Imperial College London

Alessio D. Lavino

Faculty of EngineeringDepartment of Chemical Engineering

Research Associate in Enhanced Multiscale Boiling Surfaces







ACE ExtensionSouth Kensington Campus





Enhanced Multiscale Boiling Surfaces (EMBOSS) project is a £1.7m programme in collaboration with the University of Brunel and the University of Edinburgh. EMBOSS aims at combining experimental and computational techniques, in a multiscale framework, from molecular to millimetres, improving the rational design, fabrication, and optimisation of operational prototypes of pool-boiling thermal management systems.



Lavino AD, Ferrari M, Barresi AA, et al., 2021, Effect of different good solvents in flash nano-precipitation via multi-scale population balance modeling-CFD coupling approach, Chemical Engineering Science, Vol:245, ISSN:0009-2509

Razza N, Lavino AD, Fadda G, et al., 2021, Nanoprobes to investigate nonspecific interactions in lipid bilayers: from defect-mediated adhesion to membrane disruption, Nanoscale Advances, Vol:3, ISSN:2516-0230, Pages:4979-4989

Lavino AD, Smith E, Magnini M, et al., 2021, Surface topography effects on pool boiling via non-equilibrium molecular dynamics simulations., Langmuir: the Acs Journal of Surfaces and Colloids, Vol:37, ISSN:0743-7463, Pages:5731-5744

Lavino AD, Carbone P, Marchisio D, 2020, MARTINI coarse‐grained model for poly‐ε‐caprolactone in acetone‐water mixtures, The Canadian Journal of Chemical Engineering, ISSN:0008-4034

Lavino AD, Banetta L, Carbone P, et al., 2018, Extended Charge-On-Particle Optimized Potentials for Liquid Simulation Acetone Model: The Case of Acetone-Water Mixtures, Journal of Physical Chemistry B, Vol:122, ISSN:1520-6106, Pages:5234-5241

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