Imperial College London

Alessio D. Lavino

Faculty of EngineeringDepartment of Chemical Engineering

Research Associate in Enhanced Multiscale Boiling Surfaces







315ARoderic Hill BuildingSouth 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.



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, 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

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

More Publications