Tag: M.W=150-200

Xu, Feng published the artcileDeveloping versatile and highly selective chemosensor for amines detection based on bis-thiophene methane containing cyclopalladated compounds, Recommanded Product: 1-Bromooctane, the publication is Sensors and Actuators, B: Chemical (2022), 131561, database is CAplus.

Cyclopalladated compounds (CPCs) have special properties due to its internal multiple conjugate planes in their structure. Herein, a series of bis-thiophene methane-pyridine-Schiff base derivatives (L_n) and their CPCs (L_n-Pd) as monomers were prepared All cyclopalladated monomers showed extreme sensitivity to organic amines in both solution and vapor states. The results of structural anal. manifested that the complexes before and after alkali-treated have a relationship between monomer and dimer. Furthermore, the base-induced mechanism was expounded. To take full advantage of this feature, we utilized the monomer containing tetraphenylethylene (L₄-Pd) to detect organic amines in solution, which showed excellent sensitivity toward triethylamine and diethylamine with the limit of detection of 41 nM and 104 nM, resp. Then, the L₄-Pd coated labels were exposed to amine vapors at ppm level, which showed visible color variation in n-butylamine, ethylenediamine, diethylamine, and cyclohexylamine atm. It is suggesting that the materials have potential applications to detect organic amines in solution at trace anal. and a solid colorimetric chemosensor for organic amine vapors.

Sensors and Actuators, B: Chemical published new progress about 111-83-1. 111-83-1 belongs to bromides-buliding-blocks, auxiliary class Bromide,Aliphatic hydrocarbon chain, name is 1-Bromooctane, and the molecular formula is C8H10S, Recommanded Product: 1-Bromooctane.

Referemce:
https://en.wikipedia.org/wiki/Bromide,
bromide – Wiktionary

Zhao, Yin-Na published the artcileA new approach to access difluoroalkylated diarylmethanes via visible-light photocatalytic cross-coupling reactions, Recommanded Product: Ethylbromofluoroacetate, the publication is Chemical Communications (Cambridge, United Kingdom) (2018), 54(32), 3993-3996, database is CAplus and MEDLINE.

Difluoroalkylated diarylmethanes with biol. and pharmacol. potentials were synthesized from para-quinone methides (p-QMs) and difluoroalkylating reagents via a visible light photocatalysis strategy. Mechanism studies showed that the excited photocatalyst, *fac-Ir(ppy)₃, was primarily quenched by p-QMs and the generated diarylmethane radical intermediates then underwent a radical-radical cross-coupling reaction with difluoroalkyl radicals. This reaction features mild conditions, high efficiency and wide functional group compatibility.

Chemical Communications (Cambridge, United Kingdom) published new progress about 401-55-8. 401-55-8 belongs to bromides-buliding-blocks, auxiliary class Fluoride,Bromide,Aliphatic hydrocarbon chain,Ester, name is Ethylbromofluoroacetate, and the molecular formula is C7H6Cl2O, Recommanded Product: Ethylbromofluoroacetate.

Referemce:
https://en.wikipedia.org/wiki/Bromide,
bromide – Wiktionary

Chan-Seng, Delphine published the artcilePrimary Structure Control of Oligomers Based on Natural and Synthetic Building Blocks, Related Products of bromides-buliding-blocks, the publication is ACS Macro Letters (2014), 3(3), 291-294, database is CAplus and MEDLINE.

Solid-phase synthesis was exploited for the preparation of oligomers constructed from natural and synthetic building blocks by combining the formation of amide bonds and copper-assisted alkyne-azide cycloaddition reactions extending the variety of oligomers with well-defined primary structures accessible through this technique and providing control over the spacing between amino acids.

ACS Macro Letters published new progress about 56970-78-6. 56970-78-6 belongs to bromides-buliding-blocks, auxiliary class Bromide,Carboxylic acid,Aliphatic hydrocarbon chain,Inhibitor, name is 3-Bromo-2-methylpropanoic acid, and the molecular formula is C4H7BrO2, Related Products of bromides-buliding-blocks.

Referemce:
https://en.wikipedia.org/wiki/Bromide,
bromide – Wiktionary

Lin, Hang published the artcileOrganic dyads and triads based on the triphenylene-rylenediimide couple: Molecular design, self-organization, and photo-physical properties, Synthetic Route of 111-83-1, the publication is Dyes and Pigments (2022), 109911, database is CAplus.

Liquid-crystalline D-A dyads and A-D-A triads, based on the chem. association of electron-donor (D) triphenylene discogens and electron-acceptor (A) perylene/benzoperylene diimides, have been synthesized by the Pd-catalyzed Sonogashira coupling/DBU-promoted cyclization reactions tandem. These mol. heterojunctions spontaneously self-organize into columnar hexagonal (Col_hex) or/and rectangular (Col_rec) mesophases, over broad temperature ranges including room temperature, with the antagonist moieties segregated into alternated homo-mol. (homolithic) stacks within mixed columns. Their intramol. electron and energy transfers have been studied by UV/Vis absorption and fluorescence emission spectroscopies. Due to photo-induced electron transfer between donor and acceptor units, fluorescence quenching is systematically observed for all the dyads and triads. This study further reveals that perylenediimide is a stronger electron acceptor than the larger benzoperylenediimide building block. D. function theory calculations of their mol. structures and HOMO-LUMO energy levels and gaps support the exptl. results and demonstrate that these donor-acceptor systems have potential applications in various optoelectronic devices.

Dyes and Pigments published new progress about 111-83-1. 111-83-1 belongs to bromides-buliding-blocks, auxiliary class Bromide,Aliphatic hydrocarbon chain, name is 1-Bromooctane, and the molecular formula is C8H17Br, Synthetic Route of 111-83-1.

Referemce:
https://en.wikipedia.org/wiki/Bromide,
bromide – Wiktionary

Mravec, D. published the artcileSynthesis of the structural analogs of LSD, Formula: C4H7BrO2, the publication is Cesko-Slovenska Farmacie (1975), 24(3), 110-15, database is CAplus.

MeNH2 added to CH2:CMeCO2Me in MeOH to give MeNHCH2CHMeCO2Me, which was hydrolyzed to the acid; PrCO2H was converted to MeNHCH2CHEtCO2Me by successive bromination, esterification with MeOH, modified Reformatskii reaction to give HOCH2CHEtCO2Me, bromination, and amination with MeNH2. CH2:CRCO2H (R = Me, Et) were successively hydrobrominated, brominated, amidated with Et2NH, and aminated with MeNH2 to give MeNHCH2CHRCONEt2. MeNHCH2CHRCOR1 (R = Me, Et; R1 = OH, OMe, NEt2) reacted with 3-(2-bromoethyl)indole (from the esterification, LiAlH4 reduction, and bromination of indole-3-acetic acid) to give 5 LSD analogs I.

Cesko-Slovenska Farmacie published new progress about 56970-78-6. 56970-78-6 belongs to bromides-buliding-blocks, auxiliary class Bromide,Carboxylic acid,Aliphatic hydrocarbon chain,Inhibitor, name is 3-Bromo-2-methylpropanoic acid, and the molecular formula is C4H7BrO2, Formula: C4H7BrO2.

Referemce:
https://en.wikipedia.org/wiki/Bromide,
bromide – Wiktionary

Szabo, L. P. published the artcileLaboratory scale resolution of short chain chiral carboxylic acid, Safety of 3-Bromo-2-methylpropanoic acid, the publication is Special Publication – Royal Society of Chemistry (1994), 496-504, database is CAplus.

Zeolite A was used as a support and onto the surface via ethylene-diamine spacer L-leucine, L-glutamic acid, L-lysine and L-phenylalanine were chem. bonded to prepare chiral stationary phases. The laboratory scale resolution of (+/-)-3-bromo-2-methyl-propionic acid (DL-BMPA) on these stationary phases was studied. The new packings proved to be efficient for the laboratory scale resolution of DL-BMPA.

Special Publication – Royal Society of Chemistry published new progress about 56970-78-6. 56970-78-6 belongs to bromides-buliding-blocks, auxiliary class Bromide,Carboxylic acid,Aliphatic hydrocarbon chain,Inhibitor, name is 3-Bromo-2-methylpropanoic acid, and the molecular formula is C13H17BF3NO2, Safety of 3-Bromo-2-methylpropanoic acid.

Referemce:
https://en.wikipedia.org/wiki/Bromide,
bromide – Wiktionary

v. Braun, Julius published the artcileTransformations of cyclopentadiene, Application of (2-Bromoethyl)cyclopentane, the publication is Berichte der Deutschen Chemischen Gesellschaft [Abteilung] B: Abhandlungen (1937), 1750-60, database is CAplus.

It had been found (C. A. 22, 1146) that 2-cyclopentyl chloride (I) reacts like allyl chloride with aromatic Grignard reagents and the resulting arylcyclopentenes take up HBr to form 2-arylcyclopentyl bromides As was expected, nonaromatic Grignard reagents act in the same way with I and addition of HBr to the products offers no difficulty but, contrary to the aromatic compounds, it results in the formation of 3-alkylcyclopentyl bromides. Their structure was proved by the reaction recently described (C. A. 28, 2329.3): replacement of the Br by CO₂H by means of Mg and CO₂, α-bromination of the acid, and conversion of the Br acid into the acid chloride which with NaN₃ gave a 3-alkylcyclopentanone. HBr thus adds to the alkylcyclopentenes in just the opposite way to its addition to the aryl compounds O and halogens, like Ph, attract electrons but their effect decreases rapidly with distance and, as was expected, β-2-cyclopentenylethyl alc. (II) heated with HBr gave, together with some of the unsaturated bromide (III), the saturated β-(3-bromocyclopentyl) ethyl bromide (IV). It was attempted to prove the structure of IV by replacing both Br atoms with CO₂H but the dicarboxylic acid could not be obtained pure. That, however, it was not the 2-Br compound was indicated by the fact that with 1 mol. malonic ester and 2 atoms Na it gave, along with high-mol. compounds, and a brominated ester of lower mol. weight, only a small amount (30%) of a compound C₁₄H₂₂O₂ (V). Had the ring-substituted Br in IV been in the 2-position, the strainless bicyclo (0.3.3)octane derivative would undoubtedly have been formed very smoothly. V is believed to be the bicyclo (1,2,3) octane It is decarboxylated to the monocarboxylic acid (VI) by means of which it is hoped to develop the field of these bicyclo compounds, representatives of which (with the exception of the Komppa ketone) are as yet known only in a few complex derivatives of the camphor series. Thus far it has not been possible to pass from IV to the parent hydrocarbon of the bicyclo(1.2.2.)heptane series; as was to be expected from the strain existing in the latter system, the action of Na on IV is exclusively extramol. and there results a mixture, boiling within wide limits, of hydrocarbons (C₇H₁₂)_n of varying mol. weight 2-Ethylcyclopentene (VII) (30% yield), b₇₆₈ 99-103°, d₄²⁰ 0.7874, n_D²⁰ 1.43030. It readily adds Br in CS₂ to form a liquid dibromide, b₁₂ 98-100°, faintly yellow but soon decomposing and darkening. 3-Bromo-1-ethylcyclopentane (65% from VII shaken 50 hrs. with 2-3 volumes fuming HBr), b₄₂ 84-6°, d₄²⁰ 1.2597. It reacts readily with Mg and when the product is treated with CO₂ and worked up in the usual way it gives the Na₂CO₃-insoluble 3,3′-diethylbicyclopentyl, b₁₅ 125°, d₄¹⁵ 0.8757, n_D²⁰ 1.47097, and the Na₂CO₃-soluble 3-ethylcyclopentanecarboxylic acid, b₁₅ 132-4°, whose acid chloride, b₁₁ 176-8°, with 1 mol. Br at 125° gives almost quantitatively the α-Br derivative, b₁₁ 110°, and this, in pyridine solution or suspension, heated with NaN₃, then treated with alc. and alkali, acidified with HCl after 15 min. and distilled with steam, yields 3-ethylcyclopentanone, b. 150°, forming a semicarbazone, m. 175°, and with m-O₂NC₆H₄CHO, alc. and a trace of alkali, a lemon-yellow condensation product, C₂₀H₁₈O₅N₂, m. 142°. 2-Isoamylcyclopenten (60%), b₅₉ 86-7°, does not darken on standing, d₄²² 0.7969. 3-Bromo-1-isoamylcyclopentane, b₁₅ 109-10°; 3-carboxylic acid, b₂₀ 160°, d₄^20.5 0.9566. 2-Dodecylcyclopentene (50%), b₁₅ 172°, d₄¹⁶ 0.8262, n_D²⁰ 1.45667. Addition of HBr requires long heating, a considerable part of the hydrocarbon remaining unattacked even after 15 hrs. The 3-bromo-1-dodecylcyclopentane b_0.1 163°, d₄^14.5 0.9811. Mg and CO₂ give, with some 3-carboxylic acid, m. 29°, chiefly dodecylcyclopentane, b₁₅ 175°, d₄¹⁸ 0.8280, n_D²⁰ 1.45737 and 3,3′-didodecylbicyclopentyl, b_0.2 260° (the latter is a semi-solid thick oil, probably consisting of a mixture of stereoisomers). The cyclopentene forms a dibromide, b_0.2 180° without appreciable decomposition but becomes discolored on standing. C₅H₉MgCl and I react very vigorously, yielding somewhat more than 60% 2-cyclopentenylcyclopentane, b₉ 60-4°, d₄²⁰ 0.8838; shaken 60 hrs. with fuming HBr, it gives almost 80% 3-bromobicyclopentyl, b₉ 115°, which with Mg and CO₂ yields bicyclopentyl, b₉ 67°, almost pure tetracyclopentyl, (C₅H₉C₅H_8^–)₂, b₉ 205-7°, and about 30% bicyclopentyl-3-carboxylic acid, b₁₃ 172°, d₄¹⁹ 1.0398; acid chloride, b₁₀ 125°, gives 70% of the α-Br derivative, faintly yellow, b_0.3 128-32°, which with NaN₃ yields 3-cyclopentylcyclopentanone, volatile with steam (oxime, b₁₀ 145-6°, m. 46°; semicarbazone, m. 184°; bis(m-nitro-benzal) derivative, yellow-red, m. 172°). 2-Cyclopentenyl-cyclohexane (60%), b₁₂ 80-5°, d₄¹⁸ 0.8995, n_D²⁰ 1.48698. 3-Bromo-l-cyclohexylcyclopentane (70%), b₁₁ 132-6°, becomes yellowish and splits off a little HBr on standing; Mg and CO₂ give cyclopentylcyclohexane, b₁₁ 86-8°, d₄²³ 0.8886, n_D²⁰ 1.47491, 15% 3,3′-dicyclohexylbicyclopentyl, b_0.1 180°, d₄¹⁸ 0.9592, n_D²⁰ 1.51290, and about 15% 3-cyclohexylcyclopentanecarboxylic acid, b₁₁ 180°, d₄¹⁷ 1.0343, n_D²⁰ 1.49255; the acid chloride, b₁₁ 142-4°, gives an α-Br derivative, b_0.05 140-2°, which with NaN₃ yields 3-cyclo-hexylcyclopentanone, b₁₀ 126°, d₄¹⁹ 0.9730, n_D²⁰ 1.48476 (semicarbazone, m. 186°; bis(m-nitrobenzal) derivative, orange, m. 122°). Et 2-cyclopentenylacetate, from the acid heated 3 hrs. on the water bath with 2 parts by weight of EtOH and 0.1 part concentrated H₂SO₄, b₁₂ 81°. With 10 atoms Na in EtOH it gives 70% II, b₁₅ 82-3°, d₄^23.5 0.9432, n_D²⁵ 1.4695, vigorously decolorizes KMnO₄, readily takes up 2 H atoms with Pd to give β-cyclopentylethyl alc. (also obtained from C₅H₉CH₂CO₂Et with Na and alc.), bit 84-5°,which with HBr at 100° gives almost 100% of the bromide, C₅H₉CH₂CH₂Br, b₁₁ 70-1°. The fraction b_0.4 below 100° (chiefly around 70°) of the product of the reaction of II with HBr and which consists chiefly of III with unchanged II, gives with NHMe₂ in benzene at 100° the unsaturated base, C₅H₇CH₂CH₂NMe₂, b₁₃ 66-8°, d₄²¹ 0.8291 (picrate, m. 136-8°; chloroplatinate, m. 148°; methiodide, m. 223°). IV, b_0.4 100°, darkens only on long standing. V, b₁₂ 155-60°; free dicarboxylic acid, powder, m. 189-90° (foaming) with formation of VI, b₁₃ 150-2°, d₄²⁶ 1.0603.

Berichte der Deutschen Chemischen Gesellschaft [Abteilung] B: Abhandlungen published new progress about 18928-94-4. 18928-94-4 belongs to bromides-buliding-blocks, auxiliary class Bromide,Aliphatic cyclic hydrocarbon, name is (2-Bromoethyl)cyclopentane, and the molecular formula is C16H14O6, Application of (2-Bromoethyl)cyclopentane.

Referemce:
https://en.wikipedia.org/wiki/Bromide,
bromide – Wiktionary

Tang, Min-Min published the artcileRole of Rim Functions in Recognition and Selectivity of Small-Molecule Guests in Water-Soluble Cavitand Hosts, Safety of 1-Bromooctane, the publication is Chemistry – An Asian Journal (2022), 17(15), e202200466, database is CAplus and MEDLINE.

Groups on the upper rim of cavitands can play major roles in the recognition of small mols. Water-soluble deep cavitands 1, 2 or 3 bearing the walls upper rim of imidazole, urea, and Me urea, resp., were synthesized and characterized as hosts of small-mol. guests. The vase forms of 1 or 2 are stabilized through H-bonding to solvent water mols. between adjacent walls. Various small alkyl organic mols. – alcs., halides, cycloalkane derivatives and heterocycles – are efficiently bound in 1. For n-alcs. (C5 to C12), the -OH end is fixed at the upper rim and the alkyl parts are in the hydrophobic cavity. The longer alc. guests (C7-C12) show coiling. Cycloalkane guests rotate rapidly on all 3 axes within the host cavity, while heterocycles show orientations placing their heteroatoms near the cavitand rim. Competition studies between alkyl chlorides, bromides and iodides showed preference for binding of iodides in 1. Competition between cavitands for hexyl halide guests halide showed the order 2>1>3.

Chemistry – An Asian Journal published new progress about 111-83-1. 111-83-1 belongs to bromides-buliding-blocks, auxiliary class Bromide,Aliphatic hydrocarbon chain, name is 1-Bromooctane, and the molecular formula is C18H15N3O3, Safety of 1-Bromooctane.

Referemce:
https://en.wikipedia.org/wiki/Bromide,
bromide – Wiktionary

Unny, Divya published the artcileStarburst configured imidazole-arylamine organic sensitizers for DSSC applications, Recommanded Product: 1-Bromooctane, the publication is Journal of Photochemistry and Photobiology, A: Chemistry (2022), 113735, database is CAplus.

In this study, special consideration was given to the design and synthesis of imidazole-arylamine-based organic sensitizers with three arylamine donors (Carbazole, Triphenylamine and Phenothiazine) paired with cyanoacrylic acid acceptor to form D-D-A architecture. Phenothiazine-imidazole dye (PZIM) was found to be the best for DSSC applications in the D-D-A set. Hence, we further extended the conjugation of PZIM dye by three different spacers such as benzene (PZIMBe), thiophene (PZIMTh), and furan (PZIMFu) having different resonance energies, which resulted in the design of D-D-π-A. We have carried out the photo-phys., electrochem., and photovoltaic performance for these six dyes. The PZIM, PZIMTh and PZIMFu dyes were identified as the efficient among the six with an average power conversion efficiency of 7.0%, 7.10% and 7.30%, resp. Thiophene and furan outperformed benzene spacer as the best linkers in the D-D-π-A configuration. Grafting the bulky imidazole moiety onto the arylamine donor is considered to be a promising approach for tuning photovoltaic parameters by increasing the electron richness of the main electron donor core, increasing solubility, and suppressing aggregation.

Journal of Photochemistry and Photobiology, A: Chemistry published new progress about 111-83-1. 111-83-1 belongs to bromides-buliding-blocks, auxiliary class Bromide,Aliphatic hydrocarbon chain, name is 1-Bromooctane, and the molecular formula is C5H5NO3S, Recommanded Product: 1-Bromooctane.

Referemce:
https://en.wikipedia.org/wiki/Bromide,
bromide – Wiktionary

Nakum, Kiran J. published the artcileThe influence of lateral hydroxyl group and molecular flexibility on the mesogenic behavior of a new homologous series based on thiophene-chalcone: Synthesis, characterization, crystal structure and DFT study, Application In Synthesis of 111-83-1, the publication is Journal of Molecular Structure (2022), 132891, database is CAplus.

A new homologous series of rod shaped calamite liquid crystals, I [R = Et, decyl, octadecyl, etc.] based on thiophene-chalcone was prepared by condensation of 2-hydroxy-4-n-alkoxybenzaldehydes (n = 2 to 8, 10, 12, 14, 16, 18) with (E)-1-(4-aminophenyl)-3-(thiophen-2-yl)prop-2-en-1-one. FT-IR, ¹H NMR, ¹³C NMR and mass spectroscopy were used to characterize synthesized compds I. The liquid crystal behavior of all synthetic compounds I was investigated using Differential Scanning Calorimeter (DSC) and Polarizing Optical Microscope (POM). Lower members of the homologous series, n-heptyloxy to n-dodecyloxy , were nematogenic, and higher members, n-tetradecyloxy to n-octadecyloxy , were smectogenic, whereas n-ethoxy to n-pentyloxy derivatives were non-mesogenic, and n-hexyloxy exhibited monotropic nematic phase. The n-pentyloxy derivative crystallized under monoclinic, space group P2/c with unit cell dimensions a = 16.1723(9) Å, b = 5.8603(3) Å, c = 22.4320(12) Å, β = 100.153(2) , V = 2092.69(9) Å3. The ethoxy derivative was subjected to DFT (d. functional theory) level computations and complete geometric optimization utilizing B3LYP/6-311G (d, p) basis sets and results were compared with structurally similar compound

Journal of Molecular Structure published new progress about 111-83-1. 111-83-1 belongs to bromides-buliding-blocks, auxiliary class Bromide,Aliphatic hydrocarbon chain, name is 1-Bromooctane, and the molecular formula is C8H17Br, Application In Synthesis of 111-83-1.

Referemce:
https://en.wikipedia.org/wiki/Bromide,
bromide – Wiktionary