Mechanochemistry: Fundamentals, applications and future

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Sustainable polymer chemistry of high-performance materials by mechanochemistry Niamh Curran Queen’s University Belfast, UK From molecules in solution to molecules on surfaces – using supramolecular dyads to form functional self-assembled networks on graphene David Kreher CNRS, France Exploring neat grinding and liquid-assisted-grinding to obtain different polymorphs of curcumin and its Schiff base curcumin derivatives Aniele De Moura UNESP-São Paulo State University, Brazil Mechanochemistry: a green and efficient tool to obtain curcumin derivaties with a functionalized ω-poly(ethylene glycol) Aniele De Moura UNESP-São Paulo State University, Brazil Mechanochemical self-assembly of cavity-containing anionic salicylic acid-based metallostructures Jean-Louis Do Concordia University, McGill University, Canada Solid-state synthesis of BINOLs by copper-based catalysis Farshid Effaty Concordia University, McGill University, Canada

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Substituent effects on tribochemical processes James Ewen Imperial College London, UK

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Direct insights into the liquid assisted grinding environment from molecular dynamics simulations Michael Ferguson McGill University, Canada Co-crystals of antibiotics with natural antimicrobials: product diversity resulting from different synthetic approaches Cecilia Fiore University of Bologna, Italy

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