Serafim Kalliadasis Explained

Serafim Kalliadasis
Honorific Suffix:FIMA FInstP APSFellow FIChemE
Education:Aristotle University of Thessaloniki (Dipl.Ing.)
University of Notre Dame, USA (DPhil)
Known For:Mathematical modelling of falling liquid films
Fields:Interdisciplinary Applied Mathematics, Engineering Science, Complex Multiscale Systems, classical Density Functional Theory
Thesis Title:Self-similar interfacial and wetting dynamics
Thesis Year:1994
Doctoral Advisor:Prof. H.-C. Chang
Website:Personal website
Complex Multiscale Systems
Workplaces:Imperial College London

Serafim Kalliadasis is an applied mathematician and chemical engineer working at Imperial College London since 2004.[1]

Career

Serafim Kalliadasis earned a five-year undergraduate degree in chemical engineering at the Polytechnic School of the Aristotle University of Thessaloniki, Greece. He graduated in 1989. In 1990 he started his PhD studies at the University of Notre Dame, USA. His doctoral thesis was in the general of fluid dynamics and was supervised by Prof. H.-C. Chang.

Following his PhD in 1994 he moved on to the University of Bristol, UK, as post-doctoral fellow in applied mathematics.

In 1995 he took up his first academic position at the Chemical Engineering Department of the University of Leeds, UK. In 2004 he was appointed to Readership in Fluid Mechanics at Department of Chemical Engineering, Imperial College, UK, in 2004 and was promoted to Professor in Engineering Science & Applied Mathematics at Imperial College in 2010.

Research

Serafim Kalliadasis' expertise is in the interface between Applied and Computational Mathematics, Complex Systems and Engineering, covering both fundamentals and applications. He leads the Complex Multiscale Systems Group of Imperial College London.[2]

Distinctions

Selected publications

  1. Carrillo, J.A., Kalliadasis, S., Perez, S.P. & Shu, C.-W. 2020 “Well-balanced finite-volume schemes for hydrodynamic equations with general free energy,” SIAM Multiscale Model. Sim. 18 502–541[5]
  2. Gomes, S.N., Kalliadasis, S., Pavliotis, G.A. & Yatsyshin, P. 2019 “Dynamics of the Desai-Zwanzig model in multiwell and random energy landscapes,” Phys. Rev. E 99 Art. No. 032109 (13 pp)[6]
  3. Schmuck, M., Pavliotis, G.A. & Kalliadasis, S. 2019 “Recent advances in the evolution of interfaces: thermodynamics, upscaling, and universality,” Comp. Mater. Sci. 156 441–451 (Special issue following Euromat2017 conference)
  4. Yatsyshin, P., Parry, A.O., Rascón, C. & Kalliadasis, S. 2018 ``Wetting of a plane with a narrow solvophobic stripe,” Mol. Phys. 116 1990–1997 (Special issue following Thermodynamics 2017 conference)[7]
  5. Yatsyshin, P., Durán-Olivencia, M.A. & Kalliadasis, S. 2018 “Microscopic aspects of wetting using classical density functional theory,” J. Phys.-Condens. Matt. 30 Art. No. 274003 (9 pp) (Invited paper—special issue on “Physics of Integrated Microfluidics”)[8]
  6. Dallaston, M.C., Fontelos, M.A., Tseluiko, D. & Kalliadasis S. 2018 “Discrete self-similarity in interfacial hydrodynamics and the formation of iterated structures,” Phys. Rev. Lett. 120} Art. No. 034505 (5 pp)[9]
  7. Braga, C., Smith, E.R., Nold, A., Sibley, D.N. & Kalliadasis, S. 2018 “The pressure tensor across a liquid-vapour interface,” J. Chem. Phys. 149 Art. No. 044705 (8 pp)[10]
  8. Schmuck, M. & Kalliadasis, S. 2017 “Rate of convergence of general phase field equations in strongly heterogeneous media towards their homogenized limit,” SIAM J. Appl. Math. 77 1471–1492[11]
  9. Nold, A., Goddard, B.D., Yatsyshin, P., Savva, N. & Kalliadasis, S. 2017 “Pseudospectral methods for density functional theory in bounded and unbounded domains,” J. Comp. Phys. 334 639–664[12]
  10. Durán-Olivencia, M.A., Yatsyshin, P., Goddard, B.D. & Kalliadasis, S. 2017 “General framework for fluctuating dynamic density functional theory,” New J. Phys. 19 Art. No. 123022 (16 pp)[13]

Notes and References

  1. Web site: Home – Professor Serafim Kalliadasis. www.imperial.ac.uk.
  2. https://www.imperial.ac.uk/complex-multiscale-systems/ Complex Multiscale Systems
  3. https://www.imperial.ac.uk/news/162722/illustrious-fellowship-chemical-engineering-professor Illustrious Fellowship for Chemical Engineering Professor
  4. Web site: ERC 10th AnniversaryEvent.
  5. Well-Balanced Finite-Volume Schemes for Hydrodynamic Equations with General Free Energy. José A.. Carrillo. Serafim. Kalliadasis. Sergio P.. Perez. Chi-Wang. Shu. January 1, 2020. Multiscale Modeling & Simulation. 18. 1. 502–541. 10.1137/18M1230050. 1812.00980. 89613823 .
  6. Dynamics of the Desai-Zwanzig model in multiwell and random energy landscapes. Susana N.. Gomes. Serafim. Kalliadasis. Grigorios A.. Pavliotis. Petr. Yatsyshin. March 6, 2019. Physical Review E. 99. 3. 032109. 10.1103/PhysRevE.99.032109. 30999473. 1810.06371. 2019PhRvE..99c2109G. 53398077 .
  7. Wetting of a plane with a narrow solvophobic stripe. P.. Yatsyshin. A. O.. Parry. C.. Rascón. S.. Kalliadasis. August 18, 2018. Molecular Physics. 116. 15–16. 1990–1997. 10.1080/00268976.2018.1473648. 2018MolPh.116.1990Y. 10016/29071. 102537449 . free.
  8. https://iopscience.iop.org/article/10.1088/1361-648X/aac6fa Yatsyshin, P., Durán-Olivencia, M.A. & Kalliadasis, S. 2018 “Microscopic aspects of wetting using classical density functional theory,” J. Phys.-Condens. Matt. 30 Art. No. 274003 (9 pp) (Invited paper—special issue on “Physics of Intergated Microfluidics”)
  9. Discrete Self-Similarity in Interfacial Hydrodynamics and the Formation of Iterated Structures. Michael C.. Dallaston. Marco A.. Fontelos. Dmitri. Tseluiko. Serafim. Kalliadasis. January 19, 2018. Physical Review Letters. 120. 3. 034505. 10.1103/PhysRevLett.120.034505. 29400525. 2018PhRvL.120c4505D. free. 1609.05938.
  10. The pressure tensor across a liquid-vapour interface. Carlos. Braga. Edward R.. Smith. Andreas. Nold. David N.. Sibley. Serafim. Kalliadasis. July 28, 2018. The Journal of Chemical Physics. 149. 4. 044705. 10.1063/1.5020991. 30068201. 1711.05986. 2018JChPh.149d4705B. 51892025 .
  11. Rate of Convergence of General Phase Field Equations in Strongly Heterogeneous Media Toward Their Homogenized Limit. M.. Schmuck. S.. Kalliadasis. January 1, 2017. SIAM Journal on Applied Mathematics. 77. 4. 1471–1492. 10.1137/16M1079646. 10044/1/53735. 1290321 . free.
  12. Pseudospectral methods for density functional theory in bounded and unbounded domains. Andreas. Nold. Benjamin D.. Goddard. Peter. Yatsyshin. Nikos. Savva. Serafim. Kalliadasis. April 1, 2017. Journal of Computational Physics. 334. 639–664. ScienceDirect. 10.1016/j.jcp.2016.12.023. 1701.06182. 2017JCoPh.334..639N. 2175860 .
  13. 10.1088/1367-2630/aa9041. free. General framework for fluctuating dynamic density functional theory . 2017 . Durán-Olivencia . Miguel A. . Yatsyshin . Peter . Goddard . Benjamin D. . Kalliadasis . Serafim . New Journal of Physics . 19 . 12 . 123022 . 2017NJPh...19l3022D . 10044/1/51664 . free .