Philip D. Evans

Last updated
Philip David Evans
Dr. Philip D. Evans in 2012 (Kuchl, Austria).jpg
Born1958
Chelsea, London
NationalityBritish, Canadian
Alma mater Bangor University
Occupations
Years activeSince 1986
Known forWood protection
Wood surface chemistry
AwardsBritish Columbia Leadership Chair in Advanced Forest Products Manufacturing Technology
Fellow of the International Academy of Wood Science
Scientific career
Institutions University of British Columbia, Australian National University

Philip D. Evans (born 1958) is a British-Canadian wood scientist and emeritus professor at the University of British Columbia (UBC), who is an elected fellow (FIAWS) and distinguished member of the International Academy of Wood Science. [1] [2] [3]

Contents

He currently holds the British Columbia Leadership Chair in Advanced Forest Products Manufacturing Technology at UBC, and also, is honourary professor in the Department of Materials Physics at the Australian National University.

Early life and studies

Evans was born in Chelsea, London, in 1958. As the son of a Welsh Guardsman, he spent much of his early life on military bases in Cyprus and Germany. He attended ten schools by the age of ten before receiving a scholarship to attend Woolverstone Hall, a progressive state-run boarding school in Suffolk. Evans earned a degree in forestry and wood science (summa cum laude) from the University College of North Wales (now Bangor University), where he developed a lasting interest in wood anatomy and wood protection. He completed his PhD on the hydrolysis of wood surfaces. [4]

Research career

After completing his doctorate studies, Evans worked at the Dundee Institute of Technology on high-pressure sap displacement in spruce wood. In 1986, he moved to Australia to become a lecturer at the Australian National University, where he taught wood science and processing. At ANU, he focused on the weathering and protection of wood, collaborating with organizations including CSIRO and Japan's Forestry and Forest Products Research Institute (FFPRI). He worked upon the understanding of the photodegradation of wood and the use of UV stabilizers and chemical modifications. [5] [6]

In 2001, Evans joined the University of British Columbia in Vancouver. Initially as the director of UBC's Centre for Advanced Wood Processing, he later returned to full-time research and teaching, establishing international collaborations and applying advanced imaging techniques such as transmission electron microscopy (TEM), X-ray micro-CT and DART-TOF mass spectrometry to study wood microstructure.

Evans worked on wood surface degradation and protection, [7] describing the rapid surface delignification of wood due to environmental exposure and developed new approaches to mitigate UV-induced damage. [8] [9] His research also includes studies on wood surface checking and durability, and has received -until June 2025- more than 5,000 citations at Google Scholar. [10]

He has been a member of the editorial boards of the wood-related journals, International Wood Products Journal and Forest Products Journal . In 2009, he was elected as a British Columbia Leadership Chair in Advanced Forest Products Manufacturing Technology at the UBC in Vancouver. [11]

In October 2023, a meta-research carried out by John Ioannidis et al. at Stanford University included Philip Evans in Elsevier Data 2022, where he was ranked in the top 2% of researchers in wood science (forestry – materials), having a c-score of 3.369, [12] while in August 2024, he also acquired the same high ranking. [13]

References

  1. "Fellows". The International Academy of Wood Science. 14 November 2012. Retrieved 9 June 2025.
  2. Forestry, UBC (2023-04-13). "Faculty Profile". UBC Faculty of Forestry. Retrieved 2025-06-09.
  3. "Philip D. Evans" (PDF). Retrieved 2025-06-09.
  4. "Professor Phil Evans" (PDF). Retrieved 2025-06-11.irg-wp.com
  5. Evans, P.D.; Thay, P.D.; Schmalzl, K.J. (1996). "Degradation of wood surfaces during natural weathering. Effects on lignin and cellulose and on the adhesion of acrylic latex primers". Wood Science and Technology. 30 (6). doi:10.1007/BF00244437. ISSN   0043-7719 . Retrieved 2025-06-12.
  6. Evans, P.D.; Michell, A.J.; Schmalzl, K.J. (1992). "Studies of the degradation and protection of wood surfaces". Wood Science and Technology. 26 (2). doi:10.1007/BF00194471. ISSN   0043-7719 . Retrieved 2025-06-12.
  7. Evans, Philip; Matsunaga, Hiroshi; Kiguchi, Makoto (2008). "Large-scale application of nanotechnology for wood protection" (PDF). Nature Nanotechnology. 3 (10). Springer Science and Business Media LLC: 577. doi: 10.1038/nnano.2008.286 . ISSN   1748-3387 . Retrieved 2025-06-09.
  8. Warburton, Nick (2024-10-15). "Super-black wood steals the limelight". IOM3. Retrieved 2025-06-09.
  9. Welle, Elissa (2024-11-30). "Meet Superblack Wood". Ambrook. Retrieved 2025-06-09.
  10. "Professor Philip D. Evans". Google Scholar. Retrieved 2025-06-09.
  11. Business, Ministry of Small (2009-03-17). "PROVINCE, UBC FINDING MORE WAYS TO USE, PROTECT WOOD (Reference#2009STED0013-000322)". Province of British Columbia News Archive. Retrieved 2025-06-09.{{cite web}}: |last= has generic name (help)
  12. Baas, Jeroen (2023), "Bibliometrics", October 2023 data-update for "Updated science-wide author databases of standardized citation indicators", vol. 6, Elsevier Data Repository, doi:10.17632/BTCHXKTZYW.6 , retrieved 2024-03-09
  13. Ioannidis, John P.A., August 2024 data-update for "Updated science-wide author databases of standardized citation indicators", Elsevier Data Repository, p. 1, doi:10.17632/BTCHXKTZYW.7 , retrieved 2025-06-09
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