Journal ArticleDOI
From Molecules to Interactions to Crystal Engineering: Mechanical Properties of Organic Solids.
TLDR
This Account describes efforts at focusing down into mechanical properties of organic molecular crystals from the viewpoint of crystal engineering, which is the synthesis and design of functional molecular solids and presents examples where complex properties may be deliberately turned on or off in organic crystals.Abstract:
ConspectusMechanical properties of organic molecular crystals have been noted and studied over the years but the complexity of the subject and its relationship with diverse fields such as mechanochemistry, phase transformations, polymorphism, and chemical, mechanical, and materials engineering have slowed understanding. Any such understanding also needs conceptual advances—sophisticated instrumentation, computational modeling, and chemical insight—lack of such synergy has surely hindered progress in this important field. This Account describes our efforts at focusing down into this interesting subject from the viewpoint of crystal engineering, which is the synthesis and design of functional molecular solids. Mechanical properties of soft molecular crystals imply molecular movement within the solid; the type of property depends on the likelihood of such movement in relation to the applied stress, including the ability of molecules to restore themselves to their original positions when the stress is removed...read more
Citations
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Journal ArticleDOI
Exceptionally Elastic Single-Component Pharmaceutical Crystals
TL;DR: The first elastically bendable single-component pharmaceutical crystal, celecoxib, was reported in this paper, which exhibited both therapeutic effects and elastic mechanical behavior, and could be used to manufacture functional microdevices with novel medical applications.
Journal ArticleDOI
Manipulating Light‐Induced Dynamic Macro‐Movement and Static Photonic Properties within 1D Isostructural Hydrogen‐Bonded Molecular Cocrystals
TL;DR: This work provides an isostructural hydrogen-bonded co-crystal strategy to manipulate light-induced dynamic movement and static photonic properties within 1D crystalline microstructures, but also affords a deep understanding regarding the role of hydrogen bonding in the construction of microscopic optical-mechanical responses in molecular systems.
Journal ArticleDOI
Optical Waveguiding Organic Single Crystals Exhibiting Physical and Chemical Bending Features
TL;DR: An organic single crystal of ( Z )-4-(1-cyano-2-(4-(dimethylamino)phenyl)vinyl)benzonitrile) could bend under external stress or in the hydrochloric acid atmosphere, which indicates that multiple crystal bending modes might be achieved in the same single organic crystal by simultaneously optimizing the structure at both molecular and supramolecular levels.
Journal ArticleDOI
Twistable Pharmaceutical Crystal Exhibiting Exceptional Plasticity and Tabletability
TL;DR: The first pharmaceutical twistable hydrogen-bonded two-dimensional plastic hydrate crystal of a well-known psychoactive drug, caffeine (CAH) was reported in this paper.
Journal ArticleDOI
Self-Assembly-Driven Nanomechanics in Porous Covalent Organic Framework Thin Films
TL;DR: In this article, the macroscopic mechanical properties of a porous solid in the context of molecular-level structure were investigated and a correlation between such properties and its molecular structure was established.
References
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Journal ArticleDOI
Photodimerization in the solid state
TL;DR: In this article, a review of solid-state photochemistry can be found under four parallel headings: first, analysis of the topochemical postulate according to which the course of the solid state reaction and the stereochemistry of the photodimer (if any) can be predicted from the configuration and nearest-neighbour geometry of closest monomer molecules in the crystal lattice; secondly, the study of the lOCUS of the reaction, that is the dependence of the course or (dimerization, cis trans isomerization) on crystal texture (dislocation
Journal ArticleDOI
Isostructurality, Polymorphism and Mechanical Properties of Some Hexahalogenated Benzenes: The Nature of Halogen⋅⋅⋅Halogen Interactions
C. Malla Reddy,Michael T. Kirchner,Ravi C. Gundakaram,K. Anantha Padmanabhan,Gautam R. Desiraju +4 more
TL;DR: Both chemical and geometrical models need to be considered for X...X interactions in hexahalogenated benzenes, where nonspecificity of the weak interlayer interactions here is demonstrated by the structure of twinned crystals of these compounds.
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Mechanochemical preparation of co-crystals
TL;DR: The preparation of co-crystals via mechanochemistry combines the quest for clean and green processes with the investigation of multicomponent new materials, among the currently most fashionable systems in the crystal engineering field.
Journal ArticleDOI
Mechanochemistry: the varied applications of mechanical bond-breaking
TL;DR: In this paper, a wide range of practical applications of mechanochemistry are outlined with typical examples for ceramics, mechanical alloying, hydrogen storage, organic syntheses, waste remediation, leachings, surface plasmas, radical formation, explosives, nanotube formation, nanoparticles grafting, polymer technology, radical initiation, scratchless polishing, wear protection, lubrication, mechanochromism, nano-dissection, and many more.
Journal ArticleDOI
Elastic and bendable caffeine cocrystals: implications for the design of flexible organic materials.
Soumyajit Ghosh,C. Malla Reddy +1 more
TL;DR: A remarkably flexible, elastically bendable cocrystal solvate 1 is reported, formed from caffeine, 4-chloro-3-nitrobenzoic acid, and methanol in a 1:1:< 1 ratio (Figure 1).
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Elastic and bendable caffeine cocrystals: implications for the design of flexible organic materials.
Soumyajit Ghosh,C. Malla Reddy +1 more