated, such materials are compressed in one direction with negative linear strain.…”

Section: Mechanical Metamaterialsmentioning

confidence: 99%

Metal–Organic Frameworks in Modern Physics: Highlights and Perspectives

et al. 2019

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Owing to the synergistic combination of a hybrid organic–inorganic nature and a chemically active porous structure, metal–organic frameworks have emerged as a new class of crystalline materials. The current trend in the chemical industry is to utilize such crystals as flexible hosting elements for applications as diverse as gas and energy storage, filtration, catalysis, and sensing. From the physical point of view, metal–organic frameworks are considered molecular crystals with hierarchical structures providing the structure‐related physical properties crucial for future applications of energy transfer, data processing and storage, high‐energy physics, and light manipulation. Here, the perspectives of metal–organic frameworks as a new family of functional materials in modern physics are discussed: from porous metals and superconductors, topological insulators, and classical and quantum memory elements, to optical superstructures, materials for particle physics, and even molecular scale mechanical metamaterials. Based on complementary properties of crystallinity, softness, organic–inorganic nature, and complex hierarchy, a description of how such artificial materials have extended their impact on applied physics to become the mainstream in material science is offered.

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Giant Negative Area Compressibility Tunable in a Soft Porous Framework Material

Cited by 107 publications

References 33 publications

Rapid and reversible photoinduced switching of a rotaxane crystal

Rapid and reversible photoinduced switching of a rotaxane crystal

Negative Linear Compressibility in Organic Mineral Ammonium Oxalate Monohydrate with Hydrogen Bonding Wine-Rack Motifs

Metal–Organic Frameworks in Modern Physics: Highlights and Perspectives

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