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5-Propenyl-1,2,3-trimethoxy is a chemical compound that appears to be a specific type of organic molecule. It is characterized by the presence of a propenyl group, which typically has carbon-carbon double bonds, and a trimethoxy group, indicating three methoxy substituents bonded to a central atom. However, the name "5-Propenyl-1,2,3-trimethoxy" is potentially incomplete or improperly named, as it does not specify the central atom. Further identification, such as the IUPAC name, CAS number, or structure, is necessary for a comprehensive understanding of 5-PROPENYL-1,2,3-TRIMETHOXY.

5273-85-8

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5273-85-8 Usage

Uses

Due to the limited information available on 5-Propenyl-1,2,3-trimethoxy, it is challenging to provide a detailed list of its applications. However, based on the general properties of propenyl and trimethoxy groups found in various organic compounds, we can infer potential uses in the following industries:
Used in Pharmaceutical Industry:
5-Propenyl-1,2,3-trimethoxy could be used as an intermediate compound in the synthesis of pharmaceuticals, given its chemical structure that may allow for further reactions and modifications to create drug molecules.
Used in Chemical Industry:
5-PROPENYL-1,2,3-TRIMETHOXY might serve as a building block or reactant in the production of other organic compounds, such as dyes, fragrances, or agrochemicals, where the propenyl and trimethoxy groups could contribute to the desired properties of the final product.
Used in Material Science:
5-Propenyl-1,2,3-trimethoxy may be utilized in the development of new materials, such as polymers or composites, where its unique structure could impart specific characteristics, like improved stability or reactivity.

Check Digit Verification of cas no

The CAS Registry Mumber 5273-85-8 includes 7 digits separated into 3 groups by hyphens. The first part of the number,starting from the left, has 4 digits, 5,2,7 and 3 respectively; the second part has 2 digits, 8 and 5 respectively.
Calculate Digit Verification of CAS Registry Number 5273-85:
(6*5)+(5*2)+(4*7)+(3*3)+(2*8)+(1*5)=98
98 % 10 = 8
So 5273-85-8 is a valid CAS Registry Number.
InChI:InChI=1/C12H16O3/c1-5-6-9-7-10(13-2)12(15-4)11(8-9)14-3/h5-8H,1-4H3/b6-5+

5273-85-8SDS

SAFETY DATA SHEETS

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

Version: 1.0

Creation Date: Aug 18, 2017

Revision Date: Aug 18, 2017

1.Identification

1.1 GHS Product identifier

Product name Isoelemicin,5-Propenyl-1,2,3-trimethoxy

1.2 Other means of identification

Product number -
Other names 5-PROPENYL-1,2,3-TRIMETHOXY

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:5273-85-8 SDS

5273-85-8Relevant academic research and scientific papers

A donor-acceptor complex enables the synthesis of: E -olefins from alcohols, amines and carboxylic acids

Chen, Kun-Quan,Shen, Jie,Wang, Zhi-Xiang,Chen, Xiang-Yu

, p. 6684 - 6690 (2021/05/31)

Olefins are prevalent substrates and functionalities. The synthesis of olefins from readily available starting materials such as alcohols, amines and carboxylic acids is of great significance to address the sustainability concerns in organic synthesis. Metallaphotoredox-catalyzed defunctionalizations were reported to achieve such transformations under mild conditions. However, all these valuable strategies require a transition metal catalyst, a ligand or an expensive photocatalyst, with the challenges of controlling the region- and stereoselectivities remaining. Herein, we present a fundamentally distinct strategy enabled by electron donor-acceptor (EDA) complexes, for the selective synthesis of olefins from these simple and easily available starting materials. The conversions took place via photoactivation of the EDA complexes of the activated substrates with alkali salts, followed by hydrogen atom elimination from in situ generated alkyl radicals. This method is operationally simple and straightforward and free of photocatalysts and transition-metals, and shows high regio- and stereoselectivities.

Synthesis, antiepileptic effects, and structure-activity relationships of α-asarone derivatives: In vitro and in vivo neuroprotective effect of selected derivatives

Zhang, Jian,Mu, Keman,Yang, Peng,Feng, Xinqian,Zhang, Di,Fan, Xiangyu,Wang, Qiantao,Mao, Shengjun

, (2021/08/03)

In the present study, we compared the antiepileptic effects of α-asarone derivatives to explore their structure-activity relationships using the PTZ-induced seizure model. Our research revealed that electron-donating methoxy groups in the 3,4,5-position on phenyl ring increased antiepileptic potency but the placement of other groups at different positions decreased activity. Besides, in allyl moiety, the optimal activity was reached with either an allyl or a 1-butenyl group in conjugation with the benzene ring. The compounds 5 and 19 exerted better neuroprotective effects against epilepsy in vitro (cell) and in vivo (mouse) models. This study provides valuable data for further exploration and application of these compounds as potential anti-seizure medicines.

Cobalt-Catalyzed Z to e Isomerization of Alkenes: An Approach to (E)-β-Substituted Styrenes

Liu, Hongmei,Xu, Man,Cai, Cheng,Chen, Jianhui,Gu, Yugui,Xia, Yuanzhi

, p. 1193 - 1198 (2020/02/04)

An efficient cobalt-catalyzed Z to E isomerization of β-substituted styrenes using the amido-diphosphine ligand was developed, delivering the (E)-isomers with good functional tolerance and high stereoselectivity. The reaction could be scaled up to gram-scale with a catalyst loading of 0.1 mol %, using a mixture of (Z)- and (E)-alkene as the starting material. Preliminary mechanistic studies indicated that cobalt(I)-hydride and a benzylic-cobalt species were probably involved in the reaction, as supported by experiments and DFT calculations.

Iron-catalyzed regiodivergent alkyne hydrosilylation

Hu, Meng-Yang,He, Peng,Qiao, Tian-Zhang,Sun, Wei,Li, Wen-Tao,Lian, Jie,Li, Jin-Hong,Zhu, Shou-Fei

supporting information, p. 16894 - 16902 (2020/10/09)

Although tremendous effort has been devoted to the development of methods for iron catalysis, few of the catalysts reported to date exhibit clear superiority to other metal catalysts, and the mechanisms of most iron catalysis remain unclear. Herein, we report that iron complexes bearing 2,9-diaryl-1,10-phenanthroline ligands exhibit not only unprecedented catalytic activity but also unusual ligand-controlled divergent regioselectivity in hydrosilylation reactions of various alkynes. The hydrosilylation protocol described herein provides a highly efficient method for preparing useful di- and trisubstituted olefins on a relatively large scale under mild conditions, and its use markedly improved the synthetic efficiency of a number of bioactive compounds. Mechanistic studies based on control experiments and density functional theory calculations were performed to understand the catalytic pathway and the observed regioselectivity.

Method for synthesizing E-methyl styrene compound

-

Page/Page column 6, (2020/03/25)

The method for preparing E-pyridyl or alkyl-substituted,bipyridine, in a solvent, in the presence of nitrogen protection, in, reaction 0 °C -50 °C in the presence of a metal nickel salt 24 - 36h, ligand and an additive is E, and the preparation method disclosed by the invention has the advantages, cheap 2,2 ’ - raw materials, easiness in obtaining 2,2 ’ - and the like. The ligand is,bipyridine or an alkyl-substituted bipyridyl compound, in the. presence of a nitrogen, protection agent, in a solvent.

Radical Cation Diels-Alder Reactions by TiO2 Photocatalysis

Nakayama, Kaii,Maeta, Naoya,Horiguchi, Genki,Kamiya, Hidehiro,Okada, Yohei

supporting information, p. 2246 - 2250 (2019/04/10)

Radical cation Diels-Alder reactions by titanium dioxide (TiO2) photocatalysis in lithium perchlorate/nitromethane solution are described. TiO2 photocatalysis promotes reactions between electron-rich dienes and dienophiles, which would otherwise be difficult to accomplish due to electronic mismatching. The reactions are triggered by hole oxidation of the dienophile and are completed by the excited electron reduction of the radical cation intermediate at the dispersed surface in the absence of any sacrificial substrate.

E-Olefins through intramolecular radical relocation

Kapat, Ajoy,Sperger, Theresa,Guven, Sinem,Schoenebeck, Franziska

, p. 391 - 396 (2019/02/03)

Full control over the selectivity of carbon-carbon double-bond migrations would enable access to stereochemically defined olefins that are central to the pharmaceutical, food, fragrance, materials, and petrochemical arenas. The vast majority of double-bond migrations investigated over the past 60 years capitalize on precious-metal hydrides that are frequently associated with reversible equilibria, hydrogen scrambling, incomplete E/Z stereoselection, and/or high cost. Here, we report a fundamentally different, radical-based approach.We showcase a nonprecious, reductant-free, and atom-economical nickel (Ni)(I)-catalyzed intramolecular 1,3-hydrogen atom relocation to yield E-olefins within 3 hours at room temperature. Remote installations of E-olefins over extended distances are also demonstrated.

Concise access toward chiral hydroxy phenylpropanoids: formal synthesis of virolongin B; kigelin; kurasoin A; 4-hydroxysattabacin, and actinopolymorphol A

Patil, Sagar N.,Tilve, Santosh G.

, p. 3371 - 3375 (2016/07/11)

A simple, two step strategy consisting of Sharpless asymmetric dihydroxylation followed by regioselective breaking of [Formula presented] bond is utilized to target key chiral intermediates of natural products virolongin B, kigelin, kurasoin A, 4-hydroxy-sattabacin, and actinopolymorphol A. Derivatives of enantiopure hydroxy phenyl propanoids and α-hydroxy Weinreb amides are synthesized. The reductive cleavage of [Formula presented] bond in a regioselective manner is obtained using Pd/C in methanol.

A Facile, Convenient, and Green Route to (E)-Propenylbenzene Flavors and Fragrances by Alkene Isomerization

Larsen, Casey R.,Paulson, Erik R.,Erdogan, Gulin,Grotjahn, Douglas B.

supporting information, p. 2462 - 2466 (2015/10/19)

(E)-Propenylbenzene flavors and fragrances can be made and isolated in high yield and selectivity by using bifunctional catalyst 1, and the heterogenized analogues. Multigram-scale reactions can be performed neat and the products isolated either by distillation, using homogeneous catalyst 1 (0.1-0.5 mol%, r.t., 10-45 min), or by decantation from heterogeneous catalysts PS-1 or PSL-1 (0.5 mol%, 70 °C, 24 h; catalyst separation and re-use shown for 3-4 cycles; 10 cycles using distilled eugenol feedstock). Both purified starting materials and essential oil feedstocks could be used. Z Isomers were present at very low levels (from 0.4% to less than 0.1%) in the products.

Iron-catalyzed decarboxylative methylation of α,β-unsaturated acids under ligand-free conditions

Rong, Guangwei,Liu, Defu,Lu, Linhua,Yan, Hong,Zheng, Yang,Chen, Jie,Mao, Jincheng

, p. 5033 - 5037 (2014/12/10)

It is the first time to find that iron-catalyzed decarboxylative methylation of α,β-unsaturated acids could be performed in the absence of any ligands. During the reaction, the configuration of the double bond could be retained. It is noteworthy that di-t

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