Showing 20 publications by Malavika Nair
Current and emerging strategies for biocompatible materials for implantable electronics
Zhou Y, Burgoyne Morris GH & Nair M (2024), Cell Reports Physical Science
BibTeX
@article{currentandemerg-2024/3,
title={Current and emerging strategies for biocompatible materials for implantable electronics},
author={Zhou Y, Burgoyne Morris GH & Nair M},
journal={Cell Reports Physical Science},
number={101852},
publisher={Cell Press},
year = "2024"
}
Sonosensitive cavitation nuclei-a customisable platform technology for enhanced therapeutic delivery
Lyons B, Balkaran JPR, Dunn-Lawless D, Lucian V, Keller SB et al. (2023), Molecules, 28(23)
BibTeX
@article{sonosensitiveca-2023/11,
title={Sonosensitive cavitation nuclei-a customisable platform technology for enhanced therapeutic delivery},
author={Lyons B, Balkaran JPR, Dunn-Lawless D, Lucian V, Keller SB et al.},
journal={Molecules},
volume={28},
number={7733},
publisher={MDPI},
year = "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 et al. (2023), ACS nano, 17(11), 9906-9918
BibTeX
@article{reversiblemicro-2023/5,
title={Reversible Microscale Assembly of Nanoparticles Driven by the Phase Transition of a Thermotropic Liquid Crystal.},
author={Mac Fhionnlaoich N, Schrettl S, Tito NB, Yang Y, Nair M et al.},
journal={ACS nano},
volume={17},
pages={9906-9918},
publisher={American Chemical Society (ACS)},
year = "2023"
}
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 (2023), JPhys Materials, 6(3)
BibTeX
@article{optimisingaeros-2023/,
title={Optimising aerosol jet printing of collagen inks for enhanced piezoelectricity and controlled surface potential},
author={Nair M, Inwald E, Ives L, See KRM & Kar-Narayan S},
journal={JPhys Materials},
volume={6},
number={ARTN 034001},
publisher={IOP Publishing},
year = "2023"
}
Conducting Polymer-ECM Scaffolds for Human Neuronal Cell Differentiation.
Barberio C, Saez J, Withers A, Nair M, Tamagnini F et al. (2022), Advanced healthcare materials, 11(20), e2200941-e2200941
BibTeX
@article{conductingpolym-2022/10,
title={Conducting Polymer-ECM Scaffolds for Human Neuronal Cell Differentiation.},
author={Barberio C, Saez J, Withers A, Nair M, Tamagnini F et al.},
journal={Advanced healthcare materials},
volume={11},
pages={e2200941-e2200941},
year = "2022"
}
Tailoring the biofunctionality of collagen biomaterials via tropoelastin incorporation and EDC-crosslinking.
Bax DV, Nair M, Weiss AS, Farndale RW, Best SM et al. (2021), Acta biomaterialia, 135, 150-163
BibTeX
@article{tailoringthebio-2021/11,
title={Tailoring the biofunctionality of collagen biomaterials via tropoelastin incorporation and EDC-crosslinking.},
author={Bax DV, Nair M, Weiss AS, Farndale RW, Best SM et al.},
journal={Acta biomaterialia},
volume={135},
pages={150-163},
year = "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 (2021), JPhys Materials, 4(3)
BibTeX
@article{tailoringthetri-2021/7,
title={Tailoring the triboelectric output of poly-L-lactic acid nanotubes through control of polymer crystallinity},
author={Margaronis K, Busolo T, Nair M, Chalklen T & Kar-Narayan S},
journal={JPhys Materials},
volume={4},
year = "2021"
}
Triboelectric Yarns with Electrospun Functional Polymer Coatings for Highly Durable and Washable Smart Textile Applications.
Busolo T, Szewczyk PK, Nair M, Stachewicz U & Kar-Narayan S (2021), ACS applied materials & interfaces, 13(14), 16876-16886
BibTeX
@article{triboelectricya-2021/3,
title={Triboelectric Yarns with Electrospun Functional Polymer Coatings for Highly Durable and Washable Smart Textile Applications.},
author={Busolo T, Szewczyk PK, Nair M, Stachewicz U & Kar-Narayan S},
journal={ACS applied materials & interfaces},
volume={13},
pages={16876-16886},
publisher={American Chemical Society (ACS)},
year = "2021"
}
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 (2021), APPLIED PHYSICS REVIEWS, 8(4)
BibTeX
@article{featureimportan-2021/,
title={Feature importance in multi-dimensional tissue-engineering datasets: Random forest assisted optimization of experimental variables for collagen scaffolds},
author={Nair M, Bica I, Best SM & Cameron RE},
journal={APPLIED PHYSICS REVIEWS},
volume={8},
number={ARTN 041403},
year = "2021"
}
Tunable bioactivity and mechanics of collagen-based tissue engineering constructs: A comparison of EDC-NHS, genipin and TG2 crosslinkers.
Nair M, Johal RK, Hamaia SW, Best SM & Cameron RE (2020), Biomaterials, 254, 120109
BibTeX
@article{tunablebioactiv-2020/9,
title={Tunable bioactivity and mechanics of collagen-based tissue engineering constructs: A comparison of EDC-NHS, genipin and TG2 crosslinkers.},
author={Nair M, Johal RK, Hamaia SW, Best SM & Cameron RE},
journal={Biomaterials},
volume={254},
pages={120109},
year = "2020"
}
MicroCT analysis of connectivity in porous structures: optimizing data acquisition and analytical methods in the context of tissue engineering.
Nair M, Shepherd JH, Best SM & Cameron RE (2020), Journal of the Royal Society, Interface, 17(165), 20190833
BibTeX
@article{microctanalysis-2020/4,
title={MicroCT analysis of connectivity in porous structures: optimizing data acquisition and analytical methods in the context of tissue engineering.},
author={Nair M, Shepherd JH, Best SM & Cameron RE},
journal={Journal of the Royal Society, Interface},
volume={17},
pages={20190833},
year = "2020"
}
Self-assembly of collagen bundles and enhanced piezoelectricity induced by chemical crosslinking.
Nair M, Calahorra Y, Kar-Narayan S, Best SM & Cameron RE (2019), Nanoscale, 11(32), 15120-15130
BibTeX
@article{selfassemblyofc-2019/8,
title={Self-assembly of collagen bundles and enhanced piezoelectricity induced by chemical crosslinking.},
author={Nair M, Calahorra Y, Kar-Narayan S, Best SM & Cameron RE},
journal={Nanoscale},
volume={11},
pages={15120-15130},
year = "2019"
}
In situ ESEM imaging of the vapor-pressure-dependent sublimation-induced morphology of ice
Nair M, Husmann A, Cameron RE & Best SM (2018), Physical Review Materials, 2(4), 040401
BibTeX
@article{insituesemimagi-2018/4,
title={In situ ESEM imaging of the vapor-pressure-dependent sublimation-induced morphology of ice},
author={Nair M, Husmann A, Cameron RE & Best SM},
journal={Physical Review Materials},
volume={2},
pages={040401},
publisher={American Physical Society (APS)},
year = "2018"
}
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 et al. (2014), 213-218
BibTeX
@misc{insitusynchrotr-2014/2,
title={In Situ Synchrotron Radiation Diffraction during Solidification of Mg4Y and Mg4YxGd Alloys (x = 1, 4 wt.%)},
author={Szakács G, Wiese B, Mendis CL, Tolnai D, Stark A et al.},
year = "2014"
}
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 et al. (2014), 213-218
BibTeX
@misc{insitusynchrotr-2014/,
title={In Situ Synchrotron Radiation Diffraction during Solidification of Mg4Y and Mg4YxGd Alloys (x = 1, 4 wt.%)},
author={Szakács G, Wiese B, Mendis CL, Tolnai D, Stark A et al.},
year = "2014"
}
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 et al. (0)
BibTeX
@misc{reversiblemicro-/,
title={Reversible microscale assembly of nanoparticles driven by the phase transition of a thermotropic liquid crystal},
author={Fhionnlaoich NM, Schrettl S, Tito NB, Yang Y, Nair M 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 et al. (0)
BibTeX
@misc{reversiblemicro-/,
title={Reversible microscale assembly of nanoparticles driven by the phase transition of a thermotropic liquid crystal},
author={Fhionnlaoich NM, Schrettl S, Tito NB, Yang Y, Nair M et al.}
}
Crosslinking Collagen Constructs: Achieving Cellular Selectivity Through Modifications of Physical and Chemical Properties
Nair M, Best SM & Cameron RE (0), Applied Sciences, 10(19), 6911
BibTeX
@article{crosslinkingcol-/,
title={Crosslinking Collagen Constructs: Achieving Cellular Selectivity Through Modifications of Physical and Chemical Properties},
author={Nair M, Best SM & Cameron RE},
journal={Applied Sciences},
volume={10},
pages={6911},
publisher={MDPI}
}
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 et al. (0)
BibTeX
@misc{reversiblemicro-/,
title={Reversible microscale assembly of nanoparticles driven by the phase transition of a thermotropic liquid crystal},
author={Fhionnlaoich NM, Schrettl S, Tito NB, Yang Y, Nair M 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 et al. (0)
BibTeX
@misc{reversiblemicro-/,
title={Reversible microscale assembly of nanoparticles driven by the phase transition of a thermotropic liquid crystal},
author={Fhionnlaoich NM, Schrettl S, Tito NB, Yang Y, Nair M et al.}
}