(1)
Principal Investigator for the research
proposal - EPSRC Hub for Geometrical and Computational Studies for the Prevention of
Biofilm Formation and Bacterial Infections - submitted on 25th July 2019. In collaboration
with the School of Healthcare Sciences (Manchester Metropolitan University) and
the Faculty of Biology, Medicine and Health (University of Manchester).
(2)
Henry Tan,
Invited Lecture, In vivo surface roughness evolution for the prediction of implant-associated
infection. Department of Engineering Mechanics, Wuhan University, China, 4th
January 2019.
(3)
MEng projects
(2016 - 2017):
o Heather Mcrobbie. Microbial adhesion on an
implant surface.
o Kathryn Tavendale. Surface roughness evolution
of a stressed metallic implant.
(4)
Henry Tan,
discussion leader of JClub October of 2016: Roughness evolution of biomaterial
surfaces at iMechanica.org, hosted at
the Harvard School of Engineering and
Applied Sciences.
(5)
Henry Tan, Keynote
Lecture, In
vivo surface roughness evolution of a stressed metallic implant. 3rd
International Symposium on Multiscale Material Mechanics and Multiphysics and
Sustainable Applications (2016
- Sustainable Industrial Processing Summit & Exhibition), 06 - 10
November 2016, Hainan-Island, China.
(6)
H. Tan (2016)
In vivo surface roughness evolution of a stressed metallic implant. Journal
of the Mechanics and Physics of Solids, 95, pp. 430-440.
(7)
Henry Tan,
Invited Lecture, In vivo biomaterial surface roughness evolution for the
prediction of implant related infection. 6th International Conference and
Exhibition on Materials Science and Engineering, Atlanta, Georgia, USA, 12-14
September 2016.
(8)
Henry Tan,
Invited Seminar, In vivo biomaterial surface roughness evolution for implant
associated infection prediction. Tsinghua
University, China, 12th January 2016.
(9)
Henry Tan,
Invited Seminar, In vivo biomaterial surface roughness evolution for implant
associated infection prediction. Peking
University, China, 11th January 2016.