Category: 86-29-3

Weber, S; Veiros, LF; Kirchner, K in [Weber, Stefan; Kirchner, Karl] Vienna Univ Technol, Inst Appl Synthet Chem, Getreidemarkt 9-163-AC, A-1060 Vienna, Austria; [Veiros, Luis F.] Univ Lisbon, Inst Super Tecn, Ctr Quim Estrutural, Av Rovisco Pais 1, P-1049001 Lisbon, Portugal published Old Concepts, New Application – Additive-Free Hydrogenation of Nitriles Catalyzed by an Air Stable Alkyl Mn(I) Complex in 2019, Cited 56. Formula: C14H11N. The Name is 2,2-Diphenylacetonitrile. Through research, I have a further understanding and discovery of 86-29-3.

An efficient additive-free manganese-catalyzed hydrogenation of nitriles to primary amines with molecular hydrogen is described. The pre-catalyst, a well-defined bench-stable alkyl bisphosphine Mn(I) complex fac-[Mn(dpre)(CO)(3)(CH3)] (dpre=1,2-bis(di-n-propylphosphino)ethane), undergoes CO migratory insertion into the manganese-alkyl bond to form acyl complexes which upon hydrogenolysis yields the active coordinatively unsaturated Mn(I) hydride catalyst [Mn(dpre)(CO)(2)(H)]. A range of aromatic and aliphatic nitriles were efficiently and selectively converted into primary amines in good to excellent yields. The hydrogenation of nitriles proceeds at 100 degrees C with a catalyst loading of 2 mol % and a hydrogen pressure of 50 bar. Mechanistic insights are provided by means of DFT calculations.

About 2,2-Diphenylacetonitrile, If you have any questions, you can contact Weber, S; Veiros, LF; Kirchner, K or concate me.. Formula: C14H11N

Reference:
Benzodioxan,
,1,4-Benzodioxane | C8H8O2 – PubChem

Safety of 2,2-Diphenylacetonitrile. Authors Zhou, YL; Xu, XJ; Sun, HW; Tao, GY; Chang, XY; Xing, XY; Chen, B; Xu, C in NATURE RESEARCH published article about in [Zhou, Yali; Xu, Xingjun; Sun, Hongwei; Tao, Guanyu; Chang, Xiao-Yong; Xing, Xiangyou; Xu, Chen] Southern Univ Sci & Technol, Shenzhen Grubbs Inst, Shenzhen, Guangdong, Peoples R China; [Zhou, Yali; Xu, Xingjun; Sun, Hongwei; Tao, Guanyu; Chang, Xiao-Yong; Xing, Xiangyou; Xu, Chen] Southern Univ Sci & Technol, Dept Chem, Guangdong Prov Key Lab Catalysis, Shenzhen, Guangdong, Peoples R China; [Chen, Bo] Southern Univ Sci & Technol, Acad Adv Interdisciplinary Studies, Shenzhen, Guangdong, Peoples R China in 2021, Cited 66. The Name is 2,2-Diphenylacetonitrile. Through research, I have a further understanding and discovery of 86-29-3

Hydrofunctionalization, the direct addition of an X-H (e.g., X=O, N) bond across an alkene, is a desirable strategy to make heterocycles that are important structural components of naturally occurring molecules. Described here is the design and discovery of donor-acceptor-type platinum catalysts that are highly effective in both hydroalkoxylation and hydroamination of unactivated alkenes over a broad range of substrates under mild conditions. A number of alkene substitution patterns are accommodated, including tri-substituted, 1,1-disubstituted, (E)-disubstituted, (Z)-disubstituted and even mono-substituted double bonds. Detailed mechanistic investigations suggest a plausible pathway that includes an unexpected dissociation/re-association of the electron-deficient ligand to form an alkene-bound donor-acceptor-type intermediate. These mechanistic studies help understand the origins of the high reactivity exhibited by the catalytic system, and provide a foundation for the rational design of chiral catalysts towards asymmetric hydrofunctionalization reactions. The direct addition of an O-H (hydroalkoxylation) or an N-H (hydroamination) bond across an alkene is a useful strategy to access biologically relevant heterocycles. Here, the authors report donor-acceptor-type platinum catalysts that are effective for both hydroalkoxylation and hydroamination of unactivated alkenes, with broad substrate scope and use of mild conditions.

Safety of 2,2-Diphenylacetonitrile. About 2,2-Diphenylacetonitrile, If you have any questions, you can contact Zhou, YL; Xu, XJ; Sun, HW; Tao, GY; Chang, XY; Xing, XY; Chen, B; Xu, C or concate me.

Reference:
Benzodioxan,
,1,4-Benzodioxane | C8H8O2 – PubChem

Recommanded Product: 86-29-3. Authors Lippa, RA; Battersby, DJ; Murphy, JA; Barrett, TN in AMER CHEMICAL SOC published article about in [Lippa, Rhys A.; Murphy, John A.] Univ Strathclyde, Dept Pure & Appl Chem, Glasgow G1 1XL, Lanark, Scotland; [Battersby, David J.; Barrett, Tim N.] GlaxoSmithKline, Med Sci & Technol, Stevenage SG1 2NY, Herts, England in 2021, Cited 51. The Name is 2,2-Diphenylacetonitrile. Through research, I have a further understanding and discovery of 86-29-3

Substituted arylethylamines represent a key structural motif in natural, pharmaceutical, and agrochemical compounds. Access to such scaffolds has been the subject of long-standing synthetic interest. Herein, we report the synthesis of such scaffolds via a palladium-catalyzed C(sp(3))-C(sp(3)) coupling between (chloromethyl)aryls and air-/moisture-stable N,N-dialkylaminomethyltrifluoroborate salts. Rapid hit identification was achieved using microscale high-throughput experimentation and was followed by millimolar-scale reaction parameter optimization. A range of structurally and electronically varied arylethylamine products were obtained in moderate to excellent yields (27-96%, >60 examples). The reaction mechanism is proposed to proceed via formation of a trialkylbenzylammonium species prior to oxidative addition.

Recommanded Product: 86-29-3. About 2,2-Diphenylacetonitrile, If you have any questions, you can contact Lippa, RA; Battersby, DJ; Murphy, JA; Barrett, TN or concate me.

Reference:
Benzodioxan,
,1,4-Benzodioxane | C8H8O2 – PubChem

An article Osmium-Promoted Transformation of Alkyl Nitriles to Secondary Aliphatic Amines: Scope and Mechanism WOS:000541445700017 published article about H BOND ACTIVATION; SELECTIVE CATALYTIC-HYDROGENATION; HEXAHYDRIDE COMPLEX; LIGANDS PREPARATION; N-H; DEHYDROGENATION; HYDRIDE; VINYLIDENE; RUTHENIUM; REACTIVITY in [Babon, Juan C.; Esteruelas, Miguel A.; Lopez, Ana M.; Onate, Enrique] Univ Zaragoza CSIC, Dept Quim Inorgan, Inst Sintesis Quim & Catalisis Homogenea ISQCH, Ctr Innovac Quim Avanzada ORFEO CINQA, Zaragoza 50009, Spain in 2020, Cited 116. The Name is 2,2-Diphenylacetonitrile. Through research, I have a further understanding and discovery of 86-29-3. Product Details of 86-29-3

The transformation of alkyl nitriles to symmetrical and asymmetrical secondary aliphatic amines promoted by the hexahydride complex OsH6 ((PPr3)-Pr-i)(2) (1) is described, and the mechanisms of the reactions involved are established. Complex 1 catalyzes the aforementioned transformations of aryl-, pyridyl-, and alkoxy-functionalized alkyl nitriles with linear or branched chains. The formation of the secondary amines involves primary imines, primary amines, and secondary imines as organic intermediates. The reactions take place under mild conditions (toluene, 100 degrees C, and 4 bar of H-2). Stoichiometric reactions of 1 with pivalonitrile and 2-methoxyacetonitrile have allowed us to isolate the trihydride azavinylidene derivatives OsH3{=N=CHR}((PPr3)-Pr-i)(2) (R = Bu-t (3), CH2OMe (4)). Their formation involves the insertion of the N-C triple bond of the substrates into an Os-H bond of the unsaturated tetrahydride OsH4 ((PPr3)-Pr-i)(2) (A), which is generated by reductive elimination of H-2 from the hexahydride precursor. The reaction of these trihydride azavinylidene species with H-2 is the key step for the reduction of the N-C triple bond of the nitriles. In the absence of H-2, the attack of A to the azavinylidene ligand produces the rupture of its C(sp(2))-C(sp(3)) bond. As a consequence of this attack and the presence of primary imines and amines in the reaction media, the binuclear complexes ((PPr3)-Pr-i)(2) H4Os(mu-CN)OsH3{kappa(1)-N-(NH= CHCH2OMe)}((PPr3)-Pr-i)(2) (5) and ((PPr3)-Pr-i)(2)H4Os(mu-CN)OsH3{kappa(1)-N-(NH2CH2CH2OMe)}((PPr3)-Pr-i)(2) (6) have been isolated and characterized by X-ray diffraction analysis, for 2-methoxyacetonitrile. DFT calculations reveal noticeable similarities between the hydrogenations of nitriles to primary imines and those of primary imines to primary amines.

About 2,2-Diphenylacetonitrile, If you have any questions, you can contact Babon, JC; Esteruelas, MA; Lopez, AM; Onate, E or concate me.. Product Details of 86-29-3

Reference:
Benzodioxan,
,1,4-Benzodioxane | C8H8O2 – PubChem

Recommanded Product: 86-29-3. Recently I am researching about ORGANOMETALLIC CHEMISTRY; COORDINATION CHEMISTRY; BOND-CLEAVAGE; NITRIC-OXIDE; LIGANDS; PNP; APPROXIMATION; HYDROBORATION; PLATINUM; IRIDIUM, Saw an article supported by the Austrian Science Fund (FWF)Austrian Science Fund (FWF) [P29584-N28]; Fundacao para a Ciencia e a TecnologiaPortuguese Foundation for Science and TechnologyEuropean Commission [UIDB/04046/2020, UIDP/04046/2020]. Published in AMER CHEMICAL SOC in WASHINGTON ,Authors: Pecak, J; Eder, W; Stoger, B; Realista, S; Martinho, PN; Calhorda, MJ; Linert, W; Kirchner, K. The CAS is 86-29-3. Through research, I have a further understanding and discovery of 2,2-Diphenylacetonitrile

The reaction of coordinatively unsaturated Co(II) PCP pincer complexes with nitric oxide leads to the formation of new, air-stable, diamagnetic mono nitrosyl compounds. The synthesis and characterization of five- and four-coordinate Co(III) and Co(I) nitrosyl pincer complexes based on three different ligand scaffolds is described. Passing NO through a solution of [Co(PCPNMe-iPr)Cl], [Co(PCPO-iPr)Cl] or [Co(PCPCH2-iPr)Br] led to the formation of the low-spin complex [Co(PCP-iPr)(NO)-X] with a strongly bent NO ligand. Treatment of the latter species with (X = CI, Br) AgBF4 led to chloride abstraction and formation of cationic square-planar Co(I) complexes of the type [Co(PCP-iPr)(NO)](+) featuring a linear NO group. This reaction could be viewed as a formal two electron reduction of the metal center by the NO radical from Co(III) to Co(I), if NO is counted as NO+. Hence, these systems can be described as {CoNO}(8) according to the Enemark-Feltham convention. X-ray structures, spectroscopic and electrochemical data of all nitrosyl complexes are presented. Preliminary studies show that [Co(PCPNMe-iPr)(NO)](+) catalyzes efficiently the reductive hydroboration of nitriles with pinacolborane (HBpin) forming an intermediate {CoNO}(8) hydride species.

About 2,2-Diphenylacetonitrile, If you have any questions, you can contact Pecak, J; Eder, W; Stoger, B; Realista, S; Martinho, PN; Calhorda, MJ; Linert, W; Kirchner, K or concate me.. Recommanded Product: 86-29-3

Reference:
Benzodioxan,
,1,4-Benzodioxane | C8H8O2 – PubChem

Authors Carpentier, F; Felpin, FX; Zammattio, F; Le Grognec, E in AMER CHEMICAL SOC published article about CATALYZED SYNTHESIS; HYDRAZOIC ACID; CHEMISTRY; TETRAZOLES; REAGENTS; SAFE; CYCLOADDITION; SALTS in [Carpentier, Florian; Felpin, Francois-Xavier; Zammattio, Francoise; Le Grognec, Erwan] Univ Nantes, CNRS, CEISAM, UMR 6230, F-44000 Nantes, France in 2020, Cited 46. Application In Synthesis of 2,2-Diphenylacetonitrile. The Name is 2,2-Diphenylacetonitrile. Through research, I have a further understanding and discovery of 86-29-3

An efficient continuous flow process for the synthesis of 5-substituted 1H-tetrazoles is described. The process involves the reaction between a polymer-supported triorganotin azide and organic nitriles. The polymer-supported organotin azide, which is in situ generated with a polystyrene-supported triorganotin alkoxide and trimethylsilylazide, is immobilized in a packed bed reactor. This approach is simple, fast (it takes from 7.5 to 15 min), and guarantees a low concentration of tin residues in the products (<5 ppm). The process was developed to aryl-, heteroaryl-, and also alkylnitriles and was applied for the synthesis of valsartan, an angiotensin II receptor antagonist. Application In Synthesis of 2,2-Diphenylacetonitrile. About 2,2-Diphenylacetonitrile, If you have any questions, you can contact Carpentier, F; Felpin, FX; Zammattio, F; Le Grognec, E or concate me.

Reference:
Benzodioxan,
,1,4-Benzodioxane | C8H8O2 – PubChem

Lin, JS; Li, TT; Jiao, GY; Gu, QS; Cheng, JT; Lv, L; Liu, XY in [Lin, Jin-Shun] Tsinghua Univ, Key Lab Chem Biol, State Key Lab Chem Oncogen, Grad Sch Shenzhen, Shenzhen 518055, Peoples R China; [Lin, Jin-Shun] Tsinghua Univ, Dept Chem, Beijing 100084, Peoples R China; [Lin, Jin-Shun; Li, Tao-Tao; Jiao, Guan-Yuan; Gu, Qiang-Shuai; Cheng, Jiang-Tao; Lv, Ling; Liu, Xin-Yuan] Southern Univ Sci & Technol, Dept Chem, Shenzhen 518055, Peoples R China; [Lin, Jin-Shun; Li, Tao-Tao; Jiao, Guan-Yuan; Cheng, Jiang-Tao; Lv, Ling; Liu, Xin-Yuan] Southern Univ Sci & Technol, Shenzhen Grubbs Inst, Shenzhen 518055, Peoples R China; [Gu, Qiang-Shuai] Southern Univ Sci & Technol, Acad Adv Interdisciplinary Studies, Shenzhen 518055, Peoples R China published Chiral BrOnsted Acid Catalyzed Dynamic Kinetic Asymmetric Hydroamination of Racemic Allenes and Asymmetric Hydroamination of Dienes in 2019, Cited 71. Name: 2,2-Diphenylacetonitrile. The Name is 2,2-Diphenylacetonitrile. Through research, I have a further understanding and discovery of 86-29-3.

The first highly efficient and practical chiral BrOnsted acid catalyzed dynamic kinetic asymmetric hydroamination (DyKAH) of racemic allenes and asymmetric hydroamination of unactivated dienes with both high E/Z selectivity and enantioselectivity are described herein. The transformation proceeds through a new catalytic asymmetric model involving a highly reactive pi-allylic carbocationic intermediate, generated from racemic allenes or dienes through a proton transfer mediated by an activating/directing thiourea group. This method affords expedient access to structurally diverse enantioenriched, potentially bioactive alkenyl-containing aza-heterocycles and bicyclic aza-heterocycles.

Name: 2,2-Diphenylacetonitrile. About 2,2-Diphenylacetonitrile, If you have any questions, you can contact Lin, JS; Li, TT; Jiao, GY; Gu, QS; Cheng, JT; Lv, L; Liu, XY or concate me.

Reference:
Benzodioxan,
,1,4-Benzodioxane | C8H8O2 – PubChem

Application In Synthesis of 2,2-Diphenylacetonitrile. Sarkar, N; Bera, S; Nembenna, S in [Sarkar, Nabin; Bera, Subhadeep; Nembenna, Sharanappa] Homi Bhabha Natl Inst, Sch Chem Sci, Natl Inst Sci Educ & Res, Bhubaneswar 752050, Odisha, India published Aluminum-Catalyzed Selective Hydroboration of Nitriles and Alkynes: A Multifunctional Catalyst in 2020, Cited 58. The Name is 2,2-Diphenylacetonitrile. Through research, I have a further understanding and discovery of 86-29-3.

The reaction of LH [L = {(ArNH)(ArN)-C=N-C=(NAr)(NHAr)}; Ar =2,6-Et-2-C6H3] with a commercially available alane amine adduct (H3Al center dot NMe2Et) in toluene resulted in the formation of a conjugated bis-guanidinate (CBG)-supported aluminum dihydride complex, i.e., LAIH(2) (1), in good yield. The new complex has been thoroughly characterized by multinuclear magnetic resonance, IR, mass, and elemental analyses, including single-crystal structural studies. Further, we have demonstrated the aluminum-catalyzed hydroboration of a variety of nitriles and alkynes. Moreover, aluminum-catalyzed hydroboration is expanded to more challenging substrates such as alkene, pyridine, imine, carbodiimide, and isocyanides. More importantly, we have shown that the aluminum dihydride catalyzed both intra- and intermolecular chemoselective hydroboration of nitriles and alkynes over other reducible functionalities for the first time.

Application In Synthesis of 2,2-Diphenylacetonitrile. About 2,2-Diphenylacetonitrile, If you have any questions, you can contact Sarkar, N; Bera, S; Nembenna, S or concate me.

Reference:
Benzodioxan,
,1,4-Benzodioxane | C8H8O2 – PubChem

Authors Jongwohan, C; Honda, Y; Suzuki, T; Fujinami, T; Adachi, K; Momiyama, N in AMER CHEMICAL SOC published article about AMINO-ACIDS; REARRANGEMENT in [Jongwohan, Chanantida; Suzuki, Toshiyasu; Fujinami, Takeshi; Adachi, Kiyohiro; Momiyama, Norie] Inst Mol Sci, Okazaki, Aichi 4448787, Japan; [Jongwohan, Chanantida; Suzuki, Toshiyasu; Momiyama, Norie] SOKENDAI Grad Univ Adv Studies, Okazaki, Aichi 4448787, Japan; [Honda, Yasushi] HPC Syst Inc, West Japan Off, Shimogyo Ku, 646 Nijohanjikicho, Kyoto 6008412, Japan; [Adachi, Kiyohiro] Univ Tokyo, Sch Engn, Dept Appl Chem, Bunkyo Ku, 7-3-1 Hongo, Tokyo 1118656, Japan in 2019, Cited 18. Safety of 2,2-Diphenylacetonitrile. The Name is 2,2-Diphenylacetonitrile. Through research, I have a further understanding and discovery of 86-29-3

The rearrangement of ene-aldimines is a useful reaction for affording homoallylic amines. Despite their utilities in synthetic chemistry, the rearrangement for accessing homoallylic amines substituted at the 2-position remains elusive. In this study, the Bronsted acid-initiated formal [1,3]-rearrangement of ene-aldimines was developed to synthesize 2,4,4-substituted homoallylic amines that were otherwise inaccessible previously. Our study reveals an intermolecular pathway in which the rearrangement proceeds via a protonation-mediated 2-azaallenium cation.

About 2,2-Diphenylacetonitrile, If you have any questions, you can contact Jongwohan, C; Honda, Y; Suzuki, T; Fujinami, T; Adachi, K; Momiyama, N or concate me.. Safety of 2,2-Diphenylacetonitrile

Reference:
Benzodioxan,
,1,4-Benzodioxane | C8H8O2 – PubChem

Munyai, TR; Sonqishe, T; Gumbo, JR in [Munyai, Thabelo R.; Sonqishe, Thantaswa] Univ Venda, Dept Ecol & Resource Management, Thohoyandou, South Africa; [Gumbo, Jabulani R.] Univ Venda, Dept Hydrol & Water Resource Management, Thohoyandou, South Africa published Algae colonisation of brick pavement at the University of Venda: A potential slippery hazard in 2019, Cited 33. Safety of 2,2-Diphenylacetonitrile. The Name is 2,2-Diphenylacetonitrile. Through research, I have a further understanding and discovery of 86-29-3.

A brick pavement, tramped by humans, is exposed to atmospheric elements, thus allowing cyanobacteria and algae to colonise. In this article, we report on the factors that contribute to the slipperiness of a brick pavement at the University of Venda in the Limpopo province of the South Africa. Samples were collected from brick surfaces either colonised by green algae (treated) or not (control). The samples were acid-digested and analysed for metals by Inductively Coupled Plasma Mass Spectrometry (ICP MS) in parts per billion (ppb). The treated bricks, with green algae, had average high metal contents (ppb): Al 9456.02, Ti 731.23, V 46.44, Cr 78.85, Mn 862.93, Fe 16295.18, Co 23.57, Ni 59.36, Cu 66.31, Zn 160.57, As 7.92, Se 10.45, Mo 6.74, Cd 5.19, Sn 4.65, Sb 2.31 and Pb 19.51. In contrast, control bricks had a low average of metal content (ppb) as follows: Al 2.99, Ti 0.28, V 4.04, Cr 1.42, Mn 4.29, Fe 20.89, Co 0.36, Ni 2.74, Cu 5.64, Zn 4.21, As 0.56, Se <3.00, Mo 0.88, Cd 0.01, Sn 1.05, Sb 0.04 and Pb 0.04. Other factors that promote algae colonisation include high solar radiation, neutral pH, nutrients, low electrical conductivity and total dissolved solids. The algae colonisation of brick pavement results in an unaesthetic sighting and a slippery surface that is hazardous to humans. About 2,2-Diphenylacetonitrile, If you have any questions, you can contact Munyai, TR; Sonqishe, T; Gumbo, JR or concate me.. Safety of 2,2-Diphenylacetonitrile

Reference:
Benzodioxan,
,1,4-Benzodioxane | C8H8O2 – PubChem