898790-41-5Relevant academic research and scientific papers
Ligand-tuned cobalt-containing coordination polymers and applications in water
Tao, Rong,Yang, Yike,Zhu, Haiyan,Hu, Xinyu,Wang, Dawei
supporting information, p. 8452 - 8461 (2020/12/29)
Ligands play a key role in modern catalysis research and occasionally determine whether a reaction will take place under specific conditions, such as in water. In this experiment, ligands containing an indole-based diacid moiety were employed to prepare the corresponding cobalt coordination polymer material (Co-CIA) and porous oval polymer material (Co-NCIA). Interestingly, it was observed that Co-CIA could promote the alkylation of ketones with alcohols and alcohols with alcohols, while Co-NCIA was effective for the synthesis of 1-benzyl-2-aryl-1H-benzo[d]imidazoles from various phenylenediamine and benzyl alcohols through borrowing hydrogen and dehydrogenation strategies. Other mechanism explorations, such as deuterium labeling experiments and a kinetics study, were conducted to better understand Co-CIA and Co-NCIA systems and the related transformations. Our studies provided an efficient method for the development of highly active cobalt coordination polymer materials with excellent recovery performance for dehydrogenation and borrowing hydrogen reactions under water and base-free conditions.
Design and Synthesis of Zirconium-Containing Coordination Polymer Based on Unsymmetric Indolyl Dicarboxylic Acid and Catalytic Application on Borrowing Hydrogen Reaction
Hu, Xinyu,Zhu, Haiyan,Sang, Xinxin,Wang, Dawei
supporting information, p. 4293 - 4300 (2018/10/02)
Catalytic borrowing hydrogen reaction is a very attractive transformation in the field of C-alkylation reaction. In this work, a new Zr (Zirconium)-containing coordination polymer containing unsymmetric indolyl dicarboxylic acid 1-(carboxymethyl)-1H-indole-5-carboxylic acid (H2CIA) was synthesized by the way of a solvothermal synthetic route and characterized by powder X-ray diffraction (XRD), scanning electron microscopy (SEM), transmission electron microscopy (TEM), Nitrogen adsorption-desorption, fourier transform infrared spectroscopy and X-ray photoelectronic spectroscopy (XPS). The coordination polymer Zr-CIA was employed as the catalyst for C-alkylation of acetophenone derivatives in the presence of benzyl alcohol. In addition, Zr-CIA catalyst was also observed to be effective in the reaction of alcohols with alcohols and high yields of alkylation products were achieved. Mechanism investigations were also conducted to better understand the catalysts and transformations. Meanwhile, the Zr-CIA could be reused at least five times without a notable decrease in activity and selectivity. (Figure presented.).
Method for preparing substituted ketone compound through oxidization, dehydration and alkylation of secondary alcohol
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Paragraph 0052-0055, (2017/02/24)
The invention discloses a method for preparing a substituted ketone compound through oxidization, dehydration and alkylation of secondary alcohol, and by means of the green synthetic method, substituted ketones are prepared from primary alcohol and the secondary alcohol through a dehydration C-alkylation-oxidization cascade reaction with the existence of alkali but without a transitional metal catalyst. According to the method, the alcohols which are low in price, easy to obtain, wide in source, stable and low in toxicity are used as alkylation reagent, common base metal inorganic base is used as an additive, methylbenzene is used as solvent, air is economical and safe oxidant, and the corresponding substituted ketone compound with secondary alcohol beta alkylated is directly synthesized through the dehydration C-alkylation-oxidization cascade reaction. The reaction method and condition are simple, no transitional metal catalyst is need, no inert gas protection is needed, the method is easy to operate, the by-product is water, compared with a precious metal catalyst, the inorganic base which is used is low in price and easy to obtain and can be removed conveniently through washing, and no heavy metal residue exists in the final product. Therefore, the method is wide in application scope and has certain research and industrial application prospect.
Double arylation of allyl alcohol via a one-pot heck arylation- isomerization-acylation cascade
Colbon, Paul,Ruan, Jiwu,Purdie, Mark,Mulholland, Keith,Xiao, Jianliang
, p. 5456 - 5459 (2011/12/05)
A one-pot, two-step catalytic protocol has been developed. A regioselective Heck coupling between aryl bromides and allyl alcohol leads to the generation of arylated allyl alcohols that in situ isomerize to give aldehydes, which then undergo an acylation reaction with a second aryl bromide. A variety of aryl bromides can be employed in both the initial Heck reaction and the acylation, providing easy access to a wide variety of substituted dihydrochalcones.
Effect of methyl substitution on the intramolecular triplet deactivation of p-methoxy-β-phenylpropiophenone
Boch, R.,Bohne, C,Netto-Ferreira, J. C.,Scaiano, J. C.
, p. 2053 - 2058 (2007/10/02)
The photochemistry of several methyl-substituted p-methoxy-β-phenylpropiophenones (1-5) has been examined by nanosecond laser photolysis using 337-nm laser excitation.The ketone triplets decay by intramolecular β-aryl quenching of the carbonyl in a well-k
