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1-(4-(trifluoroMethyl)phenyl)propan-2-one is an organic compound with the chemical formula C10H9F3O. It is characterized by the presence of a trifluoromethyl group attached to a phenyl ring, which is connected to a propan-2-one moiety. 1-(4-(trifluoroMethyl)phenyl)propan-2-one exhibits unique chemical properties due to the presence of the trifluoromethyl group, making it a versatile building block in organic synthesis.

713-45-1

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713-45-1 Usage

Uses

Used in Pharmaceutical Industry:
1-(4-(trifluoroMethyl)phenyl)propan-2-one is used as a key intermediate in the synthesis of various pharmaceutical compounds. Its unique structure allows for the development of new drugs with improved potency, selectivity, and reduced side effects.
Used in Chemical Research:
1-(4-(trifluoroMethyl)phenyl)propan-2-one serves as a valuable research tool in the field of organic chemistry. It is used to study the reactivity and selectivity of various chemical reactions, as well as to develop new synthetic methodologies.
Used in Material Science:
1-(4-(trifluoroMethyl)phenyl)propan-2-one is employed in the development of novel materials with specific properties, such as improved thermal stability, chemical resistance, or enhanced electrical conductivity.
Used in the Preparation of P,N-type Phosphine Ligands:
1-(4-(trifluoroMethyl)phenyl)propan-2-one is used in the preparation of a highly congested carbazoyl-derived P,N-type phosphine ligand. This ligand exhibits excellent catalytic activity in the Pd-catalyzed acetone monoarylations, a reaction of significant importance in the synthesis of various organic compounds.

Check Digit Verification of cas no

The CAS Registry Mumber 713-45-1 includes 6 digits separated into 3 groups by hyphens. The first part of the number,starting from the left, has 3 digits, 7,1 and 3 respectively; the second part has 2 digits, 4 and 5 respectively.
Calculate Digit Verification of CAS Registry Number 713-45:
(5*7)+(4*1)+(3*3)+(2*4)+(1*5)=61
61 % 10 = 1
So 713-45-1 is a valid CAS Registry Number.
InChI:InChI=1/C10H9F3O/c1-7(14)6-8-2-4-9(5-3-8)10(11,12)13/h2-5H,6H2,1H3

713-45-1SDS

SAFETY DATA SHEETS

According to Globally Harmonized System of Classification and Labelling of Chemicals (GHS) - Sixth revised edition

Version: 1.0

Creation Date: Aug 19, 2017

Revision Date: Aug 19, 2017

1.Identification

1.1 GHS Product identifier

Product name 1-(4-(Trifluoromethyl)phenyl)propan-2-one

1.2 Other means of identification

Product number -
Other names 1-[4-(trifluoromethyl)phenyl]propan-2-one

1.3 Recommended use of the chemical and restrictions on use

Identified uses For industry use only.
Uses advised against no data available

1.4 Supplier's details

1.5 Emergency phone number

Emergency phone number -
Service hours Monday to Friday, 9am-5pm (Standard time zone: UTC/GMT +8 hours).

More Details:713-45-1 SDS

713-45-1Relevant academic research and scientific papers

A facile, microwave-assisted, palladium-catalyzed arylation of acetone

Chobanian, Harry R.,Liu, Ping,Chioda, Marc D.,Guo, Yan,Lin, Linus S.

, p. 1213 - 1216 (2007)

We report an expedient method for the heteroarylation of acetone under tin-free conditions. The coupling is performed using the commercially available enol silane of acetone (2-trimethylsilyloxypropene) and a corresponding aryl bromide, chloride or triflate under microwave-assisted conditions, with tris(dibenzylideneacetone)dipalladium (Pd2(dba)3) or palladium acetate (Pd(OAc)2) and 2-(2′,6′-dimethoxybiphenyl)dicyclohexylphosphine (S-Phos) as the catalyst system.

COMPOUNDS AND COMPOSITIONS FOR TREATING CONDITIONS ASSOCIATED WITH STING ACTIVITY

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Page/Page column 144-145, (2022/01/24)

The present invention relates to chemical entities (for example, a pharmaceutically acceptable compound or salt, and / or a hydrate, and / or a co-crystal, and / or a combination of drug of the compound) which inhibit (for example, antagonize) the stimula

Aryl C-F bond functionalization preparation method

-

Paragraph 0052; 0089-0093; 0099-0102, (2021/09/29)

The invention relates to the technical field of organic compound synthesis, in particular to an aryl C-F bond functionalization preparation method. A fluorobenzene compound and a nucleophilic reagent react under the action of a composite catalyst, wherein the composite catalyst is formed by mixing a visible light catalyst and a metal catalyst. The photocatalyst is adopted, the reaction process is safe and controllable, and operation in the preparation and production process is simplified; a purple LED is used as a reaction energy source and is green and environment-friendly, the energy utilization rate is high, and conversion from light energy to chemical energy can be efficiently realized; in the reaction, a simple nucleophilic reagent is used for attacking free radical cation species generated under a visible light catalysis condition, so that a target product with an extremely wide range is efficiently and greenly prepared; the operation steps are simplified, and the reaction route is shortened; and moreover, the forward reaction rate is high, and the production efficiency is remarkably improved.

UiO-66 microcrystals catalyzed direct arylation of enol acetates and heteroarenes with aryl diazonium salts in water

Sun, Zhong-Hua,Chen, Wang,Qian, Bing-Bing,Wang, Liang,Yu, Binxun,Chen, Qun,He, Ming-Yang,Zhang, Zhi-Hui

, (2020/01/25)

UiO-66 is a classic Metal–organic framework (MOF) that constructed by zirconium cations and terephthalate with high chemical and thermal stability. Using pristine UiO-66 nanocrystals as the catalysts, the carbon–carbon bond formation based on denitrogenat

Direct Synthesis of Propen-2-yl Sulfones through Cascade Reactions Using Calcium Carbide as an Alkyne Source

Gao, Lei,Liu, Zhenrong,Ma, Xiaolong,Li, Zheng

supporting information, p. 5246 - 5250 (2020/07/04)

A simple method for the construction of propen-2-yl sulfones through cascade reactions of calcium carbide with arylsulfonylhydrazones using copper as a mediator is described. The salient features of this protocol are the use of readily available and easy-to-handle alkyne source, broad substrate scope, open-air condition, and simple operation procedure.

Nickel-Catalyzed Mono-Selective α-Arylation of Acetone with Aryl Chlorides and Phenol Derivatives

Amgoune, Abderrahmane,Derhamine, Sary Abou,Krachko, Tetiana,Monteiro, Nuno,Pilet, Guillaume,Schranck, Johannes,Tlili, Anis

supporting information, p. 18948 - 18953 (2020/09/01)

The challenging nickel-catalyzed mono-α-arylation of acetone with aryl chlorides, pivalates, and carbamates has been achieved for the first time. A nickel/Josiphos-based catalytic system is shown to feature unique catalytic behavior, allowing the highly selective formation of the desired mono-α-arylated acetone. The developed methodology was applied to a variety of (hetero)aryl chlorides including biologically relevant derivatives. The methodology has been extended to the unprecedented coupling of acetone with phenol derivatives. Mechanistic studies allowed the isolation and characterization of key Ni0 and NiII catalytic intermediates. The Josiphos ligand is shown to play a key role in the stabilization of NiII intermediates to allow a Ni0/NiII catalytic pathway. Mechanistic understanding was then leveraged to improve the protocol using an air-stable NiII pre-catalyst.

Stereoselective Synthesis of 1-Arylpropan-2-amines from Allylbenzenes through a Wacker-Tsuji Oxidation-Biotransamination Sequential Process

González-Martínez, Daniel,Gotor, Vicente,Gotor-Fernández, Vicente

, p. 2582 - 2593 (2019/05/15)

Herein, a sequential and selective chemoenzymatic approach is described involving the metal-catalysed Wacker-Tsuji oxidation of allylbenzenes followed by the amine transaminase-catalysed biotransamination of the resulting 1-arylpropan-2-ones. Thus, a series of nine optically active 1-arylpropan-2-amines were obtained with good to very high conversions (74–92%) and excellent selectivities (>99% enantiomeric excess) in aqueous medium. The Wacker-Tsuji reaction has been exhaustively optimised searching for compatible conditions with the biotransamination experiments, using palladium(II) complexes as catalysts and iron(III) salts as terminal oxidants in aqueous media. The compatibility of palladium/iron systems for the chemical oxidation with commercially available and made in house amine transaminases was analysed, finding ideal conditions for the development of a general and stereoselective cascade sequence. Depending on the selectivity displayed by selected amine transaminase, it was possible to produce both 1-arylpropan-2-amines enantiomers under mild reaction conditions, compounds that present therapeutic properties or can be employed as synthetic intermediates of chiral drugs from the amphetamine family. (Figure presented.).

C-H arylation reactions through aniline activation catalysed by a PANI-g-C3N4-TiO2 composite under visible light in aqueous medium

Wang, Liang,Shen, Jun,Yang, Sen,Liu, Wenjie,Chen, Qun,He, Mingyang

supporting information, p. 1290 - 1296 (2018/03/26)

A PANI (polyaniline)-g-C3N4-TiO2 composite was prepared and found to be efficient for radical C-H arylation reactions. The arylation process involved coupling of in situ generated aryl diazonium salts from aniline with heteroarenes, enol acetates or benzoquinones under visible light in aqueous medium or pure water. A broad range of substrates survived the reaction conditions to provide the desired products in moderate to good yields. Scale-up (10 mmol) synthesis was also achieved. This semiconductor photocatalyst showed good photocatalytic performance and stability. Recycle studies showed that this composite could be readily recovered and a slight decrease in the catalytic activity was observed after ten consecutive runs.

Anti-Markovnikov Oxidation of β-Alkyl Styrenes with H2O as the Terminal Oxidant

Zhang, Guoting,Hu, Xia,Chiang, Chien-Wei,Yi, Hong,Pei, Pengkun,Singh, Atul K.,Lei, Aiwen

supporting information, p. 12037 - 12040 (2016/09/28)

Oxygenation of alkenes is one of the most straightforward routes for the construction of carbonyl compounds. Wacker oxidation provides a broadly useful strategy to convert the mineral oil into higher value-added carbonyl chemicals. However, the conventional Wacker chemistry remains problematic, such as the poor activity for internal alkenes, the lack of anti-Markovnikov regioselectivity, and the high cost and chemical waste resulted from noble metal catalysts and stoichiometric oxidant. Here, we describe an unprecedented dehydrogenative oxygenation of β-alkyl styrenes and their derivatives with water under external-oxidant-free conditions by utilizing the synergistic effect of photocatalysis and proton-reduction catalysis that can address these challenges. This dual catalytic system possesses the single anti-Markovnikov selectivity due to the property of the visible-light-induced alkene radical cation intermediate.

Preparation of a highly congested carbazoyl-derived p,n-type phosphine ligand for acetone monoarylations

Fu, Wai Chung,Zhou, Zhongyuan,Kwong, Fuk Yee

, p. 1553 - 1558 (2016/06/09)

We report a newly developed carbazoyl-derived P,N-type phosphine ligand (L1) for the monoarylation of acetone with aryl chlorides. The proposed Pd(dba)2/L1 catalyst exhibited remarkable catalytic reactivity toward highly electron rich and sterically congested aryl chlorides, with catalyst loading as low as 0.1 mol % of Pd along with excellent chemoselectivity. A reaction rate study of the system using electronically diverse aryl chlorides determined the mechanisms regarding the rate-limiting steps in this reaction. The oxidative addition adduct of Pd-PhenCar-Phos with p-chlorotoluene showed the participation of N-Pd coordination in the metal complex. The isolated palladium complex C1 could be utilized as a precatalyst in the transformation and achieved performance comparable to that of the in situ generated palladium species.

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