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Dr Adam Perriman
Dr Adam Perriman
Senior Research Fellow
Area of research
Hybrid Biomolecular Systems
Adam Perriman is distinguished for pioneering research concerned with the construction and study of novel hybrid biomolecular systems using advanced physical techniques. His research interests are acutely interdisciplinary, are built on the solid foundations of fundamental science, and span the fields of nanotechnology, biophysical chemistry, and tissue engineering. His significant advances in these research areas has resulted in a number of invited seminars and colloquia, and Dr. Perriman has published thirteen papers in very high-impact scientific journals (out of a total of 28), including two articles in Nature Chemistry (including an invited cover)and a review in ACS Nano. His recent research into the unprecedented development of protein-polymer surfactant nanohybrids has generated extensive media coverage and featured in the popular science magazines New Scientist, Pop Sci and RSCs Chemistry World. In 2010 he was interviewed live on BB4’s Material World, which was broadcast live nationally.
- Protein bioconjugation
- Regenerative Medicine
- Functional Bionanomaterials
- Adult Stem Cell Membrane Re-enginering and Homing
- Small Angle Scattering (SANS and SAXS)
Adam Perriman is a member of the Medical and Veterinary Sciences Faculty at the University of Bristol in the School of Cellular and Molecular Medicine. He is also an Engineering and Physical Research Council (EPSRC) Early Career Fellow. He received his B.Sc from James Cook University before moving to the Research School of Chemistry at the Australian National University to complete Honours and PhD in 2007. After two years of postdoctoral work with Prof. S. Mann in the Centre for Organized Matter Chemistry (University of Bristol), he was awarded the Engineering and Physical Research Council (EPSRC) Cross-disciplinary Interfaces Fellowship.
Adult Stem Cell Membrane Re-enginering and Homing
Small Angle Scattering (SANS and SAXS)
- Carreira, SC, Armstrong, J, Perriman, A, Hartley-Davies, R, Seddon, A & Schwarzacher, W, 2016, Ultra-fast stem cell labelling using cationised magnetoferritin. Nanoscale, vol 8., pp. 7474-7483
- Sharma, KP, Harniman, R, Farrugia, T, Briscoe, WH, Perriman, AW & Mann, S, 2016, Dynamic Behavior in Enzyme-Polymer Surfactant Hydrogel Films. Advanced materials (Deerfield Beach, Fla.), vol 28., pp. 1597-1602
- Armstrong, JPK, Burke, M, Carter, BM, Davis, SA & Perriman, AW, 2016, 3D Bioprinting Using a Templated Porous Bioink. Advanced Healthcare Materials.
- Senior, L, Crump, MP, Williams, C, Booth, PJ, Mann, S, Perriman, AW & Curnow, P, 2015, Structure and function of the silicifying peptide R5. Journal of Materials Chemistry B, vol 3., pp. 2607-2614
- Sharma, KP, Risbridger, T, Bradley, K, Perriman, AW, Fermin, DJ & Mann, S, 2015, High-Temperature Electrochemistry of a Solvent-Free Myoglobin Melt. ChemElectroChem, vol 2., pp. 976-981
- Armstrong, JPK, Olof, SN, Jakimowicz, MD, Hollander, AP, Mann, S, Davis, SA, Miles, MJ, Patil, AJ & Perriman, AW, 2015, Cell paintballing using optically targeted coacervate microdroplets. Chemical Science, vol 6., pp. 6106-6111
- Armstrong, JPK, Shakur, R, Horne, JP, Dickinson, SC, Armstrong, CT, Lau, K, Kadiwala, J, Lowe, R, Seddon, A, Mann, S, Anderson, JLR, Perriman, AW & Hollander, AP, 2015, Artificial membrane-binding proteins stimulate oxygenation of stem cells during engineering of large cartilage tissue. Nature Communications, vol 6., pp. 7405
- Lv, K, Perriman, AW & Mann, S, 2015, Photocatalytic multiphase micro-droplet reactors based on complex coacervation. Chemical communications (Cambridge, England), vol 51., pp. 8600-8602
- Thomas, M, Hallett, J, Klein, S, Mann, S, Perriman, A & Richardson, R, 2015, Stability and Orientational Order of Gold Nanorods in Nematic Suspensions: A Small Angle X-ray Scattering Study. Molecular Crystals & Liquid Crystals, vol 610., pp. 44
- Tang, T-Y, Hak, CRC, Thompson, AJ, Kuimova, MK, Williams, DS, Perriman, AW & Mann, S, 2014, Fatty acid membrane assembly on coacervate microdroplets as a step towards a hybrid protocell model. Nature Chemistry, vol 6., pp. 527-533
- Brogan, APS, Sharma, KP, Perriman, AW & Mann, S, 2014, Enzyme activity in liquid lipase melts as a step towards solvent-free biology at 150 °C. Nature Communications, vol 5., pp. 1-8
- Sharma, KP, Zhang, Y, Thomas, MR, Brogan, APS, Perriman, AW & Mann, S, 2014, Self-organization of glucose oxidase-polymer surfactant nanoconstructs in solvent-free soft solids and liquids. Journal of Physical Chemistry B, vol 118., pp. 11573-11580
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