Yves Gnanou Explained

Yves Gnanou
Nationality:French
Occupation:Chemist, academic and author
Education:M.S., Polymer Chemistry
Ph.D., Polymer Chemistry
Alma Mater:Université Louis Pasteur
Workplaces:King Abdullah University of Science and Technology

Yves Gnanou is a French chemist, academic and author. He is the Ibn Alhaytham Distinguished Professor of Chemistry at King Abdullah University of Science and Technology.[1]

Gnanou is most known for his works on chain polymerization mechanisms and the creation of diverse polymeric structures using synthesis methods. His research also extends to organocatalysis in polymerization, macromolecular engineering, functional polymers for biomedical uses, living chain polymerizations, polymeric nanoparticles and branched polymers. Among his authored works are his publications in academic journals, including Journal of the American Chemical Society (JACS), Angewandte Chemie, Progress in Polymer Science, Nature Communications, ChemSusChem and Macromolecules[2] as well as books such as Chimie et Physico-Chimie des Polymères[3] and Organic and Physical Chemistry of Polymers.[4] He received the 2003 Langevin Prize from the French Physical Society and the Berthelot Medal from the French Academy of Sciences.[5]

Education

Gnanou completed his M.S. in Polymer Chemistry from the Université Louis Pasteur. Later in 1985, he obtained a Ph.D. in Polymer Chemistry from the same institution.[1]

Career

From 1984 to 1991, Gnanou was a Scientist at the Centre National de la Recherche Scientifique. During this period, he also served as a Visiting Professor at the Massachusetts Institute of Technology from 1989 to 1990. In 1993 he was promoted to the Director of Research position at the Centre National de la Recherche Scientifique and was appointed in 1999 as a 1st Class Director of Research. From 2002 to 2007, he was a Courtesy Professor in the Department of Chemistry at the University of Florida. Since 2023, he has been serving as the Ibn Alhaytham Distinguished Professor of Chemistry at King Abdullah University of Science and Technology.[1]

In 2012, Gnanou joined King Abdullah University of Science and Technology (KAUST) as the Dean of the Division of Physical Science and Engineering until 2018. He was then promoted to the Vice President for Academic Affairs position from 2018 to 2021.[6]

Research

Gnanou's research portfolio includes articles and books covering areas such as living/controlled chain polymerization, metal-free chemical synthesis, and macromolecular engineering. In 2000, he co-authored a paper in JACS, wherein he investigated the controlled radical polymerization of styrene and n-butyl acrylate using an acyclic β-phosphonylated nitroxide as moderator, examining kinetics, equilibrium, and rate constants, reaching a pseudo-stationary state, and comparing experimental results with PREDICI software simulations.[7] His 2005 study on macromolecular engineering reviewed recent advancements in the synthesis, stabilization, and biomedical applications of copolymer-based nanomaterials, emphasizing the self-assembly of block copolymers and the development of environmentally responsive 'smart materials'.[8] He contributed to the field of organocatalysis with a paper published in 2013, wherein he reviewed the roles of N-heterocyclic carbenes (NHCs) in molecular and polymer chemistry, highlighting their electronic properties, synthesis methods, functional group activation, and their application in metal-free polymer synthesis and as structural components in polymer chains.[9]

In 2016, Gnanou disclosed a method using a binary system associating triethyl borane with onium salts for efficient synthesis of polycarbonate polyols from CO2 and epoxides, highlighting high selectivity, productivity, and potential for cost-effective large-scale production.[10] In 2017, he and his co-authors discussed advancements in synthesizing complex macromolecular architectures in polymers using controlled/living polymerization techniques in a review paper. They emphasized the impact of these advancements on polymer physical chemistry, applications, and the inspiration drawn from natural non-covalent chemistry for future developments.[11] Later in 2023, he designed borinane-based bifunctional catalysts with remarkably high activity that could be used in the presence of transfer agents for the same purpose of polycarbonate synthesis.[12]

Gnanou has also authored several books. His 2007 textbooks are titled Chimie et Physico-Chimie des Polymères[3] and Organic and Physical Chemistry of Polymers.[4] Moreover, in 2022, he co-edited the second edition of Macromolecular Engineering: From Precise Synthesis to Macroscopic Materials and Applications. The book covered macromolecular engineering, focusing on the design, synthesis, characterization, and optimization of macromolecules, along with recent advances and applications in the field.[13]

Awards and honors

Bibliography

Books

Selected articles

Notes and References

  1. Web site: Faculty | King Abdullah University. KAUST.
  2. Web site: Yves Gnanou. scholar.google.com.
  3. Web site: CHIMIE ET PHYSICO-CHIMIE DES POLYMERES | WorldCat.org. search.worldcat.org.
  4. Web site: Organic and Physical Chemistry of Polymers.
  5. Web site: Berthelot Medal. KAUST PORTAL FOR RESEARCHERS AND STUDENTS.
  6. Web site: Center for Energy Initiatives. 17 July 2014 .
  7. Kinetics and Mechanism of Controlled Free-Radical Polymerization of Styrene and n-Butyl Acrylate in the Presence of an Acyclic β-Phosphonylated Nitroxide. 2000 . 10.1021/ja991735a . Benoit . Didier . Grimaldi . Sandra . Robin . Sophie . Finet . Jean-Pierre . Tordo . Paul . Gnanou . Yves . Journal of the American Chemical Society . 122 . 25 . 5929–5939 .
  8. Toward 'smart' nano-objects by self-assembly of block copolymers in solution. Progress in Polymer Science . July 2005 . 30 . 7 . 691–724 . 10.1016/j.progpolymsci.2005.04.002 . Rodríguez-Hernández . J. . Chécot . F. . Gnanou . Y. . Lecommandoux . S. .
  9. N-Heterocyclic carbenes (NHCs) as organocatalysts and structural components in metal-free polymer synthesis. 2013 . 10.1039/C2CS35383K . Fèvre . Maréva . Pinaud . Julien . Gnanou . Yves . Vignolle . Joan . Taton . Daniel . Chemical Society Reviews . 42 . 5 . 2142–2172 . 23288304 .
  10. Metal-Free Alternating Copolymerization of CO2 with Epoxides: Fulfilling "Green" Synthesis and Activity. 2016 . 10.1021/jacs.6b06679 . Zhang . Dongyue . Boopathi . Senthil K. . Hadjichristidis . Nikos . Gnanou . Yves . Feng . Xiaoshuang . Journal of the American Chemical Society . 138 . 35 . 11117–11120 . 27529725 .
  11. 50th Anniversary Perspective: Polymers with Complex Architectures. 2017 . 10.1021/acs.macromol.6b02569 . Polymeropoulos . George . Zapsas . George . Ntetsikas . Konstantinos . Bilalis . Panayiotis . Gnanou . Yves . Hadjichristidis . Nikos . Macromolecules . 50 . 4 . 1253–1290 . 2017MaMol..50.1253P .
  12. Ultra-Productive Upcycling CO2 into Polycarbonate Polyols via Borinane-Based Bifunctional Organocatalysts. 2023 . 10.1021/acs.macromol.2c02243 . Chen . Chao . Gnanou . Yves . Feng . Xiaoshuang . Macromolecules . 56 . 3 . 892–898 . 2023MaMol..56..892C . 10754/687294 . free .
  13. Web site: Macromolecular Engineering: From Precise Synthesis to Macroscopic Materials and Applications.
  14. Web site: Elected as a Member of the French Academy of Agriculture.