|Academic Profile |
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Prof Rei Kinjo
Professor, School of Physical & Mathematical Sciences - Division of Chemistry & Biological Chemistry
|Rei KINJO was born in Okinawa, Japan in 1979. He received B.S. (2002), M.S. (2004), and Ph.D. (2007) degrees from Department of Chemistry, University of Tsukuba under the guidance of Prof. Akira SEKIGUCHI. During that time, he was a Young Research Fellow of JSPS (2005-2007). After completion of his PhD study, he served as an Postdoctoral at the University of California, Riverside since 2007 until 2011 November. During that time, he was a Postdoctoral Fellow for Research Abroad of JSPS (2008-2010). In 2011 July, he moved to Nanyang Technological University, Singapore, and has started his research group as Nanyang Assistant Professor. He has been awarded UBE Industries Award from Society of Synthetic Organic Chemistry of Japan (2011) and Inoue Research Award for Young Scientists (2010) for his excellence in main group chemistry.|
|Our research principally focuses on the development of novel molecules containing p-block elements (especially boron, carbon, silicon and phosphorus), and it spans the fields among inorganic, organometallic chemistry, and homogeneous catalysis. By taking advantage of characteristic properties of p-block elements, we design and synthesize fundamentally significant compounds featuring unique bonds and structures. Since the peculiar design of our molecules gives rise to original properties, they will have important applications such as building blocks, and ligands for transition metal complexes. Our research directions are outlined as follows:
NOVEL BONDING AND STRUCTURAL PARADIGMS
We search for new types of bonding and structural paradigms. In particular, multiply bonded compounds including boron as well as heavier main group elements have potentials to be useful synthetic building blocks to produce totally new inorganic compounds, just like alkenes and alkynes in organic synthesis. Our approach will allow for the preparation of new materials previously inaccessible by conventional methods.
STABLE VERSION OF TRANSIENT SPECIES
Reactive intermediates have proven to play a central role in fundamental research. We develop isolable low valent elements which are supposed to be only transient intermediates, such as borylenes, vinylidenes, nitrenes, radicals, heterocycles, and their heavier group elements analogues. We will utilize some of them as ligands for transition metal complexes, thus, the project targets the development of new catalysts.
One of the significant targets in our projects is to establish mild catalytic systems to produce industrially important chemical compounds from simple abundant molecule such as hydrogen, alkanes, ammonia, which would address current world-wide issues such as energy conservation and environmental impact.
- Development Of Isolable Borylene Derivatives and Their Application
- Development of Boron-Based Nucleophilic Ligands and Their Applications in the Catalytic Hydroamination with Ammonia and Parent Hydrazine
- Development of Low-Valent Organoboranes for Nitrogen Fixation and Transformation
- Development of Organo-Bismuth Catalysts for Dehydrogenation from Ammonia Borane
- Hybrid Benzene for Catalytic Transformation of Small Molecules
- Metal-Free Catalytic Functionalization of Pyridines
- Metal-Free Catalytic Transformation of Carbon Dioxide
- Metal-free Activation and Valorization of Small Molecules by p-Block Molecules
- NAP Grant (Seed Funding) - Development of Isolable Borylene Derivatives and their Application
- Bin Rao, Che Chang Chong, Rei Kinjo. (2018). Metal-Free Regio- and Chemoselective Hydroboration of Pyridines Catalyzed by 1,3,2-Diazaphosphenium Triflate. Journal of the American Chemical Society, 140(2), 652-656.
- Che Chang Chong, Bin Rao, Rei Kinjo. (2017). Metal-Free Catalytic Reduction of α,β-Unsaturated Esters by 1,3,2- Diazaphospholene and Subsequent C−C Coupling with Nitriles. ACS Catalysis, 7, 5814−5819.
- Che Chang Chong, Bin Rao, Rakesh Ganguly, Yongxin Li, Rei Kinjo. (2017). Bis(N-heterocyclic olefin) Derivative: An Efficient Precursor for Isophosphindolylium Species. Inorganic Chemistry, 56, 8608–8614.
- Che Chang Chong, Rakesh Ganguly, Yongxin Li, Rei Kinjo. (2016). Isolation of Phosphinoimino-2-imidazoline. Zeitschrift für anorganische und allgemeine Chemie, .
- Che Chang Chong, Rei Kinjo. (2015). Hydrophosphination of CO2 and Subsequent Formate Transfer in the 1,3,2-Diazaphospholene-Catalyzed N-Formylation of Amines. Angewandte Chemie International Edition, 54, 12116-12120.