Month: October 2022

Liu, Can; Shen, Ni; Shang, Rui published the artcile< Photocatalytic defluoroalkylation and hydrodefluorination of trifluoromethyls using o-phosphinophenolate>, Application In Synthesis of 627-27-0, the main research area is alkene aryl trifluoroacetamide phosphinophenolate catalyst defluoroalkylation hydrodefluorination; difluoro aryl alkyl amide preparation; trifluoroacetate alkene phosphinophenolate catalyst defluoroalkylation; alkyl difluoro ester preparation; alkenol trifluoromethyl arene phosphinophenolate catalyst defluoroalkylation; arenyl difluoroalkanol preparation.

Under visible light irradiation, o-phosphinophenolate functions as an easily accessible photoredox catalyst to activate trifluoromethyl groups in trifluoroacetamides, trifluoroacetates and trifluoromethyl (hetero)arenes to deliver corresponding difluoromethyl radicals. It works in relay with a thiol hydrogen atom transfer (HAT) catalyst to enable selective defluoroalkylation and hydrodefluorination. The reaction allowed for the facile synthesis of a broad scope of difluoromethylene-incorporated carbonyl and (hetero)aromatic compounds, which are valuable fluorinated intermediates of interest in the pharmaceutical industry. The ortho-diphenylphosphino substituent, which is believed to facilitate photoinduced electron transfer, plays an essential role in the redox reactivity of phenolate. In addition to trifluoromethyl groups, pentafluoroethyl groups could also be selectively defluoroalkylated.

Nature Communications published new progress about Alkenes Role: RCT (Reactant), RACT (Reactant or Reagent). 627-27-0 belongs to class alcohols-buliding-blocks, and the molecular formula is C4H8O, Application In Synthesis of 627-27-0.

Referemce:
Alcohol – Wikipedia,
Alcohols – Chemistry LibreTexts

Sheng, Yu-Jing; Su, Min; Xiao, Hang; Shi, Quan-Xi; Sun, Xiao-Li; Zhang, Ruliang; Bao, Hongli; Wan, Wen-Ming published the artcile< Barbier Hyperbranching Polymerization-Induced Emission from an AB-Type Monomer>, Application of C19H16O, the main research area is Barbier hyperbranching polymerization induced emission photophys property; barbier reaction; hyperbranching polymerization; luminescence; nonconjugated polymer; polymerization-induced emission.

Luminescent polymer materials have gained considerable research efforts in the past decades and are generally mol. designed by extending the π system of the polymer main chain or by incorporating chromophores into the polymer chain, which suffer from poor solubility, difficult synthesis, or multi-step procedures. Meanwhile, according to the step-growth polymerization theory, synthesis of hyperbranched polymers from an AB-type monomer is still challenging. Herein, we report a one-pot synthesis of nonconjugated luminescent hyperbranched polymer material via Barbier hyperbranching polymerization-induced emission (PIE) from an AB-type monomer. The key step in the realization of the hyperbranched polymer is bi-functionalization of a mono-functional group. Through a Barbier reaction between an organohalide and an ester group in one pot, bi-functionalization of mono-functional ester is realized through two-step nucleophilic additions, resulting in hyperbranched polytriphenylmethanols (HPTPM). Attributed to through-space conjugation and inter- and intramol. charge-transfer effects induced by polymer chain, nonconjugated HPTPMs are PIEgens, which are tunable by monomer structure and polymerization time. When all Ph groups are rotatable, HPTPM is aggregation-induced emission type PIEgen. Whereas, it is aggregation-caused quenching type PIEgen if some Ph groups are rotation forbidden. Further potential applications of PIEgen are in the fields of explosive detection and artificial light harvesting systems. This work, therefore, expands the monomer library and mol. design library of hyperbranched polymers through “”bi-functionalization of mono-functional group”” strategy, which eventually expands the preparation library of nonconjugated luminescent polymer materials through one-pot PIE from nonemissive monomer.

Chemistry – A European Journal published new progress about Aggregation-induced emission. 76-84-6 belongs to class alcohols-buliding-blocks, and the molecular formula is C19H16O, Application of C19H16O.

Referemce:
Alcohol – Wikipedia,
Alcohols – Chemistry LibreTexts

Chinoy, Zoeisha S.; Bodineau, Clement; Favre, Camille; Moremen, Kelley W.; Duran, Raul V.; Friscourt, Frederic published the artcile< Selective Engineering of Linkage-Specific α2,6-N-Linked Sialoproteins Using Sydnone-Modified Sialic Acid Bioorthogonal Reporters>, Electric Literature of 5505-63-5, the main research area is sialoprotein engineering sydnone sialic acid bioorthogonal chem; click chemistry; enzymes; fluorescent probes; glycobiology; sialic acids.

The metabolic oligosaccharide engineering (MOE) strategy using unnatural sialic acids has recently enabled the visualization of the sialome in living systems. However, MOE only reports on global sialylation and dissected information regarding subsets of sialosides is missing. Described here is the synthesis and utilization of sialic acids modified with a sydnone reporter for the metabolic labeling of sialoconjugates. The positioning of the reporter on the sugar significantly altered its metabolic fate. Further in vitro enzymic assays revealed that the 9-modified neuraminic acid is preferentially accepted by the sialyltransferase ST6Gal-I over ST3Gal-IV, leading to the favored incorporation of the reporter into linkage-specific α2,6-N-linked sialoproteins. This sydnone sugar presents the possibility of investigating the roles of specific sialosides.

Angewandte Chemie, International Edition published new progress about Bioorthogonal reaction. 5505-63-5 belongs to class alcohols-buliding-blocks, and the molecular formula is C6H14ClNO5, Electric Literature of 5505-63-5.

Referemce:
Alcohol – Wikipedia,
Alcohols – Chemistry LibreTexts

Hu, Bowen; Zhang, Yuzhe; Yin, Geping; Chen, Dafa published the artcile< Half-sandwich ruthenium (II) complexes with bidentate NN ligands: active catalysts for synthesis of quinolines and pyrroles by acceptorless dehydrogenative cyclization>, COA of Formula: C7H9NO, the main research area is quinoline pyrrole preparation acceptorless dehydrogenative cyclization; half sandwich ruthenium complex bidentate ligand preparation.

Four (η6-p-cymene)Ru(II) complexes with bidentate NN ligands, (η6-p-cymene)Ru(C5H4N-C5H3N-OH), (η6-p-cymene)Ru(C5H4N-CH2-C5H4N), (η6-p-cymene)Ru(C5H4N-CH2-C5H3N-OH) and (η6-p-cymene)Ru(C5H4N-CH2-C5H3N-OCH3) were prepared These complexes were all characterized by 1H NMR, 13C NMR and elemental anal., and (η6-p-cymene)Ru(C5H4N-CH2-C5H4N) was further determined by single crystal crystallog. Complexes were treated as catalysts for cyclizations of amino alcs. with ketones, and (η6-p-cymene)Ru(C5H4N-CH2-C5H3N-OH) exhibited the highest activity. The cyclization reactions proceeded in toluene with 0.5 mol% catalyst loading, and a series of quinolines and pyrroles were synthesized.

Youji Huaxue published new progress about Amino alcohols Role: RCT (Reactant), RACT (Reactant or Reagent) (beta). 5344-90-1 belongs to class alcohols-buliding-blocks, and the molecular formula is C7H9NO, COA of Formula: C7H9NO.

Referemce:
Alcohol – Wikipedia,
Alcohols – Chemistry LibreTexts

Armylisas, Abu Hassan N.; Fauzi, Siti H. M.; Mohd, Noor K.; Yeong, Shoot K.; Zainab, Idris; Azwadi, Che Sidik N. published the artcile< Excellent Properties of Dimer Fatty Acid Esters as Biolubricant Produced by Catalyst- and Solvent-Free Esterification>, Formula: C8H18O, the main research area is dimer fatty acid ester biolubricant catalyst solvent free esterification.

Currently most technologies available to produce esters require acid or base catalysts for esterification or transesterification reactions. Production of dimerate esters (DE) exhibiting potential as a biolubricant for low temperature applications using catalyst- and solvent-free approaches is presented in this article. Hydrogenated C36 dimer acid and alc. are reacted under the following conditions: dimer acid/alc. (1:4.5 molar ratio), 150-200 °C, 24 h, 3Å mol. sieve (15% weight/weight). The performances of four DE species-dibutyl, dihexyl, di-(2-ethylhexyl), and dioctyl dimerate-as lubricant base stocks are evaluated by kinematic viscosity, viscosity index, cloud and pour point (cold flow properties) as well as oxidative stability, and compared with com. synthetic lubricant base stock and DE, Radialube 7121. High viscosity indexes ranging between 129 and 138 are observed for the synthesized DEs, which are comparable with two com. base stock, polyalpha olefin (PAO), and polyolester (POE). Significantly low pour point, less than -42 °C, is observed for di-(2-ethylhexyl) dimerate attributed to the branching of the side chain. The DEs are categorized as ISO VG 68 based on their viscosity according to ISO 3448 classification and show potential as biolubricant with high viscosity index and excellent cold flow properties. Practical Applications: DFAE obtained have high potential to be used as lubricant base stock for equipment and machinery operating at extremely low temperature

European Journal of Lipid Science and Technology published new progress about Cloud point. 104-76-7 belongs to class alcohols-buliding-blocks, and the molecular formula is C8H18O, Formula: C8H18O.

Referemce:
Alcohol – Wikipedia,
Alcohols – Chemistry LibreTexts

Amrina, Rosyada Amran; Furusawa, Go; Lau, Nyok-Sean published the artcile< Saccharobesus litoralis gen. nov., sp. nov., a novel alginate-degrading bacterium isolated from the surface of intertidal algal turf>, HPLC of Formula: 87-73-0, the main research area is Saccharobesus alginate degrading bacterium phospholipid glycolipid fatty acid; Alteromonadaceae; agar degradation; alginate.

A novel rod-shaped, Gram-stain-neg., strictly aerobic and alginate-degrading marine bacterium, designated CCB-QB4T, was isolated from a surface of algal turf collected from a coastal area of Penang, Malaysia. The cells showed motility by a lateral flagellum. The rod-shaped cells formed long chains end-to- end. Phylogenetic anal. based on the 16S rRNA gene sequence of strain CCB-QB4T showed 94.07, 92.69, 91.52 and 90.90% sequence similarity to Algibacillus agarilyticus RQJ05T, Catenovulum maritimum Q1T, Catenovulum agarivorans YM01T and Catenovulum sediminis D2T, resp. Strain CCB-QB4T formed a cluster with A. agarilyticus RQJ05T. Strain CCB-QB4T was catalase-neg., oxidase-pos., and degraded agar, alginate, and starch. Cell growth was observed at 15-40°C, at pH 7.0-10.0 and in the presence of 1-6% (w/v) NaCl and glucose. The major fatty acids were summed feature 3 (C16:1 ω7c/iso-C15:0 2-OH), C16:0 and C18:1 ω7c. The polar lipids were phosphatidylethanolamine, two unidentified aminolipids, two unidentified glycolipids, an unidentified phospholipid and unidentified lipid. The major respiratory quinone was ubiquinone-8. The genomic DNA G+C content was 46.7 mol%. Based on the phenotypic, chemotaxonomic and phylogenetic data, strain CCB-BQ4T represents a novel species in a new genus, for which the name Saccharobesus litoralis gen. nov., sp. nov. is proposed. The type strain is CCB-QB4T (=JCM 33513T=-MBL 5008T).

International Journal of Systematic and Evolutionary Microbiology published new progress about Algibacillus agarilyticus. 87-73-0 belongs to class alcohols-buliding-blocks, and the molecular formula is C6H10O8, HPLC of Formula: 87-73-0.

Referemce:
Alcohol – Wikipedia,
Alcohols – Chemistry LibreTexts

Hu, Fangzhi; Li, Xinyao; Ding, Zhanshuai; Wang, Liang; Ge, Chunyan; Xu, Lubin; Li, Shuai-Shuai published the artcile< Divergent Synthesis of [3,4]-Fused 3-Alkenyl-Oxindoles via Propargyl Alcohol-Triggered C(sp3)-H Functionalization>, Product Details of C4H8O, the main research area is hydroxy arylethynyl pyrrolidinyl indolinone nucleophile binaphthyldiyl hydrogenphosphate catalyst cyclization; aryl diazatetracyclo hexadeca tetraenone preparation regioselective cascade.

Developed a synthetic strategy for divergent synthesis of diverse types of [3,4]-seven- or six-membered ring-fused 3-alkenyl-oxindoles incorporating benzazepine and significant building blocks from propargyl alcs. via the cascade nucleophilic substitution/site-selective hydride transfer/cyclization process unprecedentedly. Also, a variety of nucleophiles, including H2O, were available for controllable construction of a wide range of conjugated alkenes, conjugated ketones and allyl alcs. encompassing natural products and pharmaceutical motifs with the utilization of 4-amine substituted isatins and widespread terminal alkyne-derived propargyl alcs. Furthermore, the synthetic utility of the methodol. and mechanistic studies also were well presented.

ACS Catalysis published new progress about Alcohols, lower Role: RCT (Reactant), RACT (Reactant or Reagent). 627-27-0 belongs to class alcohols-buliding-blocks, and the molecular formula is C4H8O, Product Details of C4H8O.

Referemce:
Alcohol – Wikipedia,
Alcohols – Chemistry LibreTexts

Molla, Mosidur Rahaman; Das, Pradip; Guleria, Kanika; Subramanian, Ranga; Kumar, Amit; Thakur, Rima published the artcile< Cyanomethyl Ether as an Orthogonal Participating Group for Stereoselective Synthesis of 1,2-trans-β-O-Glycosides>, Application In Synthesis of 4064-06-6, the main research area is tetrazole glycoside cyclization azide cyanide glycoside preparation; disaccharide stereoselective glycosylation thioglycoside glycoside preparation protecting group cyanomethyl.

Stereoselective formation of glycosidic linkages has been the prime focus for contemporary carbohydrate chem. Herein, we report cyanomethyl (CNMe) ether as an efficient and effective participating orthogonal protecting group for the stereoselective synthesis of 1,2-trans-β-O-glycosides. The participating group facilitated good to high β-selective glycosylation with a broad range of electron-rich and electron-deficient glycosyl acceptors. Detailed exptl. and theor. studies reveal the involvement of CNMe ether in the formation of a six-membered imine-type cyclic intermediate for the observed stereoselectivity. Rapid incorporation and selective removal of the CNMe ether group in the presence of benzyl ether and isopropylidene acetal protection have also been reported here. The nitrile group provided an opportunity for the glyco-diversification through further derivatization.

Journal of Organic Chemistry published new progress about Cyclization. 4064-06-6 belongs to class alcohols-buliding-blocks, and the molecular formula is C12H20O6, Application In Synthesis of 4064-06-6.

Referemce:
Alcohol – Wikipedia,
Alcohols – Chemistry LibreTexts

Luckham, Stephen L. J.; Nozaki, Kyoko published the artcile< Toward the copolymerization of propylene with polar comonomers>, SDS of cas: 627-27-0, the main research area is propylene polar comonomers stereoselective transition metal catalyst isotacticity insertion.

Conspectus: polyolefins are produced in vast amounts and are found in so many consumer products that the two most commonly produced forms, polyethylene (PE) and polypropylene (PP), fall into the rather sparse category of mols. that are likely to be known by people worldwide, regardless of their occupation. Although widespread, the further upgrading of their properties (mech., phys., aesthetic, etc.) through the formation of composites with other materials, such as polar polymers, fibers, or talc, is of huge interest to manufacturers. To improve the affinity of polyolefins toward these materials, the inclusion of polar functionalities into the polymer chain is essential. The incorporation of a functional group to trigger controlled polymer degradation is also an emerging area of interest. Currently practiced methods for the incorporation of polar functionalities, such as post-polymerization functionalization, are limited by the number of compatible polar monomers: for example, grafting maleic anhydride is currently the sole method for practical functionalization of PP. In contrast, the incorporation of fundamental polar comonomers into PE and PP chains via coordination insertion polymerization offers good control, making it a highly sought-after process. Early transition metal catalysts (which are commonly used for the production of PE and PP) display poor tolerance toward the functional groups within polar comonomers, limiting their use to less-practical derivatives As late transition metal catalysts are less-oxophilic and thus more tolerant to polar functionalities, they are ideal candidates for these reactions. This Account focuses on the copolymerization of propylene with polar comonomers, which remains underdeveloped as compared to the corresponding reaction using ethylene. We begin with the challenges associated with the regio- and stereoselective insertion of propylene, which is a particular problem for late transition metal systems because of their propensity to undergo chain walking processes. To overcome this issue, we have investigated a range of metal/ligand combinations. We first discuss attempts with group 4 and 8 metal catalysts and their limitations as background, and then focus on the copolymerization of propylene with Me acrylate (MA) using Pd/imidazolidine-quinolinolate (IzQO) and Pd/phosphine-sulfonate (PS) precatalysts. Each generated regioregular polymer, but while the system featuring an IzQO ligand did not display any stereocontrol, that using the chiral PS ligand did. A further difference was found in the insertion mode of MA: the Pd/IzQO system inserted in a 1,2 fashion, while in the Pd/PS system a 2,1 insertion was observed We then move onto recent results from our lab using Pd/PS and Pd/bisphosphine monoxide (BPMO) precatalysts for the copolymerization of propylene with allyl comonomers. These P-stereogeneic precatalysts generated the highest isotacticity values reported to date using late transition metal catalysts. This section closes with our work using Earth-abundant nickel catalysts for the reaction, which would be especially desired for industrial applications: a Ni/phosphine phenolate (PO) precatalyst yielded regioregular polypropylene with the incorporation of some allyl monomers into the main polymer chain. The installation of a chiral menthyl substituent on the phosphine allowed for moderate stereoselectivity to be achieved, though the applicable polar monomers currently remain limited. The account concludes with a discussion of the factors that affect the insertion mode of propylene and polar comonomers in copolymerization reactions, beginning with our recent computational study, and finishing with work from ourselves and others covering both comonomer and precatalyst steric and electronic profiles with reference to the observed regioselectivity.

Accounts of Chemical Research published new progress about Coordination polymerization (insertion). 627-27-0 belongs to class alcohols-buliding-blocks, and the molecular formula is C4H8O, SDS of cas: 627-27-0.

Referemce:
Alcohol – Wikipedia,
Alcohols – Chemistry LibreTexts

Barros, A. B.; Moura, A. F.; Silva, D. A.; Oliveira, T. M.; Barreto, F. S.; Ribeiro, W. L. C.; Alves, A. P. N. N.; Araujo, A. J.; Moraes Filho, M. O.; Iles, B.; Medeiros, J. V. R.; Marinho-Filho, J. D. B. published the artcile< Evaluation of antitumor potential of cashew gum extracted from Anacardium occidentale Linn>, Computed Properties of 492-62-6, the main research area is anacardium colorectal carcinoma cashew gum antitumor melanoma model; Antitumor activity; Melanoma model; Polysaccharide.

This study aims to determine the antitumor potential of cashew gum in vitro and in vivo. The cashew gum structure is similar to already showed in literature. The cytotoxicity effect of CG was performed by MTT assay, and B16-F10 melanoma model was used to evaluate antitumor effect. The tumor inhibition was calculated based on tumor weight Hematol., histopathol., FTIR, oxidative stress and Western Blot anal. were performed to elucidate the mechanism of inhibition and toxic effects. As results, CG did not demonstrate cytotoxicity in vitro, however showed a significant tumor inhibition in vivo, with about 36.9 to 43% of reduction in tumor mass, with no toxicity to organs. Animals treated with CG did not show toxicity in normal tissues, FTIR spectrum and oxidative stress anal. of the tumor tissue indicated that CG cause tumor inhibition with the presence of apoptosis morphotype cells, without alterations in the levels of antioxidants components. In addition, it was observed that CG reduced the expression of γH2AX without changing the expression of caspase-3. With this, we can suggest that this polymer can assist in the anticancer activity and/or decrease the side effects of standard drugs used in treatment of cancer.

International Journal of Biological Macromolecules published new progress about Anacardium occidentale. 492-62-6 belongs to class alcohols-buliding-blocks, and the molecular formula is C6H12O6, Computed Properties of 492-62-6.

Referemce:
Alcohol – Wikipedia,
Alcohols – Chemistry LibreTexts