研究领域
James' group uses nanotechnology, the material sciences and chemical approaches to overcome pressing issues in two main areas, namely 1) Infection Control and 2) The Environment. A key focus to the research is the need to understand why biological organisms stick to surfaces and more specifically, in preventing this happening.
James has managed projects spanning across numerous industries, technologies and requirements – with experience in antimicrobial and nanofunctionalised biomaterials in the environment and human health for infection control.
One of James’ key interests and fascinations is how nature or an organism can evolve to deal with a problem and almost completely solve it without hassle, consequence or even damaging the surrounding environment – also known as biomimicry (from bios meaning life, and mimesis, meaning imitate). James has a focussed interest in nanotechnology fuelled by his fundamental chemistry background exploiting nanoparticles to serve as novel antimicrobial agents in materials and surfaces. All of these experiences enable James to be a multidisciplinary and interdisciplinary research leader for the biomaterial and nanotechnology domain. He is always willing to help and is always looking for collaborations, exchanges and further opportunities - so please do not hesitate to make contact.
近期论文
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Gangadoo, S, Taylor-Robinson, A & Chapman, J 2015, 'Nanoparticle and biomaterial characterisation techniques', Materials Technology: Advanced Performance Materials, vol. 30, no. B1, pp. B44-B56, http://dx.doi.org/10.1179/1753555714Y.0000000201
Gangadoo, S & Chapman, J 2015, 'Emerging biomaterials and strategies for medical applications: a review', Materials Technology, vol. 30, B1, pp. B3-B7, http://dx.doi.org/10.1179/1753555714Y.0000000206
Taylor-Robinson, A & Chapman, J 2015, 'Immunosenescence in humans: changes to the aged T Lymphocyte population in response to persistent Cytomegalovirus infection', Journal of Immunology and Infectious Diseases, vol. 2, no. 2, pp. 1-11, http://www.annexpublishers.com/full-text/JIID/2301/Immunosenescence-in-Humans-Changes-to-the-Aged-T-Lymphocyte-Population-in-Response-to-Persistent-Cytomegalovirus-Infection.php
Kanematsu, H & Chapman, J 2015, 'Biointerfaces and biofouling', Materials Technology, vol. 30, no. B1, pp. B1-B2, http://dx.doi.org/10.1179/B14Z.00000000021
Briciu-Burghina, C, Sullivan, T, Chapman, J & Regan, F 2014, 'Continuous high-frequency monitoring of estuarine water quality as a decision support tool: a Dublin Port case study', Environmental Monitoring and Assessment, vol. 186, no. 9, pp. 5561-5580, http://dx.doi.org/10.1007/s10661-014-3803-9
Chapman, J, Hellio, C, Sullivan, T, Brown, R, Russell, S, Kiterringham, E, Le Nor, L & Regan, F 2013, 'Bioinspired synthetic macroalgae: Examples from nature for antifouling applications', International Biodeterioration & Biodegradation, vol. 86, Part A, pp. 6-13, http://dx.doi.org/10.1016/j.ibiod.2013.03.036
Chapman, J, Le Nor, L, Brown, R, Kitteringham, E, Russell, S, Sullivan, T, Regan, F, 2013, 'Antifouling performances of macro- to micro- to nano-copper materials for the inhibition of biofouling in its early stages', Journal of Materials Chemistry B, vol. 1, no. 45, pp. 6194-6200, http://dx.doi.org/10.1039/c3tb21285h
Chapman, J & Regan, F 2012, 'Nanofunctionalized Superhydrophobic Antifouling Coatings for Environmental Sensor Applications-Advancing Deployment with Answers from Nature', Advanced Engineering Materials, vol. 14, no. 4, pp. B175-B184, http://dx.doi.org/10.1002/adem.201180037
Regan, F, Sullivan, T, Briciu, C, Chapman, J 2011, 'Combating Bio-Fouling Of Sensors and Environmental Platforms in the Marine Environment', Instrumentation Viewpoint, SARTI, Centro Tecnológico de Vilanova i la Geltrú, Barcelona, Spain,