Jaroslaw Drelich Explained

Jaroslaw Drelich
Birth Date:1957
Birth Place:Poland
Field:Applied surface chemistry
Surface science
Wetting phenomena
Materials recycling
Work Institutions:Michigan Tech
University of Alberta
Alma Mater:Gdańsk University of Technology (BS)
Gdańsk University of Technology (MS)
University of Utah (PhD)
Doctoral Advisor:Jan D. Miller
Footnotes:Editor-in-chief of Surface Innovations

Jarosław Drelich (1957) is a Polish-born surface engineer and professor of materials science at Michigan Technological University (Houghton, Michigan). He also holds an adjunct professorship in the department of Chemical and Materials Engineering at the University of Alberta (Alberta, Canada). He is known primarily for his contributions to the field of wetting phenomena, which include the effect of drop/bubble size on apparent contact angle on a rough surface,[1] in addition to fundamental work on structured hydrophilic/hydrophobic alternating surfaces.[2]

Drelich has authored more than 130 scientific papers and 8 patents., he has an h-index of 25 and according to Google Scholar, his articles have been cited over 2100 times. Drelich is a member of the External Advisory Board for the Journal of Adhesion Science and Technology and founding editor-in-chief of the journal Surface Innovations.

Professional service

Professionally, Drelich is active in both The Minerals, Metals & Materials Society and the Society for Mining, Metallurgy, and Exploration. He has chaired, co-chaired, and developed many symposia for these organizations' meetings in addition to providing service to many of the technical divisions and committees..

References

  1. J Drelich . JD Miller . RJ Good . 1996 . The effect of drop (bubble) size on advancing and receding contact angles for heterogeneous and rough solid surfaces as observed with sessile-drop and captive-bubble techniques . Journal of Colloid and Interface Science . 179 . 1 . 37–50 . 10.1006/jcis.1996.0186 . 1996JCIS..179...37D .
  2. . 1996 . Contact angles for liquid drops at a model heterogeneous surface consisting of alternating and parallel hydrophobic/hydrophilic strips . Langmuir . 12 . 7 . 1913–1922 . 10.1021/la9509763.