Sort by
Refine Your Search
-
% of working hours, to contribute to the academic mission of the institution. Skills in the use of artificial intelligence to design new materials will be appreciated, particularly in the context of optimizing
-
About UM6P: Mohammed VI Polytechnic University (UM6P) is a highly respected higher education institution located in the Green City of Benguerir, with a mission to promote education, training, and
-
Of Waterloo (Waterloo) – Dr. Yuning Li (Department of Chemical Engineering, Waterloo Institute for Nanotechnology). Program Details: UM6P will be the administrative body for the program, where candidates will
-
Location: Mohammed VI Polytechnic University (UM6P) Duration: [12–24 months, renewable based on performance] Start Date: 01-09-2025 Field: Catalysis,separation Chemical Engineering About UM6P
-
biochemical reactions to scale-up and validation of process engineering. CBS projects aim at an in-depth understanding of the molecular mechanisms of all transformations in order to propose new original
-
Mohammed VI Polytechnic University is an institution dedicated to research and innovation in Africa and aims to position itself among world-renowned universities in its fields The University is
-
biochemical reactions to scale-up and validation of process engineering. CBS projects aim at an in-depth understanding of the molecular mechanisms of all transformations in order to propose new original
-
Green City, Mohammed VI Polytechnic University aspires to leave its mark nationally, continentally, and globally. About IART and ACER: The Institute of Applied Research & Technology, IART, is an applied R
-
Location: Ben Guerir Position Type: Postdoctoral Research Mohammed VI Polytechnic University is an institution dedicated to research and innovation in Africa and aims to position itself among world
-
: Chemistry with its main chemical engineering component, chemo-biology and treatments and their applications in industries. CBS-GPE projects aim to achieve an in-depth understanding of the molecular mechanisms