52692-17-8Relevant academic research and scientific papers
Diarylmethane compounds as well as preparation method and application thereof
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Paragraph 0139; 0143-0148; 0227-0232, (2019/08/20)
The invention discloses diarylmethane compounds as well as a preparation method and application thereof. The diarylmethane compounds have a molecular structural general formula as defined by a generalformula (I) in the description. The preparation method of the diarylmethane compounds comprises the steps of adding a benzyl halogenated hydrocarbon compound A and an arylboronic acid B into a reaction system containing an organic small-molecular catalyst, an alkali reagent and a solvent, and performing a reaction to prepare the compounds. The diarylmethane compounds provided by the invention contain electron withdrawing groups and an electron-donating group substituted diarylmethane basic structure, and can be widely used for synthesis of pharmaceutical intermediates, particularly polysubstituted methane compounds, and preparation of functional materials; and the preparation method has a simple process and low requirements for reaction conditions, the reaction process is safe and controllable, the atomic utilization rate and production efficiency are high, the regioselectivity and stereoselectivity of the products are efficiently ensured, a frontier science small-molecule organocatalysis concept is introduced, and the method is friendly to the environment.
Cross coupling of benzylammonium salts with boronic acids using a well-defined N-heterocyclic carbene-palladium(ii) precatalyst
Wang, Tao,Guo, Jiarui,Wang, Xiaojuan,Guo, Han,Jia, Dingli,Wang, Hengjin,Liu, Lantao
, p. 5738 - 5741 (2019/03/02)
N-heterocyclic carbene-palladium(ii)-catalyzed cross-coupling of benzylammonium salts with arylboronic acids for the synthesis of diarylmethane derivatives via C-N bond activation has been developed. Notably, in the presence of the easily prepared and bench-stable Pd-PEPPSI precatalyst, the Csp3-N bond activation of the benzylammonium salt even proceeded smoothly in isopropanol at room temperature.
Cross-Coupling of Phenol Derivatives with Umpolung Aldehydes Catalyzed by Nickel
Lv, Leiyang,Zhu, Dianhu,Tang, Jianting,Qiu, Zihang,Li, Chen-Chen,Gao, Jian,Li, Chao-Jun
, p. 4622 - 4627 (2018/05/22)
A nickel-catalyzed cross-coupling to construct the C(sp2)-C(sp3) bond was developed from two sustainable biomass-based feedstocks: phenol derivatives with umpolung aldehydes. This strategy features the in situ generation of moisture/air-stable hydrazones from naturally abundant aldehydes, which act as alkyl nucleophiles under catalysis to couple with readily available phenol derivatives. The avoidance of using both halides as the electrophiles and organometallic or organoboron reagents (also derived from halides) as the nucleophiles makes this method more sustainable. Water tolerance, great functional group (ketone, ester, free amine, amide, etc.) compatibility, and late-stage elaboration of complex biological molecules exemplified its practicability and unique chemoselectivity over organometallic reagents.
Chlorotrimethylsilane and Sodium Iodide: A Remarkable Metal-Free Association for the Desulfurization of Benzylic Dithioketals under Mild Conditions
Zhao, Guangkuan,Yuan, Ling-Zhi,Alami, Mouad,Provot, Olivier
, p. 2522 - 2536 (2018/05/14)
A novel metal-free process allowing the reductive desulfurization of various benzylic dithioketals to afford diarylmethane and benzylester derivatives with good to excellent yields is reported. At room temperature, this mild reduction process requires only the use of TMSCl and NaI in CH2Cl2 and tolerates a large variety of functional groups. (Figure presented.).
Extremely efficient cross-coupling of benzylic halides with aryltitanium tris(isopropoxide) catalyzed by low loadings of a simple palladium(II) acctate/Tris(p-tolyl)phosphine system
Chen, Chi-Ren,Zhou, Shuangliu,Biradar, Deepak Baburao,Gau, Han-Mou
experimental part, p. 1718 - 1727 (2010/09/18)
Highly efficient coupling reactions of benzylic bromides or chlorides with aryltitanium tris(isopropoxide) [ArTi(O-i-Pr)3] catalyzed by a simple palladium(II) Acctate/tris(p-tolyl)phosphine [Pd(OAc)2/ P(p-tolyl)3] system are reported. The coupling reactions proceed in general at room temperature employing low catalyst loadings of 0.02 to 0.2 mol%, affording coupling products in excellent yields of up to 99%. For benzylic bromides bearing strong electronwithdrawing cyano (CN) or trifluoromethyl (CF 3) substituents, the reactions require a higher catalyst loading of 1 mol%, or the reactions are carried out at 60°C. The catalytic system also tolerates (1-bromoethyl)benzene bearing β-hydrogen atoms while using a catalyst loading of 1 mol% to afford the coupling product in a 70% yield.
Palladium-catalyzed synthesis of diarylmethanes: Exploitation of carbanionic leaving groups
Schmink, Jason R.,Leadbeater, Nicholas E.
supporting information; experimental part, p. 2575 - 2578 (2009/10/02)
A novel route to the synthesis of diarylmethanes via a Pd-catalyzed α-arylation of benzyl ketones is rseported. By harnessing the inherent reactivity of enolates, it is possible to circumvent the need for a transmetalating reagent such as boron for the co
Cannabinoid derivatives, methods of making, and use thereof
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Page 20; Sheet 5 of 13, (2010/02/09)
1′-substituted cannabinoid derivatives of delta-8-tetrahydrocannabinol, delta-9-tetrahydrocannabinol, and delta-6a-10a-tetrahydrocannabinol that have affinity for the cannabinoid receptor type-1 (CB-1) and/or cannabinoid receptor type-2 (CB-2). Compounds
Synthesis and testing of novel phenyl substituted side-chain analogues of classical cannabinoids
Krishnamurthy, Mathangi,Ferreira, Antonio M.,Moore II, Bob M.
, p. 3487 - 3490 (2007/10/03)
A series of novel phenyl substituted side-chain analogues of classical cannabinoids were synthesized and their CB1 and CB2 binding affinities were evaluated relative to Δ8-THC and compound 2. CB1 and CB2 binding assays indicate that the dimethy
