Tokyo University of Science (TUS)
@tus_pr_en
Tokyo University of Science is a private research university in Japan where scientists & engineers strive to solve global challenges. Related accounts: @TUS_PR
ID: 1379722143856881665
https://www.tus.ac.jp/en/ 07-04-2021 09:07:10
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Luminescent Hydride-Free [Cu7(SC5H9)7(PPh3)3] Nanocluster: Facilitating Highly Selective C–C Bond Formation | Journal of the American Chemical Society IISER Thiruvananthapuram IIT Indore Tokyo University of Science (TUS) #Luminescent #Cu #Nanocluster #CC #BondFormation pubs.acs.org/doi/10.1021/ja…
Highly Selective Separation of Benzene/Cyclohexane by Three-Dimensional Covalent Organic Framework with 8,8-Connected bcu Net Topology By Saikat Das, Teng Ben, Yuichi Negishi et al. Tokyo University of Science (TUS), Zhejiang Normal University Read the paper 👉 go.acs.org/afi
#TUS #researchers develop a new #green and #efficient method for #photoisomerization of E-alkenes to #ZAlkenes using a #RecyclingPhotoreactor in the latest J Org Chem/Org Lett study, paving the way for #sustainable synthesis of #pharmaceuticals. Read more here: ow.ly/iN2f50SNero
In an exciting study published in J. Am. Chem. Soc. researchers from Tokyo University of Science (TUS) identified XccOpgD, a key Xanthomonas bacteria enzyme, crucial for #pathogenicity in #crops. Read more here: ow.ly/YcSc50SP6Ma
In a new J Org Chem/Org Lett paper, #TUS #researchers utilized a #RecyclingPhotoreactor for #photoisomerization of E-alkenes to #ZAlkenes, representing an #efficient and #ecofriendly alternative method. For further details, visit TUS website: ow.ly/Ple350SNezx
In a J. Am. Chem. Soc. study, #TUS #researchers have developed #Bioinspired artificial #DoubleHelicalStructures that exhibit #ChiralSwitching and #ChiralAmplification, paving the way towards novel #Supramolecular systems. Read more: ow.ly/vc1p50STGt2
Researchers from Tokyo University of Science (TUS) uncover how Xanthomonas bacteria produce a crucial compound, CβG16α, using a unique enzyme mechanism. This discovery could lead to targeted treatments for plant diseases. Read more here: ow.ly/zPZV50SP6Yo
Novel #Bioinspired #DoubleHelicalStructures, exhibiting controllable #ChiralSwitching and #ChiralAmplification have been proposed by #TUS #researchers in the latest J. Am. Chem. Soc. article, with applications for #MolecularInformationProcessing. Learn more: ow.ly/xPTw50STGSR
A recent study from #TUS researcher published in 一般社団法人日本癌学会 reveals the role of #cytochrome 2J2 enzyme in #cytotoxicity displayed by austocystin D, a fungal-derived #anticancer compound. Read more: ow.ly/T0mL50T6lfy
In a new study published in Cancer Science 一般社団法人日本癌学会, #TUS researchers have elucidated the #anticancer mechanism of the #natural compound austocystin D and its correlation with cytochrome 2J2 #enzyme. Read more: ow.ly/CkSS50T9Coa