Alain Goriely

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Alain Goriely
Born (1967-12-19) 19 December 1967 (age 53)
Watermael-Boitsfort, Belgium
NationalityBelgian
OccupationMathematician
Spouse(s)Nita Goriely
ChildrenZakai, Zebulon, Zephyr
Academic background
Alma materUniversité libre de Bruxelles, Ecole Polytechnique (1989 – 94)
ThesisIntegrability and Nonintegrability of Dynamical Systems: A Singularity Analysis Approach.
Doctoral advisorRadu Bălescu
Academic work
DisciplineMathematics
Sub-disciplineMechanics

Mathematical aspects of nonlinear elasticity and rod mechanics. Development of analytical and numerical techniques for the statics and dynamics of elastic materials. Applications to engineering structures, soft tissues and the modeling of biological growth.

Biomathematics Protein structure and design, analysis of cDNA microarrays, tumorgrowth.

Mathematical methods

Dynamical systems, integrability theory, pattern formation,localized structures, perturbation methods.
Institutions
  • Mathematical Institute, University of Oxford. Statutory Chair of Mathematical Modelling.
  • Isaac Newton Institute Cambridge. Distinguished Rothschild Visiting Fellow
  • Ecole Normale Supérieure, Laboratoire de Physique Statistique, Paris (France). Visiting Professor
  • Stanford University, Timoshenko professorial fellowship
  • Institut de mécanique, Université Pierre et Marie Curie, Paris (France). Visiting Professor
Websitewww.goriely.com

Alain Goriely (born 19 November 1969)[clarification needed] is professor and statutory chair of mathematical modelling at the University of Oxford, Mathematical Institute. He is director of the Oxford Centre for Industrial Mathematics (OCIAM), and the International Brain and Mechanics Lab (IBMTL). At the Mathematical Institute he is also director of external relations and public engagement initiating the Oxford Mathematics series of public lectures.

Goriely works in the field of applied mathematics concerned with a broad range of problems including the mechanics of biological growth; the modelling of the brain, the theoretical foundations of mechanics; the dynamics of curves, knots, and rods; the modelling of cancer; the development of new photovoltaic devices; the modelling of lithium-ion batteries and, more generally the study and development of mathematical methods for applied sciences.

Publications[]

His most cited papers are:

  • Eperon GE, Burlakov VM, Docampo P, Goriely A, Snaith HJ. Morphological control for high performance, solution‐processed planar heterojunction perovskite solar cells. Advanced Functional Materials. 2014 Jan;24(1):151-7. According to Google Scholar, it has been cited 1922 times.[1]
  • Saidaminov MI, Abdelhady AL, Murali B, Alarousu E, Burlakov VM, Peng W, Dursun I, Wang L, He Y, Maculan G, Goriely A. High-quality bulk hybrid perovskite single crystals within minutes by inverse temperature crystallization. Nature Communications. 2015 Jul 6;6(1):1-6. According to Google Scholar, this article has been cited 1159 times [1]
  • Noel NK, Abate A, Stranks SD, Parrott ES, Burlakov VM, Goriely A, Snaith HJ. Enhanced photoluminescence and solar cell performance via Lewis base passivation of organic–inorganic lead halide perovskites. ACS Nano. 2014 Oct 28;8(10):9815-21. According to Google Scholar, this article has been cited 1131 times [1]
  • Stranks SD, Burlakov VM, Leijtens T, Ball JM, Goriely A, Snaith HJ. Recombination kinetics in organic-inorganic perovskites: excitons, free charge, and subgap states. Physical Review Applied. 2014 Sep 11;2(3):034007. According to Google Scholar, this article has been cited 950 times [1]
  • Amar MB, Goriely A. Growth and instability in elastic tissues. . 2005 Oct 1;53(10):2284-319. According to Google Scholar, this article has been cited 353 times [1]
  • Goriely A, Geers MG, Holzapfel GA, Jayamohan J, Jérusalem A, Sivaloganathan S, Squier W, van Dommelen JA, Waters S, Kuhl E. Mechanics of the brain: perspectives, challenges, and opportunities. Biomechanics and Modeling in Mechanobiology. 2015 Oct;14(5):931-65. According to Google Scholar, this article has been cited 271 times [1]
  • Cangelosi R, Goriely A. Component retention in principal component analysis with application to cDNA microarray data. Biology Direct. 2007 Dec;2(1):1-21. According to Google Scholar, this article has been cited 255 times [1]

He is also the author of the books

  • Goriely A. The mathematics and mechanics of biological growth. Springer; 2017
  • Goriely A. Integrability and nonintegrability of dynamical systems. World Scientific; 2001.

References[]

  1. ^ Jump up to: a b c d e f g [1] Google Scholar Author page, Accessed June 28, 2021
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