623-26-7Relevant articles and documents
Solvent effects in simple fast electron transfer reactions
Winkler, Krzysztof,Baranski, Andrzej S.,Fawcett, W. Ronald
, p. 3899 - 3904 (1996)
The kinetics of the one-electron reduction of p-dicyanobenzene and the oxidation of nickelocene have been studied by ac voltammetry in different aprotic solvents at mercury and platinum ultramicroelectrodes. The observed electron transfer rate constants have been corrected for the double-layer effect. The solvent dependences of the electron transfer rate constants and activation enthalpy are interpreted within the context of contemporary theory. The charge transfer process was found to be perfectly adiabatic for both studied systems. Solvent dynamic and Gibbs activation energy effects on the rate constants were also investigated.
The self-assembly and metal adatom coordination of a linear bis-tetrazole ligand on Ag(111)
Knecht, Peter,Suryadevara, Nithin,Zhang, Bodong,Reichert, Joachim,Ruben, Mario,Barth, Johannes V.,Klyatskaya, Svetlana,Papageorgiou, Anthoula C.
, p. 10072 - 10075 (2018)
We employ a linear linker molecule consisting of a benzene functionalised with two tetrazole moieties at para positions. Its self-assembly and coordination with the native silver adatoms and codeposited Fe adatoms on a Ag(111) surface under ultra high vacuum conditions are investigated by means of scanning tunnelling microscopy and X-ray photoelectron spectroscopy. We discover a rich spectrum of room-temperature stable Ag and Fe2+ coordination nodes depending on the formation temperature.
Synthesis, Biological Activity, and Molecular Docking Assessment of Some New Sulfonylated Tetrazole Derivatives
Arshad,Khan,Nami
, p. 1851 - 1858 (2019)
The designed molecular structures have been subjected to computational analysis for calculating their physicochemical properties and drug likeness. The calculated data indicate that most of the compound possess the bioactivity score in the active zone. Synthetic approach to the target compounds is straightforward and easy to handle. Structures of the new compounds are supported by FT-IR, 1H, and 13C NMR, and mass spectra. Antimicrobial tests of the products against pathogens (S. aureus, S. epidermidis, E. coli, and P. mirabilis) indicate the products as active or highly active. Their cyto-toxicity is determined to be 92–98% at concentration of 3.125 μmol/L. The molecular docking analysis carried out for the target compounds against the receptor Glc-N-6P exhibits low binding energy and various binding sites of those.
Synthesis, Characterization, and Catalytic Study of Caffeine-Derived N-heterocyclic Carbene Palladium Complexes
Chen, Haiqun,Huynh, Han Vinh,Liu, Ziwei,Lu, Yuchen,Meng, Qi,Teng, Qiaoqiao,Yuan, Dan,Zhao, Yaru
, p. 161 - 168 (2022/02/07)
Homo- and heterodicarbene palladium complexes bearing caffeine-derived N-heterocyclic carbene ligands were synthesized and fully characterized by NMR spectroscopy, mass spectrometry, and X-ray diffraction analysis. The superior acidity of the alkylated ca
An easily fabricated palladium nanocatalyst on magnetic biochar for Suzuki-Miyaura and aryl halide cyanation reactions
Akay, Sema,Baran, Talat,Kalderis, Dimitrios,Kayan, Berkant,Tsubota, Toshiki,Turun?, Ersan
, p. 12519 - 12527 (2021/07/25)
Biochar is a carbon-rich solid, the surface of which is covered with a high density of functional carbonyl, hydroxyl and carboxylic acid groups. In this work, palladium nanoparticles were embedded on magnetic biochar and a new reusable and environmentally-friendly catalyst was developed and applied for the promotion of Suzuki-Miyaura C-C coupling and cyanation reactions. The high-carbon (77%), low-ash content (5.8%) and the relatively high surface area (266 m2g?1) of pine tree biochar (PTB) suggested that it might be highly suitable as a catalyst substrate. The Fe3O4-Pd-biochar nanocomposite was successfully characterized using SEM, TEM, EDX, FT-IR, BET and XRD. Its catalytic role was initially evaluated usingp-NO2C6H4I as a model reactant (for both types of reactions) and later for the production of biaryls and benzonitriles from a wide range of aryl halides under mild reaction conditions. Biaryls and benzonitriles were characterized using GC-MS. In the case of the Suzuki-Miyaura reaction, the optimum yield of 98% was obtained with a catalyst concentration of 0.04 mol%, microwave irradiation of 400 W, and a residence time of 5 min, using K2CO3as the base. With respect to the cyanation reaction, dimethylformamide, Na2CO3and 6 h were the optimum solvent, base and reaction duration, respectively. Subsequently, the nanocatalyst showed excellent catalytic activity in both reactions, achieving >88% yields in most cases, regardless of the aryl iodide or bromide used and the type of substitution.