Research output per year
Research output per year
Personal profile
Research interests
Methods Development: multi-scale techniques for atomistic modelling, information-efficient force-learning ("Learn On The Fly" - LOTF) algorithms for molecular dynamics simulations on massively parallel computers. Ab initio and classical atomistic techniques, coarse graining techniques and Monte Carlo techniques to model the self-assembly of supramolecular nanostructures.
Systems/Problems Investigated: Materials Chemomechanics phenomena e.g., brittle fracture in covalent crystals and ionic materials, crack propagation instabilities and interaction with dislocations and impurities; fracture in rocks, stress corrosion phenomena, defect and fracture at oxide interfaces; dislocation motion in advanced metal superalloys, hydrogen embrittlement of steels. Electronic structure and charge-transfer behaviour in metal-organic interfaces, supramolecular selfassembly on metal surfaces, electronic structure and chemical processes in adsorbed molecules. Structure and dynamics of DNA films for nanomedicine diagniostic sensors. Fuels, lubricants and additives of industrial interest.
Research interests (short)
Development and application of multi-scale "learning" techniques for molecular dynamics on massively parallel computers.
Materials chemomechanics, brittle fracture, stress corrosion and supramolecular self-assembly.
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- 1 Similar Profiles
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Gaussian Process States: A data-driven representation of quantum many-body physics
Booth, G., Glielmo, A., Rath, Y., Csanyi, G. & De Vita, A., Dec 2020, In: Physical Review X. 10, 4, p. 041026-1-041026-16 041026.Research output: Contribution to journal › Article › peer-review
Open AccessFile16 Citations (Scopus)157 Downloads (Pure) -
Bifunctional Behavior of a Porphyrin in Hydrogen-Bonded Donor–Acceptor Molecular Chains on a Gold Surface
Feng, Z., Velari, S., Dri, C., Goldoni, A., Patera, L. L., Regeni, I., Forzato, C., Berti, F., Peressi, M., De Vita, A. & Comelli, G., 28 Mar 2019, In: Journal Of Physical Chemistry C. 123, 12, p. 7088-7096 9 p.Research output: Contribution to journal › Article › peer-review
4 Citations (Scopus) -
Enabling QM-accurate simulation of dislocation motion in γ−Ni and α−Fe using a hybrid multiscale approach
Bianchini, F., Glielmo, A., Kermode, J. R. & De Vita, A., 16 Apr 2019, In: Physical Review Materials. 3, 4, 043605.Research output: Contribution to journal › Article › peer-review
Open Access12 Citations (Scopus) -
Building machine learning force fields for nanoclusters
Zeni, C., Rossi, K., Glielmo, A., Fekete, A., Gaston, N., Baletto, F. C. M. & De Vita, A., 11 Jun 2018, (E-pub ahead of print) In: Journal of Chemical Physics. 148, 24, 9 p., 241739.Research output: Contribution to journal › Article › peer-review
Open AccessFile41 Citations (Scopus)348 Downloads (Pure) -
Efficient nonparametric n-body force fields from machine learning
Glielmo, A., Zeni, C. & De Vita, A., May 2018, In: Physical Review B. 97, 184307, p. 184307-1-184307-12Research output: Contribution to journal › Article › peer-review
Open AccessFile114 Citations (Scopus)164 Downloads (Pure)
Projects
- 10 Finished
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The Novel Materials Discovery Laboratory (NoMaD)
De Vita, A. (Primary Investigator)
1/09/2015 → 31/10/2018
Project: Research
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Hydrogen in metals - from fundamentals to the design of new steels (HEmS)
Paxton, A. (Primary Investigator) & De Vita, A. (Co-Investigator)
EPSRC Engineering and Physical Sciences Research Council
1/10/2013 → 8/12/2019
Project: Research
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The mechanical properties of Ni-based syperalloys: an atomic scale investigation
De Vita, A. (Primary Investigator)
European Office of Aerospace Research & Development, AFOSR
1/05/2012 → 30/09/2016
Project: Research