114460-94-5Relevant articles and documents
Application of Biosynthesized CuO Nanoparticles Using Rosa canina Fruit Extract as a Recyclable and Heterogeneous Nanocatalyst for Alkyne/Aldehyde/Amine A3 Coupling Reactions
Hekmati, Malak
, p. 2325 - 2331 (2019)
Abstract: Copper oxide (CuO) nanoparticles (NPs) were prepared through a biological procedure where the Rosa canina fruit extract was used as a capper and reductant agent. For the three-component reaction of amines, aldehydes and alkynes (A3 coupling), these CuO NPs were used as an effective heterogeneous nanocatalyst. Various propargylamines were obtained in a good yield. Additionally, the reuse and separation of CuO NPs was extremely effective, economical and simple. Graphical Abstract: [Figure not available: see fulltext.].
Porous triazine polymer: A novel catalyst for the three-component reaction
Nouruzi, Nasrin,Dinari, Mohammad,Mokhtari, Nazanin,Gholipour, Behnam,Rostamnia, Sadegh,Khaksar, Samad,Boluki, Rana
, (2020)
A new porous triazine-based covalent organic polymer (Triazine-COP) was prepared through the Schiff-base condensation of 2,4,6-tris(4-formyl phenoxy)-1,3,5-triazine and 4,4′-oxydianiline, under sonication. The synthesized Triazine-COP with a high surface
In situ supported of silver nanoparticles on Thymbra spicata extract coated magnetic nanoparticles under the ultrasonic condition: Its catalytic activity in the synthesis of Propargylamines and their anti-human colorectal properties in the in vitro condit
Alharbi, Sulaiman Ali,Alrashood, Sara T.,Chinnathambi, Arunachalam,Guo, Junliang,Tang, Tian,Xia, Qingjie,Zhang, Jie
, (2021)
This work describes an eco-friendly approach for in situ immobilization of Ag nanoparticles on the surface of Fe3O4 nanoparticles, with the help of Thymbra spicata extract and ultrasound irradiations, without using any toxic reducing
Amino acid-assisted ferrite/MOF composite formation for visible-light induced photocatalytic cascade C=C aerobic oxidative cleavage functionalization
Al-Mubaddel, Fahad S.,Gavinehroudi, Reza Ghahremani,Heydari, Akbar,Karimi, Meghdad,Mahjoub, Alireza,Marzouki, Riadh,Mohebali, Haleh,Ouni, M. H. El,Sadeghi, Samira
, (2021/11/16)
Due to their high variability and extraordinary features, the MOF-based nanomaterials are regarded as promising photocatalysts in organic reactions. In this study, the magnetic Co-MOF-based nanocomposite (denoted by Cys-CoFe/HK) was prepared through a facile sonochemical method. The composite design was based on the integration and synergy of the desired properties of the components, i.e., optical properties of the magnetic substrate and its separation capability, desirability of metal-organic framework to promote A3-coupling reaction, and use of cysteine ??amino acid as a natural modifier to modify nanoparticles and make an efficient charge transfer. The information about their structural features was obtained using various characterization methods. In addition to the high photocatalytic activity of the developed composite in the aerobic oxidative propargylic functionalization of styrene under visible light illumination, the composite showed a high capability to interact with a wide range of amines, styrene, and terminal alkynes as participants in A3-coupling reaction. Furthermore, the developed catalyst demonstrated high accessibility of active sites, reusability, and magnetic properties, which accelerated the efficiency of the A3-coupling reaction. Moreover, the mechanistic investigations, including trapping experiments, confirmed the presence of superoxide radical (O2●[sbnd]) and holes (h+) as essential species to perform the considered reaction. Our methodical approach to the fabrication of Cys-CoFe/HK composite provided optimal conditions for improving previous studies and thus the industrial processes in environmentally sensitive areas.
Investigation into the Catalytic Performance of Cu(II) Supported Graphene Quantum Dots Modified NiFe2O4 as a Proficient Nano-Catalyst in the Synthesis of Propargylasmines
Monajjemifar, Soudabeh,Moeinpour, Farid,Mohseni-Shahri, Fatemeh S.
, p. 1444 - 1455 (2020/10/02)
Abstract: NiFe2O4 nanoparticles are modified by graphene quantum dots (GQDs) and utilized to stabilize the Cu(II) nanoparticles as a novel magnetically retrievable catalytic system (Cu(II)/GQDs/NiFe2O4) for gree