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Yusuf Hamied Department of Chemistry

 

Dr Venkat Kapil

Oppenheimer Research Fellow

I am a theoretical chemist and computational material scientist with expertise in predicting the first-principles-level behaviour of complex bulk and nanoconfined systems. I develop accurate and efficient approaches integrating classical and path-integral statistical methods, machine learning potential, and correlated electronic structure. Traditionally, these approaches require high computational effort or are computationally prohibitive for many systems. My work, therefore, develops predictive yet computationally affordable techniques for crystal structure predictionquantum vibrational spectra, and phase-diagram calculation. I am currently applying these techniques to compute phase diagrams of nanoconfined water in close collaboration with  Angelos Michaelides's group. I am also a developer of the scientific i-PI code that combines forcefield and first-principles software, path-integral simulations, enhanced sampling and other generic algorithms that govern nuclear motion. 

 

Please check out my website for more details on my research.

Publications

Accurate Description of Nuclear Quantum Effects with High-Order Perturbed Path Integrals (HOPPI)
I Poltavsky, V Kapil, M Ceriotti, KS Kim, A Tkatchenko
– Journal of chemical theory and computation
(2020)
16,
1128
(doi: 10.1021/acs.jctc.9b00881)
Barely porous organic cages for hydrogen isotope separation.
M Liu, L Zhang, MA Little, V Kapil, M Ceriotti, S Yang, L Ding, DL Holden, R Balderas-Xicohténcatl, D He, R Clowes, SY Chong, G Schütz, L Chen, M Hirscher, AI Cooper
– Science
(2019)
366,
613
(doi: 10.1126/science.aax7427)
Thermal Engineering of Metal–Organic Frameworks for Adsorption Applications: A Molecular Simulation Perspective
J Wieme, S Vandenbrande, A Lamaire, V Kapil, L Vanduyfhuys, V Van Speybroeck
– ACS Applied Materials and Interfaces
(2019)
11,
38697
(doi: 10.1021/acsami.9b12533)
Assessment of Approximate Methods for Anharmonic Free Energies
V Kapil, E Engel, M Rossi, M Ceriotti
– Journal of chemical theory and computation
(2019)
15,
5845
(doi: 10.1021/acs.jctc.9b00596)
Modeling the Structural and Thermal Properties of Loaded Metal-Organic Frameworks. An Interplay of Quantum and Anharmonic Fluctuations.
V Kapil, J Wieme, S Vandenbrande, A Lamaire, V Van Speybroeck, M Ceriotti
– J Chem Theory Comput
(2019)
15,
3237
(doi: 10.1021/acs.jctc.8b01297)
i-PI 2.0: A universal force engine for advanced molecular simulations
V Kapil, M Rossi, O Marsalek, R Petraglia, Y Litman, T Spura, B Cheng, A Cuzzocrea, RH Meißner, DM Wilkins, BA Helfrecht, P Juda, SP Bienvenue, W Fang, J Kessler, I Poltavsky, S Vandenbrande, J Wieme, C Corminboeuf, TD Kühne, DE Manolopoulos, TE Markland, JO Richardson, A Tkatchenko, GA Tribello, V Van Speybroeck, M Ceriotti
– Computer Physics Communications
(2019)
236,
214
(doi: 10.1016/j.cpc.2018.09.020)
Fine tuning classical and quantum molecular dynamics using a generalized Langevin equation.
M Rossi, V Kapil, M Ceriotti
– The Journal of Chemical Physics
(2017)
148,
102301
(doi: 10.1063/1.4990536)
High order path integrals made easy
V Kapil, J Behler, M Ceriotti
– Journal of Chemical Physics
(2016)
145,
234103
(doi: 10.1063/1.4971438)
Sampling free energy surfaces as slices by combining umbrella sampling and metadynamics.
S Awasthi, V Kapil, NN Nair
– J Comput Chem
(2016)
37,
1413
(doi: 10.1002/jcc.24349)
Accurate molecular dynamics and nuclear quantum effects at low cost by multiple steps in real and imaginary time: Using density functional theory to accelerate wavefunction methods
V Kapil, J VandeVondele, M Ceriotti
– J Chem Phys
(2016)
144,
054111
(doi: 10.1063/1.4941091)
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Research Group

Telephone number

01223 763067

Email address

vk380@cam.ac.uk

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