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4,4,5,5-Tetramethyl-2-[4-(prop-2-en-1-yloxy)phenyl]-1,3,2-dioxaborolane is a boronic ester derivative with the molecular formula C16H23BO2. It is a versatile chemical compound commonly used in organic synthesis and medicinal chemistry due to its reactivity and stability.
Used in Pharmaceutical Industry:
4,4,5,5-Tetramethyl-2-[4-(prop-2-en-1-yloxy)phenyl]-1,3,2-dioxaborolane is used as a building block for the synthesis of various pharmaceuticals. Its unique structure allows for the formation of carbon-carbon bonds through the Suzuki-Miyaura cross-coupling reaction, enabling the creation of complex molecular structures with potential therapeutic applications.
Used in Agrochemical Industry:
In the agrochemical industry, 4,4,5,5-Tetramethyl-2-[4-(prop-2-en-1-yloxy)phenyl]-1,3,2-dioxaborolane is used as a key intermediate in the synthesis of agrochemicals. Its reactivity in cross-coupling reactions facilitates the development of new compounds with improved pesticidal properties and selectivity.
Used in Material Science:
4,4,5,5-Tetramethyl-2-[4-(prop-2-en-1-yloxy)phenyl]-1,3,2-dioxaborolane is used as a precursor in the synthesis of functional materials, such as liquid crystals and OLEDs. Its ability to form stable carbon-carbon bonds contributes to the development of advanced materials with specific optical, electronic, and mechanical properties.
Used in Organic Synthesis:
As a versatile reagent, 4,4,5,5-Tetramethyl-2-[4-(prop-2-en-1-yloxy)phenyl]-1,3,2-dioxaborolane is widely used in organic synthesis for the formation of carbon-carbon bonds through the Suzuki-Miyaura cross-coupling reaction. This reaction is a powerful tool for constructing complex organic molecules and expanding the scope of synthetic chemistry.

1415236-88-2

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1415236-88-2 Usage

Check Digit Verification of cas no

The CAS Registry Mumber 1415236-88-2 includes 10 digits separated into 3 groups by hyphens. The first part of the number,starting from the left, has 7 digits, 1,4,1,5,2,3 and 6 respectively; the second part has 2 digits, 8 and 8 respectively.
Calculate Digit Verification of CAS Registry Number 1415236-88:
(9*1)+(8*4)+(7*1)+(6*5)+(5*2)+(4*3)+(3*6)+(2*8)+(1*8)=142
142 % 10 = 2
So 1415236-88-2 is a valid CAS Registry Number.

1415236-88-2SDS

SAFETY DATA SHEETS

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

Version: 1.0

Creation Date: Aug 14, 2017

Revision Date: Aug 14, 2017

1.Identification

1.1 GHS Product identifier

Product name 2-(4-(allyloxy)phenyl)-4,4,5,5-tetramethyl-1,3,2-dioxaborolane

1.2 Other means of identification

Product number -
Other names -

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

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More Details:1415236-88-2 SDS

1415236-88-2Relevant academic research and scientific papers

Anomalous reactivity of silylborane: Transition-metal-free boryl substitution of aryl, alkenyl, and alkyl halides with silylborane/alkoxy base systems

Yamamoto, Eiji,Izumi, Kiyotaka,Horita, Yuko,Ito, Hajime

, p. 19997 - 20000 (2012)

An unexpected borylation of organic halides with a silyborane in the presence of an alkoxy base has been observed. This formal nucleophilic boryl substitution can be applied to a broad range of substrates with high functional group compatibility. Even sterically hindered aryl bromides afforded the corresponding boryl compounds in high yields. Preliminary mechanistic studies indicated that this boryl substitution is promoted by neither transition-metal contamination nor a radical-mediated process.

Unreactive C-N Bond Activation of Anilines via Photoinduced Aerobic Borylation

Ji, Shuohan,Qin, Shengxiang,Yin, Chunyu,Luo, Lu,Zhang, Hua

supporting information, p. 64 - 68 (2021/12/27)

Unreactive C-N bond activation of anilines was achieved by photoinduced aerobic borylation. A diverse range of tertiary and secondary anilines were converted to aryl boronate esters in moderate to good yields with wide functional group tolerance under simple and ambient photochemical conditions. This transformation achieved the direct and facile C-N bond activation of unreactive anilines, providing a convenient and practical route transforming widely available anilines into useful aryl boronate esters.

Nickel Hydride Catalyzed Cleavage of Allyl Ethers Induced by Isomerization

Kathe, Prasad M.,Berkefeld, Andreas,Fleischer, Ivana

supporting information, p. 1629 - 1632 (2021/02/09)

This report discloses the deallylation of O - and N -allyl functional groups by using a combination of a Ni-H precatalyst and excess Bronsted acid. Key steps are the isomerization of the O - or N -allyl group through Ni-catalyzed double-bond migration followed by Bronsted acid induced O/N-C bond hydrolysis. A variety of functional groups are tolerated in this protocol, highlighting its synthetic value.

Enantioselective Construction of Si-Stereogenic Center via Rhodium-Catalyzed Intermolecular Hydrosilylation of Alkene

He, Tao,Liu, Li-Chuan,Ma, Wen-Peng,Li, Bin,Zhang, Qing-Wei,He, Wei

supporting information, p. 17011 - 17015 (2020/11/30)

Catalytic, enantioselective synthesis of stereogenic silicon compounds remains a challenge. Herein, we report a rhodium-catalyzed regio- and enantio-selective intermolecular hydrosilylation of alkene with prochiral dihydrosilane. This new method features a simple catalytic system, mild reaction conditions and a wide functional group tolerance.

Redox-Neutral Borylation of Aryl Sulfonium Salts via C-S Activation Enabled by Light

Huang, Chen,Feng, Jie,Ma, Rui,Fang, Shuaishuai,Lu, Tao,Tang, Weifang,Du, Ding,Gao, Jian

supporting information, p. 9688 - 9692 (2019/12/02)

Reported here is a novel photoinduced strategy for the borylation of aryl sulfonium salts using bis(pinacolato)diboron as the boron source. This method exploits redox-neutral aryl sulfoniums to gain access to aryl radicals via C-S bond activation upon photoexcitation under transition-metal-free conditions. Therefore, it grants access to diverse arylboronate esters with good performance from easily available aryl sulfoniums accompanied by mild conditions, operational simplicity, and easy scalability.

Visible-Light-Induced Organocatalytic Borylation of Aryl Chlorides

Zhang, Li,Jiao, Lei

supporting information, p. 9124 - 9128 (2019/06/17)

The preparation of arylboronates from unactivated aryl chlorides in a transition-metal-free manner is rather challenging. There are only few examples to achieve this goal by using ultraviolet irradiation. Based on the mechanistic understanding of the diboron/methoxide/pyridine reaction system, we achieved photoactivation of the in situ generated super electron donor and developed a visible-light-induced organocatalytic method for efficient borylation of unactivated aryl chlorides.

Copper-Photocatalyzed Borylation of Organic Halides under Batch and Continuous-Flow Conditions

Nitelet, Antoine,Thevenet, Damien,Schiavi, Bruno,Hardouin, Christophe,Fournier, Jean,Tamion, Rodolphe,Pannecoucke, Xavier,Jubault, Philippe,Poisson, Thomas

supporting information, p. 3262 - 3266 (2019/02/13)

The copper-photocatalyzed borylation of aryl, heteroaryl, vinyl and alkyl halides (I and Br) was reported. The reaction proceeded using a new heteroleptic Cu complex under irradiation with blue LEDs, giving the corresponding boronic-acid esters in good to excellent yields. The reaction was extended to continuous-flow conditions to allow an easy scale-up. The mechanism of the reaction was studied and a mechanism based on a reductive quenching (CuI/CuI*/Cu0) was suggested.

Photoinduced Miyaura Borylation by a Rare-Earth-Metal Photoreductant: The Hexachlorocerate(III) Anion

Qiao, Yusen,Yang, Qiaomu,Schelter, Eric J.

supporting information, p. 10999 - 11003 (2018/07/31)

The first photoinduced carbon(sp2)–heteroatom bond forming reaction by a rare-earth-metal photoreductant, a Miyaura borylation, has been achieved. This simple, scalable, and novel borylation method that makes use of the hexachlorocerate(III) anion ([CeIIICl6]3?, derived from CeCl3) has a broad substrate scope and functional-group tolerance and can be conducted at room temperature. Combined with Suzuki–Miyaura cross-coupling, the method is applicable to the synthesis of various biaryl products, including through the use of aryl chloride substrates.

An organic boron compound

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Paragraph 0072-0074; 0117; 0119, (2019/02/20)

PROBLEM TO BE SOLVED: To provide a production method of an arylboronic acid ester with a wide range of application substrate, using no heavy metal.SOLUTION: An organic halogen compound represented by the general formula R-X (where, X is Br or I; R is a C1 to 20 alkyl group, a C6 to 14 aryl group, a heterocyclic group comprising 1 to 3 hetero atoms selected from N, O and S, or the like) and a compound represented by the general formula (VI) are reacted in the presence of sodium alkoxide or potassium alkoxide for substitution of a substituted Si moiety and the R moiety to obtain arylboronic acid ester. (In the formula, three Rare each independently a C1 to 6 alkyl group or a C6 to 10 aryl group; and four Reach independently a C1 to 3 alkyl group.)

Preparation method of aryl borate ester and allyl borate ester

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Paragraph 0073-0074; 0078, (2017/07/12)

The invention discloses a preparation method of aryl borate ester and allyl borate ester. The method comprises the following step: under the catalytic action of pyridine or a derivative thereof, carrying out 1) or 2) to obtain substituted boric acid ester shown as a formula I-1 or a formula I-2: 1) a reaction of a halide, bi-boric acid ester and alkoxide; 2) a reaction of a halide and a bi-boric acid ester-alkoxide complex. The method is an efficient preparation method of the aryl borate ester and the allyl borate ester. In the preparation method provided by the invention, the inexpensive pyridine or the derivative thereof is taken as a catalyst instead of a transition metal catalyst, the reaction conditions are mild, the reaction yield is high, residues of trace transition metal in a boronation product are avoided, and the cost of an aryl and allyl borate ester synthesis reaction is lowered.

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