John Andrew Hayton

Research Interests

Nucleation phenomena and the subsequent growth behaviour remain s challenging topic due to the necessary study of many particles over computationally long timescales. I attempt to probe such systems with computational events and rare event sampling techniques. My work provides a bridge between the microscopic world of simulation with macroscopic measurables such as nucleation temperatures and crystal morphology.

Publications

The limit of macroscopic homogeneous ice nucleation at the nanoscale

JA Hayton, MB Davies, TF Whale, A Michaelides, SJ Cox

Faraday Discuss

(2024)

249

210

(doi: 10.1039/d3fd00099k)

Ice interfaces: general discussion.

XR Advincula, EHG Backus, T Bartels-Rausch, S Benaglia, G Ben Ari, KE Blow, M Bonn, AT Bui, SJ Cox, F Della Pia, U Diebold, AR Finney, G Franceschi, L Fumagalli, G Goel, JA Hayton, C Holdship, Y Jiang, D Jin, V Kapil, N Kavokine, K Koga, D Laage, M Lahav, S Miao, A Michaelides, N Mohandas, K Morgenstern, T Mukherjee, Y Nagata, M Olvera de la Cruz, D Pan, PM Piaggi, SLB Rempe, P Ryan, CG Salzmann, T Sayer, RJ Saykally, M Shepelenko, GC Sosso, TF Whale, JJ White, AP Willard, P Zhang

Faraday Discuss

(2024)

249

133

(doi: 10.1039/d3fd90063k)

Dynamics and nano-rheology of interfacial water: general discussion.

XR Advincula, KE Blow, M Bonn, AT Bui, Y Cheng, SJ Cox, F Della Pia, U Diebold, L Fumagalli, G Goel, JA Hayton, Y Jiang, V Kapil, N Kavokine, K Koga, D Laage, M Lahav, S Miao, A Michaelides, P Montero de Hijes, K Morgenstern, T Mukherjee, N O'Neill, D Pan, PM Piaggi, SLB Rempe, M Salvalaglio, CG Salzmann, T Sayer, M Shepelenko, GC Sosso, S Wang, B Webber, AP Willard, Y Yao

Faraday Discussions

(2024)

249

243

(doi: 10.1039/d3fd90064a)

The limit of macroscopic homogeneous ice nucleation at the nanoscale

JA Hayton, MB Davies, TF Whale, A Michaelides, SJ Cox

(2023)

John Andrew Hayton

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Study at Cambridge

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Research at Cambridge