Multicomponent reactions as a potent tool for the synthesis of benzodiazepines
Benzodiazepines (BZDs), a diverse class of benzofused seven-membered N-heterocycles,
display essential pharmacological properties and play vital roles in some biochemical …
display essential pharmacological properties and play vital roles in some biochemical …
Selective synthesis of butane from carbon monoxide using cascade electrolysis and thermocatalysis at ambient conditions
It is of interest to extend the reach of CO2 and CO electrochemistry to the synthesis of
products with molecular weights higher than the C1 and C2 seen in most prior reports …
products with molecular weights higher than the C1 and C2 seen in most prior reports …
One‐Pot Multicomponent Reaction: A Highly Versatile Strategy for the Construction of Valuable Nitrogen‐Containing Heterocycles
A large portion of the chemical subspace is the multi‐component reaction (MCR). Apart from
Domino reactions, MCR is one of the most promising routes for one‐pot synthesis. Thus …
Domino reactions, MCR is one of the most promising routes for one‐pot synthesis. Thus …
Microwave-assisted MgO NP catalyzed one-pot multicomponent synthesis of polysubstituted steroidal pyridines
The present study reports a highly efficient and green synthetic route for the synthesis of
steroidal pyridines. The synthetic methodology involves a microwave-assisted one-pot …
steroidal pyridines. The synthetic methodology involves a microwave-assisted one-pot …
Mesoporous Ni/MeOx (Me= Al, Mg, Ti, and Si): Highly efficient catalysts in the decomposition of methane for hydrogen production
The concurrent production of CO x-free hydrogen and multi-walled carbon filaments by
thermocatalytic decomposition of methane is advantageous in the environmental and …
thermocatalytic decomposition of methane is advantageous in the environmental and …
Immobilization of GOx Enzyme on SiO2-Coated Ni–Co Ferrite Nanocomposites as Magnetic Support and Their Antimicrobial and Photocatalytic Activities
The present study used a sol–gel auto-combustion approach to make silica (SiO2)-coated Ni–
Co ferrite nanocomposites that would be used as a platform for enzyme immobilization …
Co ferrite nanocomposites that would be used as a platform for enzyme immobilization …
A nickel nanoparticle engineered CoFe 2 O 4@ GO–Kryptofix 22 composite: A green and retrievable catalytic system for the synthesis of 1, 4-benzodiazepines in …
R Mozafari, M Ghadermazi - RSC advances, 2020 - pubs.rsc.org
A composite of Ni nanoparticles incorporated in Kryptofix 22 conjugated magnetic nano-
graphene oxide, CoFe2O4@ GO–K 22· Ni, was synthesized via the grafting of Kryptofix 22 …
graphene oxide, CoFe2O4@ GO–K 22· Ni, was synthesized via the grafting of Kryptofix 22 …
The role of green solvents and catalysts at the future of drug design and of synthesis
N Menges - Green Chem, 2017 - books.google.com
Green chemistry is getting extended in many researches and industry areas. Not only
pharmaceutical companies but also the other chemical industries started to take a step for …
pharmaceutical companies but also the other chemical industries started to take a step for …
Sulfonic acid functionalized covalent organic frameworks as efficient catalyst for the one-pot tandem reactions
K Gong, C Li, D Zhang, H Lu, Y Wang, H Li, H Zhang - Molecular Catalysis, 2022 - Elsevier
A covalent organic framework containing hydroxyl groups (HO-COF) has been predesigned
and synthesized by the cyclotrimerization reaction of acetyls, which was used as a pre …
and synthesized by the cyclotrimerization reaction of acetyls, which was used as a pre …
[HTML][HTML] Cu (II)/polyimide linked COF: An effective mesoporous catalyst for solvent-free 1, 5-benzodiazepine synthesis
S Pourghasem, F Moeinpour… - Arabian Journal of …, 2023 - Elsevier
Copper (II)@ polyimide linked covalent organic frameworks (Cu@ PI-COF) under solvent-
free and microwave assisted conditions have been used in an efficient one-pot protocol for …
free and microwave assisted conditions have been used in an efficient one-pot protocol for …