Professor
Malavika Nair
MA MSci PhD (Cantab) AFHEA
Associate Professor of Biomaterials
Non-Tutorial Fellow at St Catherine's College
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Research
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College: St Catherine's College
Location: Institute of Biomedical Engineering, Nuffield Orthopaedic Centre, Marcela Botnar Wing, Oxford OX3 7LD

Malavika Nair is an Associate Professor in Biomaterials at the Institute of Biomedical Engineering. Malavika is a materials scientist by training, obtaining a BA, MSci in Natural Sciences (2012-2016) and a PhD (2016-2019) from the University of Cambridge. Malavika’s doctoral work was focused on the multiscale characterisation of ice, collagen, and ice-templated collagen scaffolds for tissue engineering.

This was followed by post-doctoral research in 2020 combining machine learning techniques with experimental biomaterials datasets, and the award of a research fellowship at Emmanuel College where Malavika began working on electroactive biomaterials for tissue regeneration.

In 2022, Malavika moved to the Oxford Institute of Biomedical Engineering to expand the work on electroactive biomaterials for use in bio-stimulation, bio-sensing and drug delivery.

Malavika’s research aims to bridge the gap between existing electronic devices for healthcare, and regenerative implants by exploiting the electromechanical behaviour of biopolymers.

The current research focus covers the full scope of materials synthesis and discovery, with the goal of producing medical devices with optimised electromechanical and biological responses.

DPhil students looking to join the research team outside of the advertised studentship are very welcome. Please get in touch directly to discuss opportunities.

Recent Publications by Professor Nair
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Feature importance in multi-dimensional tissue-engineering datasets: random forest assisted optimization of experimental variables for collagen scaffolds
Nair M,  Bica I,  Best SM,  Cameron RE,  et al. (2021)
Tailoring the biofunctionality of collagen biomaterials via tropoelastin incorporation and EDC-crosslinking
Bax DV,  Nair M,  Weiss AS,  Farndale RW,  Best SM,  Cameron RE,  et al. (2021)
Tailoring the triboelectric output of poly-L-lactic acid nanotubes through control of polymer crystallinity
Margaronis K,  Busolo T,  Nair M,  Chalklen T,  Kar-Narayan S,  et al. (2021)
Conducting polymer-ECM scaffolds for human neuronal cell differentiation
Barberio C,  Saez J,  Withers A,  Nair M,  Tamagnini F,  Owens RM,  et al. (2022)
Reversible microscale assembly of nanoparticles driven by the phase transition of a thermotropic liquid crystal
Fhionnlaoich NM,  Schrettl S,  Tito NB,  Yang Y,  Nair M,  Serrano LA,  Harkness K,  Silva PJ,  Frauenrath H,  Stellacci F,  Guldin S,  et al. ()
Reversible microscale assembly of nanoparticles driven by the phase transition of a thermotropic liquid crystal
Fhionnlaoich NM,  Schrettl S,  Tito NB,  Yang Y,  Nair M,  Serrano LA,  Harkness K,  Silva PJ,  Frauenrath H,  Stellacci F,  Guldin S,  et al. (2017)
In situ ESEM imaging of the vapor-pressure-dependent sublimation-induced morphology of ice
Nair M,  Husmann A,  Cameron RE,  Best SM,  et al. (2018)
Optimising aerosol jet printing of collagen inks for enhanced piezoelectricity and controlled surface potential
Nair M,  Inwald E,  Ives L,  See KRM,  Kar-Narayan S,  et al. (2023)
Reversible microscale assembly of nanoparticles driven by the phase transition of a thermotropic liquid crystal
Mac Fhionnlaoich N,  Schrettl S,  Tito NB,  Yang Y,  Nair M,  Serrano LA,  Harkness K,  Silva PJ,  Frauenrath H,  Serra F,  Carter WC,  Stellacci F,  Guldin S,  et al. (2023)
In Situ Synchrotron Radiation Diffraction during Solidification of Mg4Y and Mg4YxGd Alloys (x = 1, 4 wt.%)
Szakács G,  Wiese B,  Mendis CL,  Tolnai D,  Stark A,  Schell N,  Nair M,  Kainer KU,  Hort N,  et al. (2014)