54821-03-3Relevant academic research and scientific papers
Facile and green preparation of colorimetric and fluorescent sensors for mercury, silver, and carbonate ions visual detecting: Spectroscopy and theoretical studies
Badiei, Alireza,Darroudi, Mahdieh,Ghasemi, Jahan B.,Mohammadi Ziarani, Ghodsi
, (2021)
Two new fluorescent and colorimetric chemosensors based on benzimidazole derivatives (A, B) have been successfully synthesized through a facile and green catalytic reaction of ortho-phenylenediamine (O-PDA) and two different aldehydes in the presence of S
1,2-Disubstituted Benzimidazoles by the Iron Catalyzed Cross-Dehydrogenative Coupling of Isomeric o-Phenylenediamine Substrates
Foss, Frank W.,Palacios, Philip M.,Pierce, Brad S.,Thapa, Pawan,Tran, Tam
, p. 1991 - 2009 (2020/03/13)
Benzimidazoles are common in nature, medicines, and materials. Numerous strategies for preparing 2-arylbenzimidazoles exist. In this work, 1,2-disubstituted benzimidazoles were prepared from various mono- and disubstituted ortho-phenylenediamines (OPD) by iron-catalyzed oxidative coupling. Specifically, O2 and FeCl3·6H2O catalyzed the cross-dehydrogenative coupling and aromatization of diarylmethyl and dialkyl benzimidazole precursors. N,N′-Disubstituted-OPD substrates were significantly more reactive than their N,N-disubstituted isomers, which appears to be relative to their propensity for complexation and charge transfer with Fe3+. The reaction also converted N-monosubstituted OPD substrates to 2-substituted benzimidazoles; however, electron-poor substrates produce 1,2-disubstituted benzimidazoles by intermolecular imino-transfer. Kinetic, reagent, and spectroscopic (UV-vis and EPR) studies suggest a mechanism involving metal-substrate complexation, charge transfer, and aerobic turnover, involving high-valent Fe(IV) intermediates. Overall, comparative strategies for the relatively sustainable and efficient synthesis of 1,2-disubstituted benzimidazoles are demonstrated.
Facile Synthesis of 1,2-Disubstituted Benzimidazoles Usingp-Toluenesulfonic Acid through Grinding Method
Kathing, C.,Nongkhlaw, R.,Nongrum, R.,Singh, N. G.,World Star Rani, J.
, p. 1628 - 1634 (2020/10/22)
Abstract: An efficient synthetic method for the highly selective synthesis ofpharmacologically active 1,2-disubstituted benzimidazole derivatives fromo-phenylenediamine and various aromaticaldehydes catalyzed by p-toluenesulfonic acidthrough grinding unde
Preparation method of 1, 2-substituted benzimidazole compound
-
Paragraph 0026-0028; 0031-0047, (2020/03/09)
The invention discloses a method for synthesizing a series of 1, 2-substituted benzimidazole compounds by using 1-butyl-3-methylimidazolium hexafluorophosphate ([BMIm] [PF6]) as a reaction medium andcarrying out condensation coupling reaction on o-phenyle
Natural dolomitic limestone-catalyzed synthesis of benzimidazoles, dihydropyrimidinones, and highly substituted pyridines under ultrasound irradiation
Godugu, Kumar,Gundala, Trivikram Reddy,Mohinuddin Pinjari, Mohammad Khaja,Reddy Nallagondu, Chinna Gangi,Sanapareddy, Lakshmi Reddy,Sri Yadala, Venkata Divya
supporting information, p. 1881 - 1900 (2020/10/02)
Natural dolomitic limestone (NDL) is employed as a heterogeneous green catalyst for the synthesis of medicinally valuable benzimidazoles, dihydropyrimidinones, and highly functionalized pyridines via C–N, C–C, and C–S bond formations in a mixture of ethan
Highly efficient chemoselective synthesis of 2-aryl-1-arylmethyl-1H-benzimidazoles by using TiCp2Cl2 catalyst
Halder, Samiran,Datta, Arup
, p. 1173 - 1178 (2021/02/09)
One pot highly efficient chemoselective N-arylmethyl benzimidazole has been prepared by using catalyst TiCp2Cl2 in tetrahydrofuran solvent smoothly. This method is very much effective for the condensation between different aldehydes
An organoantimony nitrate complex with azastibocine framework as water tolerant Lewis acid catalyst for the synthesis of 1,2-disubstitued benzimidazoles
Zhou, Cong,Lei, Jian,Liu, Yongping,Au, Chak-Tong,Chen, Yi,Yin, Shuang-Feng
, (2020/08/03)
A novel organoantimony complex of 6-cyclohexyl-6,7-dihydrodibenzo[c,f] [1,5]azastibocin-12(5H)-yl nitrate (2) was synthesized and systematically characterized by techniques such as NMR spectra, TG-DSC, and X-ray diffraction. It was found that the complex
Zirconium based porous coordination polymer (PCP) bearing organocatalytic ligand: A promising dual catalytic center for ultrasonic heterocycle synthesis
Panahi, Paria,Nouruzi, Nasrin,Doustkhah, Esmail,Mohtasham, Hamed,Ahadi, Arefeh,Ghiasi-Moaser, Azra,Rostamnia, Sadegh,Mahmoudi, Ghodrat,Khataee, Alireza
, (2019/07/12)
Herein, the efficient role of ultrasonic irradiation both in synthesis of Zr based porous coordination polymer (Zr-PCP) nanoparticles and boosting its catalytic activity, towards the benzimidazoles synthesis is represented. We use an amine based ligand (amino-terephthalate) for PCP and we exhibit that it can have a synergistic catalytic activity. In this work, a unique nano-engineering of cooperative and synergistic catalytic activity of zirconium, as a Lewis acid, and aminophenylene, as an organocatalyst, in the synthesis of heterocycles is presented for the synthesis of benzimidazole from cascade reaction of phenylene diamine with aldehyde at ambient temperature. Zr and amine groups of the Zr-PCP are active catalytic sites which in combination with the ultrasonic irradiation leads to a high selectivity and rapid catalytic production of benzylimidazoles. N2 adsorption-desorption along with BJH analyses confirm the microporosity of the catalyst and recyclability shows that the catalyst is green and sustainable heterogeneous microporous catalyst.
Synthesis of bis(indolyl)methanes under dry grinding conditions, promoted by a Lewis acid-surfactant-SiO2-combined nanocatalyst
Wu, Zhiqiang,Wang, Gang,Yuan, Shuo,Wu, Dan,Liu, Wanyi,Ma, Baojun,Bi, Shuxian,Zhan, Haijuan,Chen, Xiaoyan
supporting information, p. 3542 - 3546 (2019/07/10)
An in situ developed Lewis acid-surfactant-SiO2-combined (LASSC) nanocatalyst was used, for the first time, as a green and effective promoting medium for the electrophilic activation of aldehydes under solvent-free and dry grinding conditions. The advantages of using the LASSC nanocatalyst include avoiding the generation of wastewater containing sodium dodecyl sulfate and the use of toxic reagents, excellent reusability of the catalyst, and obtaining a high yield of bis(indolyl)methanes.
Synthesis and characterization of amino glucose-functionalized silica-coated NiFe2O4 nanoparticles: A heterogeneous, new and magnetically separable catalyst for the solvent-free synthesis of 2,4,5–trisubstituted imidazoles, benzo[d]imidazoles, benzo[d] oxazoles and azo-linked benzo[d]oxazoles
Fekri, Leila Zare,Nikpassand, Mohammad,Shariati, Shahab,Aghazadeh, Behnaz,Zarkeshvari, Reza,Norouz pour, Nahid
, p. 60 - 73 (2018/07/25)
Amino glucose-functionalized silica-coated NiFe2O4 nanoparticles (NiFe2O4@SiO2@amino glucose) were chemically synthesized and characterized by transmission electron microscope (TEM), X-ray diffraction (XRD), thermal gravimetric analysis (TGA), energy dispersive X-ray analysis (EDX), vibrating sample magnetometer (VSM), Zetasizer and Fourier transform infrared spectroscopy (FT-IR) instruments. NiFe2O4@SiO2@amino glucose supply an environmentally friendly procedure for the synthesis of 2,4,5-trisubstituted imidazoles through one-pot multicomponent condensation of benzil or benzoin, ammonium acetate with aryl aldehydes and for the synthesis of benzoxazoles using condensation reaction of 2-aminophenol with aryl aldehydes under solvent free condition. In the other study, this synthesized magnetically reusable catalyst was introduced as a new avenue for the synthesis of benzo[d]imidazoles using the reaction between aryl aldehydes and 1,2-diaminobenzene. These compounds were obtained in high yields and short reaction times. The catalyst could be easily recovered and reused for five cycles with almost consistent activity. Synthesized compounds were characterized by their physical constant, comparison with authentic samples, FT-IR, 1H NMR, 13C NMR spectroscopy and elemental analysis.
