Journal ArticleDOI
Real-time and in situ monitoring of mechanochemical milling reactions
Tomislav Friščić,Tomislav Friščić,Ivan Halasz,Ivan Halasz,Patrick J. Beldon,Ana M. Belenguer,Frank Adams,Simon A. J. Kimber,Veijo Honkimäki,Robert E. Dinnebier +9 more
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TLDR
The real-time study of mechanochemical transformations in a ball mill by means of in situ diffraction of high-energy synchrotron X-rays reveals that mechanochemistry is highly dynamic, with reaction rates comparable to or greater than those in solution.Abstract:
Chemical and structural transformations have long been carried out by milling. Such mechanochemical steps are now ubiquitous in a number of industries (such as the pharmaceutical, chemical and metallurgical industries), and are emerging as excellent environmentally friendly alternatives to solution-based syntheses. However, mechanochemical transformations are typically difficult to monitor in real time, which leaves a large gap in the mechanistic understanding required for their development. We now report the real-time study of mechanochemical transformations in a ball mill by means of in situ diffraction of high-energy synchrotron X-rays. Focusing on the mechanosynthesis of metal-organic frameworks, we have directly monitored reaction profiles, the formation of intermediates, and interconversions of framework topologies. Our results reveal that mechanochemistry is highly dynamic, with reaction rates comparable to or greater than those in solution. The technique also enabled us to probe directly how catalytic additives recently introduced in the mechanosynthesis of metal-organic frameworks, such as organic liquids or ionic species, change the reactivity pathways and kinetics.read more
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Hallmarks of mechanochemistry: From nanoparticles to technology
Peter Baláž,Marcela Achimovičová,Matej Baláž,P. Billik,P. Billik,Zara Cherkezova-Zheleva,José M. Criado,Francesco Delogu,Erika Dutková,Eric Gaffet,Francisco J. Gotor,Rakesh Kumar,Ivan Mitov,Tadej Rojac,Mamoru Senna,A. N. Streletskii,A. N. Streletskii,Krystyna Wieczorek-Ciurowa +17 more
TL;DR: The aim of this review article is to provide a comprehensive overview of advances achieved in the field of atomistic processes, phase transformations, simple and multicomponent nanosystems and peculiarities of mechanochemistry.
Journal ArticleDOI
Mechanochemistry: A Force of Synthesis
Jean-Louis Do,Tomislav Friščić +1 more
TL;DR: A brief overview of the recent achievements and opportunities created by mechanochemistry, including access to materials, molecular targets, and synthetic strategies that are hard or even impossible to access by conventional means are provided.
Journal ArticleDOI
Mechanochemical synthesis of chemically stable isoreticular covalent organic frameworks.
TL;DR: Three thermally and chemically stable isoreticular covalent organic frameworks synthesized via room-temperature solvent-free mechanochemical grinding seemed to have a graphene-like layered morphology (exfoliated layers), unlike the parent COFs synthesized solvothermally.
Journal ArticleDOI
Zeolitic imidazolate framework materials: recent progress in synthesis and applications
TL;DR: In this paper, the development and recent progress towards different synthesis strategies to generate both powder and membrane/film-based ZIF materials are analysed and summarised Their attractive and potential applications in gas separation, catalysis, sensing and electronic devices, and drug delivery in the past years are discussed and reviewed.
Journal ArticleDOI
Chemically Stable Multilayered Covalent Organic Nanosheets from Covalent Organic Frameworks via Mechanical Delamination
Suman Chandra,Sharath Kandambeth,Bishnu P. Biswal,Binit Lukose,Shrikant M. Kunjir,Minakshi Chaudhary,Ravichandar Babarao,Thomas Heine,Rahul Banerjee +8 more
TL;DR: The synthesized COFs were successfully delaminated using a simple, safe, and environmentally friendly mechanical grinding route to transform into covalent organic nanosheets (CONs) and were well characterized via transmission electron microscopy and atomic force microscopy.
References
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TL;DR: In this paper, a structure refinement method was described which does not use integrated neutron powder intensities, single or overlapping, but employs directly the profile intensities obtained from step-scanning measurements of the powder diagram.
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Exceptional chemical and thermal stability of zeolitic imidazolate frameworks
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Mechanochemistry: opportunities for new and cleaner synthesis
Stuart L. James,Christopher J. Adams,Carsten Bolm,Dario Braga,Paul Collier,Tomislav Friščić,Fabrizia Grepioni,Kenneth D. M. Harris,Geoff Hyett,William Jones,Anke Krebs,James Mack,Lucia Maini,A. Guy Orpen,Ivan P. Parkin,William C. Shearouse,Jonathan W. Steed,Daniel C. Waddell +17 more
TL;DR: Concentrating on recent advances, this article covers industrial aspects, inorganic materials, organic synthesis, cocrystallisation, pharmaceutical aspects, metal complexes, supramolecular aspects and characterization methods.
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Unit-cell refinement from powder diffraction scans
TL;DR: In this paper, a procedure for the refinement of the crystal unit cell from a powder diffraction scan is presented, and at the end of the refinement a list of indexed intensities is produced.