89929-89-5

Usage

Structure

Furan derivative with a methylphenyl group attached to the second carbon atom of the furan ring

Usage

Commonly used in organic synthesis and pharmaceutical research due to its versatile reactivity and potential biological activities

Presence in natural products

Can be found as a component in natural products

Biological activity

Structural motif is present in various biologically active molecules

Medical properties

Possesses antifungal and antibacterial properties, making it a potential candidate for the development of new drugs and treatments.

Upstream product

• 110-00-9 furan 
• 591-17-3 meta-bromotoluene 
• 2786-02-9 2-lithiofuran 
• 1009-01-4 2-methylphenyl methanesulfonate 
• 108-44-1 1-amino-3-methylbenzene 
• 110-46-3 isopentyl nitrite 
• 584-12-3 2-bromofuran 
• 17933-03-8 m-tolylboronic acid 
• 28987-79-3 m-tolylmagnesium bromide 
• 108-41-8 1-chloro-3-methylbenzene 
• 118486-94-5 2-(tributylstannyl)furan 
• 620-23-5 m-tolyl aldehyde 
• 1422-76-0 3-methylbenzenediazonium tetrafluoroborate 

Downstream Products

• 111853-62-4 5-m-Tolyl-3H-furan-2-one 

Relevant academic research and scientific papers

Transition-Metal-Free Synthesis of Heterobiaryls through 1,2-Migration of Boronate Complex

The synthesis of a diverse range of heterobiaryls has been achieved by a transition-metal-free sp2–sp2 cross-coupling strategy using lithiated heterocycle, aryl or heteroaryl boronic ester and an electrophilic halogen source. The construction of heterobiaryls was carried out through electrophilic activation of the aryl–heteroaryl boronate complex, which triggered 1,2-migration from boron to the carbon atom. Subsequent oxidation of the intermediate boronic ester afforded heterobiaryls in good yield. A comprehensive 11B NMR study has been conducted to support the mechanism. The cross coupling between two nucleophilic cross coupling partners without transition metals reveals a reliable manifold to procure heterobiaryls in good yields. Various heterocycles like furan, thiophene, benzofuran, benzothiophene, and indole are well tolerated. Finally, we have successfully demonstrated the gram scale synthesis of the intermediates for an anticancer drug and OLED material using our methodology.

METHOD FOR PREPARING SILANE DERIVATIVES FROM FURAN DERIVATIVES IN PRESENCE OF BORANE CATALYST

The present invention relates to a method for preparing various silane derivatives by subjecting various furan derivatives to hydrosilylation in the presence of a borane catalyst. The method for preparing silane derivatives according to the present invention is a very efficient method for converting, into high value-added silane derivatives, various furan derivatives derived from biomass.

Chemo-Enzymatic Metathesis/Aromatization Cascades for the Synthesis of Furans: Disclosing the Aromatizing Activity of Laccase/TEMPO in Oxygen-Containing Heterocycles

The unprecedented Trametes versicolor laccase/TEMPO-catalyzed aromatization of 2,5-dihydrofurans to furans is described. A variety of furan derivatives have been synthesized in moderate to high conversions (21-99%) and yields (20-76%) under mild reaction

Perylenequinonoid-catalyzed photoredox activation for the direct arylation of (het)arenes with sunlight

Naturally occurring perylenequinonoid pigments (PQPs) have attracted considerable attention owing to their excellent properties of photosensitization. They have been widely investigated as an aspect of photophysics and photobiology. However, their applications in photocatalysis are yet to be explored. We report here that sunlight along with 1 mol% cercosporin, which is one of the perylenequinonoid pigments, catalyzes the direct C-H bond arylation of (het)arenes by a photoredox process with good regioselectivity and broad functional group compatibility. Furthermore, a gram-scale reaction with great conversions of substrates was achieved even by a cercosporin-containing supernatant without organic solvent extraction and purification after liquid fermentation. Thus we set up a bridge between microbial fermentation and organic photocatalysis for chemical reactions in a sustainable, environmentally friendly manner.

Facile C–H arylation using catalytically active terminal sulfurs of 2 dimensional molybdenum disulfide

The first methodology of C–H arylation of heteroarene via 2D transition metal dichalcogenides that have catalytically active edge functional groups was described. The terminal sulfur groups could effectively catalyze a formation of an azo-linked intermediate with aryl diazonium salts, leading to produce heteroarenes with good yields. This novel methodology using bulk 2D transition metal dichalcogenides that have catalytically active edge functional groups can apply for various reactions to achieve C–C bond formation in the fields of heterogeneous catalysis that is easily separable, highly reusable, and inexpensive method.

Continuous Visible-Light Photoflow Approach for a Manganese-Catalyzed (Het)Arene C?H Arylation

Manganese photocatalysts enabled versatile room-temperature C?H arylation reactions by means of continuous visible-light photoflow, thus allowing for efficient C?H arylations in 30 minutes with ample scope. The robustness of the manganese-catalyzed photoflow strategy was shown by visible light-induced gram-scale synthesis, clearly outperforming the batch performance.

Stille couplings in water at room temperature

A nonionic amphiphile, TPGS-750-M, enables efficient Stille couplings between a wide range of substrates to be conducted in water as the only medium, in most cases at room temperature.

Synthesis of 2-substituted furans by iron- and palladium-catalyzed coupling reactions

The synthesis of 2-substituted furans via palladium- and iron-catalyzed coupling utilizing 2-bromofuran is described. Whereas palladium-catalyzed Suzuki coupling effectively provided the corresponding aryl furans, little or no product was obtained by palladium-catalyzed coupling with various alkyl nucleophiles. Iron-catalyzed coupling proved effective for the synthesis of primary and secondary alkyl furans in modest yields and aryl furans in low yields. Georg Thieme Verlag Stuttgart New York.

Efficient procedure for the preparation of 2-bromofuran and its application in the synthesis of 2-arylfurans

A simple, straightforward, and scalable procedure for the preparation of 2-bromofuran using N-bromosuccinimide (NBS) in dimethylformamide (DMF) is reported. The described preparation is conducted on a 20 to 50g scale and does not require extractive workup procedures or chromatographic purifications. To illustrate the synthetic applications of 2-bromofuran, palladium-catalyzed Suzuki coupling reactions of the prepared 2-bromofuran with various aryl boronic acids were investigated, and moderate to good yields of 2-arylfurans were obtained. Copyright Taylor & Francis Group, LLC.

Reaction of Aryl Triflates with Heteroaryllithiums via Aryne Intermediates

Unhindered aryl triflates react with a mixture of 1.5 equiv of LDA and 8-10 equiv of 2-lithiofuran at -78 deg C to form 2-arylfurans in 50-60percent yield via the corresponding arynes.Regioisomeric ratios of products are similar to those observed for reactions of arynes with well-precedented nucleophiles, such as metal amides.Steric hindrance ortho to the triflate increases the cine to ipso ratio, but lowers overall yields due to enhanced nucleophilic attack at sulfur leading to formation of the corresponding phenol.Use of 2-lithiothiophene affords the analogous arylthiophene.