Professor Annette Taylor

BSc, PhD, MRSC, FHEA

School of Chemical, Materials and Biological Engineering

Professor

Director of Student Experience

Athena Swan Champion

Chair of Opportunities Committee

a.f.taylor@sheffield.ac.uk
+44 114 222 9607

Room C31, Pam Liversidge Building

Full contact details

Professor Annette Taylor
School of Chemical, Materials and Biological Engineering
Room C31
Pam Liversidge Building
Mappin Street
Sheffield
S1 3JD

Profile

I obtained a BSc and PhD from Physical Chemistry at the University of Leeds and was later RCUK Fellow, then Senior Lecturer, before taking a position in Chemical and Biological Engineering at the University of Sheffield in 2014. During my time at Leeds I also held Visiting Researcher positions with collaborators in the USA. My research involves combining chemical kinetics and mass transport with applications in materials science and biological processes.

I have over 50 publications, including in Science and PRL, and have written News and Views articles for Nature and Nature Chemistry. I have obtained research funding from the EPSRC, EU FP7 and Innovate UK as well as funding for teaching and outreach related projects from HESTEM and the RSC. I'm a member of the management committee of the COST action on Emergence and Evolution in Complex Chemical Systems and a Member of the Editorial Advisory Board for Chaos: An Interdisciplinary Journal of Nonlinear Science (American Institute of Physics). In 2016, I was elected Chair of the Gordon Research Conference (GRC) on Oscillations and Dynamic Instabilities in Chemical Systems. I'm also a member of the EPSRC peer review college and an international grant reviewer for many organisations, including the ERC.

I'm the Athena SWAN Champion and Chair of the Opportunities Committee on matters related to Equality and Diversity in CBE at Sheffield. I recently led a successful departmental application for a Silver Athena SWAN Award.

Research interests

My research involves reaction engineering: the design and optimisation of chemical/biochemical systems through consideration of catalytic reaction networks coupled with mass transport. The research combines experiments with kinetic modelling and has a wide range of applications such bio-reactors for fuel or food, materials formation or degradation, drug delivery and sensing.

I'm particularly interested in aqueous phase catalysis and control of dynamics in cellular biological or bioinspired chemical systems. Taking inspiration from nature or the use of natural components allows us to design functional materials and processes that are greener or more sustainable, but also harness the unique properties arising from feedback in natural systems including collective behaviour (e.g. quorum sensing in bacteria) and self-organisation.

Some current projects include:

New methods for the bio-catalytic control of gelation for natural adhesives and repair with Prof Pojman (Louisianna State University)
Enzyme loaded colloids or vesicles for biotechnology and healthcare applications with Dr Rossi (Salerno) and Dr Beales (Leeds)
Self-organisation in precipitation processes with Prof’s Horvath and Toth (Szeged) and Prof Meldrum (Leeds)
Bio-based and biodegradable materials: Optimising ester hydrolysis in polymers and lignocellulose processing for bioethanol production
Engineering applications of biomineralisation and biofilm formation with Dr Karunakaran and the SCARAB team (Sheffield)

COST action on Emergence and Evolution in Complex Chemical Systems

Gordon Research Conference on Oscillations and Dynamic Instabilities in Chemical Systems

Publications

Journal articles

Leathard AS, Beales PA & Taylor AF (2023) Design of oscillatory dynamics in numerical simulations of compartment-based enzyme systems. Chaos: An Interdisciplinary Journal of Nonlinear Science, 33(12).
Regan HC, Taylor AF & Karunakaran E (2022) A novel high-throughput ex vivo ovine skin wound model for testing emerging antibiotics. Journal of Visualized Experiments(187). View this article in WRRO
Stanisavljev D, Taylor AF & Bubanja IN (2022) Coupling between nucleation and chemical reactions and its importance in understanding the oxidation of iodine by hydrogen peroxide.. Phys Chem Chem Phys.
Mai AQ, Bánsági T, Taylor AF & Pojman JA (2021) Reaction-diffusion hydrogels from urease enzyme particles for patterned coatings. Communications Chemistry, 4(1).
Cupić ŽD, Taylor AF, Horváth D, Orlik M & Epstein IR (2021) Editorial: Advances in oscillating reactions. Frontiers in Chemistry, 9(4). View this article in WRRO
Bohner B, Bánsági T, Tóth Á, Horváth D & Taylor AF (2020) Periodic nucleation of calcium phosphate in a stirred biocatalytic reaction. Angewandte Chemie International Edition, 59(7), 2823-2828. View this article in WRRO
Bánsági T & Taylor AF (2019) Modelling bacteria-inspired dynamics with networks of interacting chemicals. Life, 9(3). View this article in WRRO
Aspuru-Guzik A, Baik M-H, Balasubramanian S, Banerjee R, Bart S, Borduas-Dedekind N, Chang S, Chen P, Corminboeuf C, Coudert F-X , Cronin L et al (2019) Charting a course for chemistry. Nature Chemistry, 11(4), 286-294.
Markovic VM, Bánsági T, McKenzie D, Mai A, Pojman JA & Taylor AF (2019) Influence of reaction-induced convection on quorum sensing in enzyme-loaded agarose beads. Chaos: An Interdisciplinary Journal of Nonlinear Science, 29(3), 033130-033130.
Jones SJ, Taylor AF & Beales PA (2019) Towards feedback-controlled nanomedicines for smart, adaptive delivery. Experimental Biology and Medicine, 244(4), 283-293.
Bánsági T & Taylor AF (2018) Exploitation of Feedback in Enzyme-catalysed Reactions. Israel Journal of Chemistry. View this article in WRRO
Bánsági T & Taylor AF (2018) Switches induced by quorum sensing in a model of enzyme-loaded microparticles. Journal of The Royal Society Interface, 15(140). View this article in WRRO
Bubanja IN, Bánsági T & Taylor AF (2018) Correction to: Kinetics of the urea–urease clock reaction with urease immobilized in hydrogel beads. Reaction Kinetics, Mechanisms and Catalysis, 123(1), 187-187.
Bubanja IN, Bánsági T & Taylor AF (2018) Kinetics of the urea–urease clock reaction with urease immobilized in hydrogel beads. Reaction Kinetics, Mechanisms and Catalysis, 123(1), 177-185. View this article in WRRO
Bánsági T & Taylor AF (2017) Ester hydrolysis: Conditions for acid autocatalysis and a kinetic switch. Tetrahedron, 73(33), 5018-5022. View this article in WRRO
Ashkenasy G, Hermans TM, Otto S & Taylor AF (2017) Systems chemistry. Chem. Soc. Rev., 46(9), 2543-2554.
Jee E, Bánsági T, Taylor AF & Pojman JA (2017) Temporal control of gelation and polymerization fronts driven by an autocatalytic enzyme reaction. Angewandte Chemie, 128(6), 2167-2171. View this article in WRRO
Taylor AF (2016) Chemistry: Small molecular replicators go organic. Nature, 537(7622), 627-628.
Jee E, Bánsági T, Taylor AF & Pojman JA (2016) Temporal Control of Gelation and Polymerization Fronts Driven by an Autocatalytic Enzyme Reaction. Angewandte Chemie International Edition, 55(6), 2127-2131. View this article in WRRO
Taylor AF, Tinsley MR & Showalter K (2015) Insights into collective cell behaviour from populations of coupled chemical oscillators. Physical Chemistry Chemical Physics, 17(31), 20047-20055. View this article in WRRO
Bánsági T & Taylor AF (2015) Helical Turing patterns in the Lengyel-Epstein model in thin cylindrical layers. Chaos: An Interdisciplinary Journal of Nonlinear Science, 25(6), 064308-064308. View this article in WRRO
Bánsági T & Taylor AF (2014) Role of Differential Transport in an Oscillatory Enzyme Reaction. The Journal of Physical Chemistry B, 118(23), 6092-6097.
(2014) Correction. Biophysical Journal, 106(7), 1548-1548.
Bánsági T, Wrobel MM, Scott SK & Taylor AF (2013) Motion and Interaction of Aspirin Crystals at Aqueous–Air Interfaces. The Journal of Physical Chemistry B, 117(43), 13572-13577.
Vallatos A, Evans R, Thompson BW, Taylor AF & Britton MM (2013) Chemical patterns in translating vortices: Inter- and intra-cellular mixing effects. Chaos: An Interdisciplinary Journal of Nonlinear Science, 23(2), 023115-023115.
Vallatos A, Wilson MCT, Taylor AF & Britton MM (2012) Characterising stationary and translating vortex flow using magnetic resonance. EPL (Europhysics Letters), 99(6), 68001-68001.
Merkin JH & Taylor AF (2012) Reduction waves in the two-variable Oregonator model for the BZ reaction. Physica D: Nonlinear Phenomena, 241(16), 1336-1343.
Wrobel MM, Bánsági T, Scott SK, Taylor AF, Bounds CO, Carranza A & Pojman JA (2012) pH Wave-Front Propagation in the Urea-Urease Reaction. Biophysical Journal, 103(3), 610-615.
Taylor AF, Tinsley MR, Wang F & Showalter K (2011) Phase Clusters in Large Populations of Chemical Oscillators. Angewandte Chemie, 123(43), 10343-10346.
Taylor AF, Tinsley MR, Wang F & Showalter K (2011) Phase Clusters in Large Populations of Chemical Oscillators. Angewandte Chemie International Edition, 50(43), 10161-10164.
Novak J, Thompson BW, Wilson MCT, Taylor AF & Britton MM (2011) Low frequency temperature forcing of chemical oscillations. Physical Chemistry Chemical Physics, 13(26), 12321-12321.
Tinsley MR, Taylor AF, Huang Z & Showalter K (2011) Complex organizing centers in groups of oscillatory particles. Physical Chemistry Chemical Physics, 13(39), 17802-17802.
Hu G, Pojman JA, Scott SK, Wrobel MM & Taylor AF (2010) Base-Catalyzed Feedback in the Urea−Urease Reaction. The Journal of Physical Chemistry B, 114(44), 14059-14063.
Hu G, Bounds C, Pojman JA & Taylor AF (2010) Time-lapse thiol-acrylate polymerization using a pH clock reaction. Journal of Polymer Science Part A: Polymer Chemistry, 48(13), 2955-2959.
Tinsley MR, Taylor AF, Huang Z, Wang F & Showalter K (2010) Dynamical quorum sensing and synchronization in collections of excitable and oscillatory catalytic particles. Physica D: Nonlinear Phenomena, 239(11), 785-790.
Taylor AF & Tinsley MR (2009) A path to patterns. Nature Chemistry, 1(5), 340-341.
Taylor AF, Tinsley MR, Wang F, Huang Z & Showalter K (2009) Dynamical Quorum Sensing and Synchronization in Large Populations of Chemical Oscillators. Science, 323(5914), 614-617.
Taylor AF, Kovacs K & Scott SK (2008) Nonlinear PH responsive chemomechanical devices. American Chemical Society, Polymer Preprints, Division of Polymer Chemistry, 49(1), 804.
McIlwaine RE, Fenton H, Scott SK & Taylor AF (2008) Acid Autocatalysis and Front Propagation in Water-in-Oil Microemulsions. The Journal of Physical Chemistry C, 112(7), 2499-2505.
Britton MM, Sederman AJ, Taylor AF, Scott SK & Gladden LF (2007) Magnetic resonance imaging of flow distributed oscillations in a packed bed reactor. Magnetic Resonance Imaging, 25(4), 551-552.
Kovacs K, McIlwaine RE, Scott SK & Taylor AF (2007) An Organic-Based pH Oscillator. The Journal of Physical Chemistry A, 111(4), 549-551.
Toth R, Taylor AF & Tinsley MR (2006) Collective Behavior of a Population of Chemically Coupled Oscillators. The Journal of Physical Chemistry B, 110(20), 10170-10176.
McIlwaine R, Kovacs K, Scott SK & Taylor AF (2006) A novel route to pH oscillators. Chemical Physics Letters, 417(1-3), 39-42.
Toth R & Taylor AF (2006) Loss of coherence in a population of diffusively coupled oscillators. The Journal of Chemical Physics, 125(22), 224708-224708.
Toth R & Taylor AF (2006) The Tris(2,2'-Bipyridyl)Ruthenium-Catalysed Belousov–Zhabotinsky Reaction. Progress in Reaction Kinetics and Mechanism, 31(2), 59-115.
Taylor AF & Britton MM (2006) Magnetic resonance imaging of chemical waves in porous media. Chaos: An Interdisciplinary Journal of Nonlinear Science, 16(3), 037103-037103.
Britton MM, Sederman AJ, Taylor AF, Scott SK & Gladden LF (2005) Magnetic Resonance Imaging of Flow-Distributed Oscillations. The Journal of Physical Chemistry A, 109(37), 8306-8313.
Kovacs K, McIlwaine R, Gannon K, Taylor AF & Scott SK (2005) Complex Behavior in the Formaldehyde−Sulfite Reaction. The Journal of Physical Chemistry A, 109(1), 283-288.
Taylor AF, Armstrong GR, Goodchild N & Scott SK (2003) Propagation of chemical waves across inexcitable gaps. Physical Chemistry Chemical Physics, 5(18), 3928-3928.
Taylor AF & Davies ML (2003) Comment on ‘Chemical oscillations induced by flow transports’ [J. Wang, Chem. Phys. Lett. 360 (2002) 289–293]. Chemical Physics Letters, 371(5-6), 757-759.
Taylor AF (2003) Mechanism and Phenomenology of an Oscillating Chemical Reaction. ChemInform, 34(12).
TAYLOR A (2003) CHEMICAL PATTERNS IN SIMPLE FLOW SYSTEMS. Advances in Complex Systems, 06(01), 155-162.
Taylor AF (2002) Mechanism and Phenomenology of an Oscillating Chemical Reaction. Progress in Reaction Kinetics and Mechanism, 27(4), 247-326.
Tóth R, Papp A, Gáspár V, Merkin JH, Scott SK & Taylor AF (2001) Flow-driven instabilities in the Belousov–Zhabotinsky reaction: Modelling and experiments. Physical Chemistry Chemical Physics, 3(6), 957-964.
Tóth R, Gáspár V, Belmonte A, O'Connell MC, Taylor A & Scott SK (2000) Wave initiation in the ferroin-catalysed Belousov–Zhabotinsky reaction with visible light. Physical Chemistry Chemical Physics, 2(3), 413-416.
Scott SK, Johnson BR, Taylor AF & Tinsley MR (2000) Complex chemical reactions — A review. Chemical Engineering Science, 55(2), 209-215.
Taylor AF, Gáspár V, Johnson BR & Scott SK (1999) Analysis of reaction–diffusion waves in the ferroin-catalysed Belousov–Zhabotinsky reaction. Physical Chemistry Chemical Physics, 1(19), 4595-4599.
Taylor AF, Johnson BR & Scott SK (1999) Scroll waves in the Belousov–Zhabotinsky reaction: exploitation of O2-effect on the ferroin-catalysed system. Physical Chemistry Chemical Physics, 1(5), 807-811.
Taylor AF, Johnson BR & Scott SK (1998) Effect of oxygen on wave propagation in the ferroin-catalysed Belousov–Zhabotinsky reaction. Journal of the Chemical Society, Faraday Transactions, 94(8), 1029-1033.
Johnson BR, Scott SK & Taylor AF (1997) Reaction-diffusion waves Homogeneous and inhomogeneous effects. Journal of the Chemical Society, Faraday Transactions, 93(20), 3733-3736.
Bashir N, Leathard AS, McHugh M, Hoffman I, Shaon F, Belgodere JA, Taylor AF & Pojman JA () On the use of modelling antagonistic enzymes to aid in temporal programming of pH and PVA–borate gelation. Molecular Systems Design & Engineering.
Stanisavljev D, Taylor AF & Bubanja IN () Changing the paradigm in modelling the Bray–Liebhafsky oscillatory chemical reaction. Physical Chemistry Chemical Physics.
Rana M, Ahmad R & Taylor AF () A microfluidic double emulsion platform for spatiotemporal control of pH and particle synthesis. Lab on a Chip.
Liu H & Taylor AF () Influence of Oxygen on Chemoconvective Patterns in the Iodine Clock Reaction. The Journal of Physical Chemistry B.
Miele Y, Jones SJ, Rossi F, Beales PA & Taylor AF () Collective Behavior of Urease pH Clocks in Nano- and Microvesicles Controlled by Fast Ammonia Transport. The Journal of Physical Chemistry Letters, 1979-1984.
Thompson BW, Novak J, Wilson MCT, Britton MM & Taylor AF () Inward propagating chemical waves in Taylor vortices. Physical Review E, 81(4).
Tinsley MR, Taylor AF, Huang Z & Showalter K () Emergence of Collective Behavior in Groups of Excitable Catalyst-Loaded Particles: Spatiotemporal Dynamical Quorum Sensing. Physical Review Letters, 102(15).
Taylor AF, Kapetanopoulos P, Whitaker BJ, Toth R, Bull L & Tinsley MR () Clusters and Switchers in Globally Coupled Photochemical Oscillators. Physical Review Letters, 100(21).
Kovacs K, McIlwaine RE, Scott SK & Taylor AF () pH oscillations and bistability in the methylene glycol–sulfite–gluconolactone reaction. Phys. Chem. Chem. Phys., 9(28), 3711-3716.
Tinsley M, Cui J, Chirila FV, Taylor A, Zhong S & Showalter K () Spatiotemporal Networks in Addressable Excitable Media. Physical Review Letters, 95(3).
Armstrong GR, Taylor AF, Scott SK & Gáspár V () Modelling wave propagation across a series of gaps. Phys. Chem. Chem. Phys., 6(19), 4677-4681.
Taylor AF, Bamforth JR & Bardsley P () Complex pattern development in a plug–flow reactor. Phys. Chem. Chem. Phys., 4(22), 5640-5643.
Muzika F, Bánsági T, Schreiber I, Schreiberová L & Taylor AF () A bistable switch in pH in urease-loaded alginate beads. Chem. Commun., 50(76), 11107-11109.

Chapters

Taylor AF (2021) From Clocks to Synchrony: The Design of Bioinspired Self‐Regulation in Chemical Systems, Out‐of‐Equilibrium (Supra)molecular Systems and Materials (pp. 61-90).
Miele Y, Bánsági T, Taylor AF & Rossi F (2018) Modelling Approach to Enzymatic pH Oscillators in Giant Lipid Vesicles, Advances in Bionanomaterials (pp. 63-74). Springer International Publishing
Taylor AF, Tinsley MR & Showalter K (2013) QUORUM SENSING AND SYNCHRONIZATION IN POPULATIONS OF COUPLED CHEMICAL OSCILLATORS, Engineering of Chemical Complexity (pp. 261-278). WORLD SCIENTIFIC

Conference proceedings papers

TAYLOR AF (2021) MODELLING OF NON-EQUILIBRIUM SYSTEMS: REACTION NETWORKS FOR BIOINSPIRED BEHAVIOUR. Computational Modeling: From Chemistry to Materials to Biology
Miele Y, Bánsági T, Taylor AF, Stano P & Rossi F (2016) Engineering Enzyme-Driven Dynamic Behaviour in Lipid Vesicles (pp 197-208)
Taylor AF, Kapetanopoulos P, Whitaker BJ, Toth R, Bull L & Tinsley MR (2008) Phase clustering in globally coupled photochemical oscillators. The European Physical Journal Special Topics, Vol. 165(1) (pp 137-149)

Software / Code

Taylor A & Bansagi T Code for: Switches Induced by Quorum Sensing in a Model of Enzyme-loaded Microparticles.

Datasets

Taylor A & Bansagi T Supplementary information for: Switches Induced by Quorum Sensing in a Model of Enzyme-loaded Microparticles.

Other

Bohner B, Bánsági T, Tóth Á, Horváth D & Taylor AF (2020) Periodic Nucleation of Calcium Phosphate in a Stirred Biocatalytic Reaction. Angewandte Chemie, 132(7), 2845-2850.