- Olefin functionalized IPr.HCl monomer as well as preparation method and application thereof
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The invention relates to an olefin functionalized IPr.HCl monomer, a preparation method thereof, a method for preparing an N-heterocyclic carbene functionalized organic polymer (PS-IPr-x) by using the olefin functionalized IPr.HCl monomer, and application of the N-heterocyclic carbene functionalized organic polymer as a heterogeneous catalyst for catalyzing reduction N-formylation of carbon dioxide and amine. A heterogeneous catalyst is prepared by using cheap and easily available DVB as a polymerization cross-linking agent through an AIBN-initiated olefin polymerization method, and has the advantages of low preparation cost and simple preparation method. Meanwhile, the catalytic activity of the catalyst is obviously higher than that of reported catalysts, and the catalyst has a wide practical application prospect.
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Paragraph 0069-0073; 0074; 0078
(2021/06/21)
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- Copper-Catalyzed Cascade N-Dealkylation/N-Methyl Oxidation of Aromatic Amines by Using TEMPO and Oxygen as Oxidants
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A novel tandem N-dealkylation and N-methyl aerobic oxidation of tertiary aromatic amines to N-arylformamides using copper and TEMPO has been developed. This methodology suggested an alternative synthetic route from N-methylarylamines to N-arylformamides.
- Li, Dianjun,Wang, Shihaozhi,Yang, Jiale,Yang, Jinhui
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supporting information
p. 6768 - 6772
(2021/12/31)
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- Borane-Trimethylamine Complex as a Reducing Agent for Selective Methylation and Formylation of Amines with CO2
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We report herein that a borane-trimethylamine complex worked as an efficient reducing agent for the selective methylation and formylation of amines with 1 atm CO2 under metal-free conditions. 6-Amino-2-picoline serves as a highly efficient catalyst for the methylation of various secondary amines, whereas in its absence, the formylation of primary and secondary amines was achieved in high yield with high chemoselectivity. Mechanistic studies suggest that the 6-amino-2-picoline-borane catalytic system operates like an intramolecular frustrated Lewis pair to activate CO2.
- Zhang, Yanmeng,Zhang, He,Gao, Ke
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supporting information
p. 8282 - 8286
(2021/10/25)
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- Copper promoted aerobic oxidative c(sp3)-c(sp3) bond cleavage of n-(2-(pyridin-2-yl)-ethyl)anilines
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A strategy of aerobic oxidative C(sp3)-C(sp3) bond cleavage of N-ethylaniline derivatives bearing azaarenes for the synthesis of N-aryl formamides has been developed. This approach was carried out smoothly with the CuI/TEMPO/air system to give N-aryl formamides in yields of 50-90%. With this methodology, a mutagenically active compound was constructed in 90% yield. Moreover, the reaction also provided a one-pot synthetic tool for accessing a promoter of hematopoietic stem cells by difunctionalization in 61% yield.
- Yu, Yang,Zhang, Yong,Sun, Chengyu,Shi, Lei,Wang, Wei,Li, Hao
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p. 2725 - 2732
(2020/03/11)
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- Tetracoordinate borates as catalysts for reductive formylation of amines with carbon dioxide
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We report sodium trihydroxyaryl borates as the first robust tetracoordinate organoboron catalysts for reductive functionalization of CO2. These catalysts, easily synthesized from condensing boronic acids with metal hydroxides, activate main group element-hydrogen (E-H) bonds efficiently. In contrast to BX3 type boranes, boronic acids and metal-BAr4 salts, under transition metal-free conditions, sodium trihydroxyaryl borates exhibit high reactivity of reductive N-formylation toward a variety of amines (106 examples), including those with functional groups such as ester, olefin, hydroxyl, cyano, nitro, halogen, MeS-, ether groups, etc. The over-performance to catalyze formylation of challenging pyridyl amines affords a promising alternative method to the use of traditional formylation reagents. Mechanistic investigation supports electrostatic interactions as the key for Si/B-H activation, enabling alkali metal borates as versatile catalysts for hydroborylation, hydrosilylation, and reductive formylation/methylation of CO2.
- Du, Chen-Xia,Huang, Zijun,Jiang, Xiaolin,Li, Yuehui,Makha, Mohamed,Wang, Fang,Zhao, Dongmei
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supporting information
p. 5317 - 5324
(2020/09/17)
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- Compound comprising urea and thiourea structures and synthesis method and application of compound
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The invention relates to an organic small molecular compound comprising urea and thiourea structures in a formula I and a synthesis method and application of the compound. According to in-vitro antitumor activity tests, the compound has high antitumor act
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Paragraph 0092-0093
(2019/08/07)
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- Potassium tert-Butoxide Prompted Highly Efficient Transamidation and Its Coordination Radical Mechanism
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A simple and highly efficient protocol was developed for the transamidation of N,N-disubstituted amides with primary amines in the presence of tBuOK, affording desired products in good to excellent yields. This reaction proceeded under nitrogen atmosphere and featured extensive substrate tolerance. Experimental investigation suggested that a coordination radical process enhanced this transformation.
- Tan, Zhiyong,Li, Zhenhua,Ma, Yao,Qin, Jinjing,Yu, Chuanming
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p. 4538 - 4545
(2019/07/18)
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- Catalyst-Free Transamidation of Aromatic Amines with Formamide Derivatives and Tertiary Amides with Aliphatic Amines
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A simple catalyst- and promoter-free protocol has been developed for the transamidation of weakly nucleophilic aromatic amines with formamide derivatives and low-reactivity tertiary amides with aliphatic amines. This strategy is advantageous because no catalyst or promoters are needed, no additives are required, separation and purification is easy, and the reaction is scalable. Significantly, this strategy was further applied to synthesize several pharmaceutical molecules on a gram scale, and excellent yields were achieved.
- Yin, Jiawen,Zhang, Jingyu,Cai, Changqun,Deng, Guo-Jun,Gong, Hang
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supporting information
p. 387 - 392
(2019/01/11)
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- Selective formylation or methylation of amines using carbon dioxide catalysed by a rhodium perimidine-based NHC complex
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Carbon dioxide can play a vital role as a sustainable feedstock for chemical synthesis. To be viable, the employed protocol should be as mild as possible. Herein we report a methodology to incorporate CO2 into primary, secondary, aromatic or alkyl amines catalysed by a Rh(i) complex bearing a perimidine-based NHC/phosphine pincer ligand. The periminide-based ligand belongs to a class of 6-membered NHC ligand accessed through chelate-assisted double C-H activation. N-Formylation and -methylation of amines were performed using a balloon of CO2, and phenylsilane as the reducing agent. Product selectivity between formylated and methylated products was tuned by changing the solvent, reaction temperature and the quantity of phenylsilane used. Medium to excellent conversions, as well as tolerance to a range of functional groups, were achieved. Stoichiometric reactions with reactants employed in catalysis and time course studies suggested that formylation and methylation reactions of interest begin with hydrosilylation of CO2 followed by reaction with amine substrates.
- Lam, Raphael H.,McQueen, Caitlin M. A.,Pernik, Indrek,McBurney, Roy T.,Hill, Anthony F.,Messerle, Barbara A.
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supporting information
p. 538 - 549
(2019/02/14)
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- TEMPO-Catalyzed Aerobic Oxidative Selenium Insertion Reaction: Synthesis of 3-Selenylindole Derivatives by Multicomponent Reaction of Isocyanides, Selenium Powder, Amines, and Indoles under Transition-Metal-Free Conditions
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A novel and efficient approach for the selenium functionalization of indoles was developed with selenium powder as the selenium source, catalyzed by 2,2,6,6-tetramethylpiperidinooxy (TEMPO) and employing O2 as the green oxidant. This protocol provides a practical route for the synthesis of 3-selenylindole derivatives and has the advantages of readily available starting materials, mild reaction conditions, and a wide scope of substrates. Electron spin-resonance (ESR) studies reveal that the approach involves the formation of nitrogen-centered radicals and selenium radicals via oxidation of in situ generated selenoates.
- Liu, Huan,Fang, Yi,Wang, Shun-Yi,Ji, Shun-Jun
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supporting information
p. 930 - 933
(2018/02/22)
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- A fragrant amines for the preparation of compounds (by machine translation)
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The invention discloses a fragrant amines preparation method of the compound, the method in a certain amount of supported cobalt-containing catalyst and a certain amount of fragrant nitryl compounds added in the reactor, then adding ammonium formate, and tetrahydrofuran mixed solvent with water, under stirring, the reaction temperature is 80 - 200 °C, reaction 0.5 - 24 h, to get the corresponding sweet-smelling amines compound. According to the preparation method of this invention the use of inexpensive, renewable bamboo shoots as raw materials for preparing carbon precursor, environmental protection, simple and easy to obtain, without adding nitrogen source material; at the same time in order to triphenylphosphine as the phosphorus source, low price. The substituted ammonium hydrogen as the reducing agent, the operation is simple, mild reaction conditions, in particular to an easily reducible functional group containing fragrant nitryl compounds for chemical selectivity can be controlled more easily. (by machine translation)
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Paragraph 0062-0065; 0067
(2018/11/10)
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- One-pot selective N-formylation of nitroarenes to formamides catalyzed by core-shell structured cobalt nanoparticles
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One-pot direct N-formylation of readily available nitroarenes with ammonium formate catalyzed by core-shell structured cobalt nanoparticles has been developed. A broad set of nitroarenes was successfully converted to their corresponding formamides in good to high yields with various functional group tolerance. This heterogeneous catalyst can be easily removed from the reaction medium and can be reused several times without a significant loss of reaction efficiency.
- Dong, Xiaosu,Wang, Zhaozhan,Duan, Yanan,Yang, Yong
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supporting information
p. 8913 - 8916
(2018/08/17)
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- Mechanistic Study of the N-Formylation of Amines with Carbon Dioxide and Hydrosilanes
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N-formylation of amines with CO2 and hydrosilane reducing agents proceeds via fast and complex chemical equilibria, which hinder easy analysis of the reaction pathways. In situ reaction monitoring and kinetic studies reveal that three proposed pathways, via direct- and amine-assisted formoxysilane formation (pathways 1 and 2, respectively) and via a silylcarbamate intermediate (pathway 3), are possible depending on the reaction conditions and the substrates. While pathway 1 is favored for non-nucleophilic amines in the absence of a catalyst, a base catalyst results in noninnocent behavior of the amine in the CO2 reduction step toward the formoxysilane intermediate. The reaction pathway is altered by strongly nucleophilic amines, which form stable adducts with CO2. Silylcarbamate intermediates form, which can be directly reduced to the N-formylated products by excess hydrosilane. Nevertheless, without excess hydrosilane, the silylcarbamate is an additional intermediate en route to formoxysilanes along pathway 2. Exchange NMR spectroscopy (EXSY) revealed extensive substituent exchange around the hydrosilane silicon center, which confirms its activation during the reaction and supports the proposed reaction mechanisms. Numerous side reactions were also identified, which help to establish the reaction equilibria in the N-formylation reactions.
- Hulla, Martin,Laurenczy, Gabor,Dyson, Paul J.
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p. 10619 - 10630
(2018/10/26)
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- Electrochemical N -Formylation of Amines via Decarboxylation of Glyoxylic Acid
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A new method for the synthesis of formamides has been developed through electrochemical decarboxylative N-formylation of amines with glyoxylic acid. This protocol provides an efficient approach to formamides with a broad range of functional group tolerance under ambient conditions.
- Lin, Dian-Zhao,Huang, Jing-Mei
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supporting information
p. 2112 - 2115
(2018/04/14)
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- Aerobic radical-cascade cycloaddition of isocyanides, selenium and imidamides: Facile access to 1,2,4-selenadiazoles under metal-free conditions
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A novel and facile metal-free method for the green synthesis of 1,2,4-selenadiazol-5-amine derivatives through the aerobic radical-cascade multi-component reactions of isocyanides, selenium powder and imidamides is reported herein. O2 in the air was employed as the green oxidant to achieve the cycloaddition with the generation of H2O as the sole by-product. It also features good functional group compatibility and broad substrate scope. In addition, this method was successfully applied to the functionalization of biologically active molecules.
- Fang, Yi,Zhu, Zheng-Lin,Xu, Pei,Wang, Shun-Yi,Ji, Shun-Jun
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supporting information
p. 1613 - 1618
(2017/06/05)
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- Cobalt(II)-Catalyzed Isocyanide Insertion Reaction with Sulfonyl Azides in Alcohols: Synthesis of Sulfonyl Isoureas
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A Co(II)-catalyzed isocyanide insertion reaction with sulfonyl azides in alcohols to form sulfonyl isoureas via nitrene intermediate has been developed. This protocol provides a new, environmentally friendly, and simple strategy for the synthesis of sulfonyl isourea derivatives by employing a range of substrates under mild conditions.
- Jiang, Tian,Gu, Zheng-Yang,Yin, Ling,Wang, Shun-Yi,Ji, Shun-Jun
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supporting information
p. 7913 - 7919
(2017/08/14)
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- An efficient reduction of N-substituted carbonylimidazolides into formamides by NaBH4
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A novel, simple and versatile protocol was investigated for highly efficient synthesis of formamides through reducing N-substituted carbonylimidazolides by NaBH4 under mild reaction conditions. By this method, not only carboxylic acids or isocyanates, but also amines can readily access formamides with high yields.
- Chen, Zhiyong,Cao, Yiming,Tian, Zeyu,Zhou, Xuan,Xu, Wenjin,Yang, Jia,Teng, Hanbing
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p. 2166 - 2170
(2017/05/10)
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- Selective formylation and methylation of amines using carbon dioxide and hydrosilane catalyzed by alkali-Metal carbonates
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The formylation and methylation of amines with carbon dioxide and hydrosilanes are emerging yet important types of transformations for CO2. Catalytic methods effective for both reactions with wide substrate scopes are rare because of the difficulty in controlling the selectivity. Herein, we report that simple and readily available inorganic bases alkali-metal carbonates, especially cesium carbonatecatalyze both the formylation and methylation reactions efficiently under mild conditions. The selectivity can be conveniently controlled by varying the reaction temperature and silane. A “cesium effect” on both reactions was observed by comparing the catalytic activity of various alkali-metal carbonates. Combined experimental and computational studies suggested the following reaction mechanism: (i) activation of Si?H by Cs2CO3, (ii) insertion of CO2 into Si?H, (iii) formylation of amines by silyl formate, and (iv) reduction of formamides to methylamines.
- Fang, Chi,Lu, Chunlei,Liu, Muhua,Zhu, Yiling,Fu, Yao,Lin, Bo-Lin
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p. 7876 - 7881
(2018/05/23)
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- Microwave-Assisted Formylations of Weakly Basic Anilines with Methyl Formate Catalyzed by Calcium and Hydrogen Triflimides
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Catalytic amounts of calcium and hydrogen triflimides [Ca(NTf2)2, HNTf2] were found to be efficient for the solvent-free formylation of a variety of weakly basic anilines by using cheap and widely available methyl formate as the formylating agent under microwave irradiation. Initial investigations showed that in the case of calcium triflimide, Br?nsted acid catalysis was most likely operating. Remarkably, the corresponding calcium triflate and triflic acid were significantly less active.
- Tan, Eric,Ung, Sosthène,Corbet, Matthieu
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supporting information
p. 1836 - 1840
(2016/05/09)
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- FORMYLATION PROCESS FOR PREPARING AROMATIC FORMAMIDES
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The present invention mainly pertains to a catalytic process for preparing a formamide,comprising reacting a formic acid ester with an aromatic amine carrying at least one electron withdrawing group in the presence of a catalyst of fluorine-containing sulfonimide metal salt.
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Paragraph 0056-0058
(2016/04/26)
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- BippyPhos: A single ligand with unprecedented scope in the Buchwald-Hartwig amination of (hetero)aryl chlorides
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Over the past two decades, considerable attention has been given to the development of new ligands for the palladium-catalyzed arylation of amines and related NH-containing substrates (i.e., Buchwald-Hartwig amination). The generation of structurally diverse ligands, by research groups in both academia and industry, has facilitated the accommodation of sterically and electronically divergent substrates including ammonia, hydrazine, amines, amides, and NH heterocycles. Despite these achievements, problems with catalyst generality persist and access to multiple ligands is necessary to accommodate all of these NH-containing substrates. In our quest to address this significant limitation we identified the BippyPhos/[Pd(cinnamyl)Cl]2 catalyst system as being capable of catalyzing the amination of a variety of functionalized (hetero)aryl chlorides, as well as bromides and tosylates, at moderate to low catalyst loadings. The successful transformations described herein include primary and secondary amines, NH heterocycles, amides, ammonia and hydrazine, thus demonstrating the largest scope in the NH-containing coupling partner reported for a single Pd/ligand catalyst system. We also established BippyPhos/ [Pd(cinnamyl)Cl]2 as exhibiting the broadest demonstrated substrate scope for metal-catalyzed cross-coupling of (hetero)aryl chlorides with NH indoles. Furthermore, the remarkable ability of BippyPhos/[Pd(cinnamyl)Cl] 2 to catalyze both the selective monoarylation of ammonia and the N-arylation of indoles was exploited in the development of a new one-pot, two-step synthesis of N-aryl heterocycles from ammonia, ortho- alkynylhalo(hetero)arenes and (hetero) aryl halides through tandem N-arylation/hydroamination reactions. Although the scope in the NH-containing coupling partner is broad, BippyPhos/[Pd(cinnamyl)Cl]2 also displays a marked selectivity profile that was exploited in the chemoselective monoarylation of substrates featuring two chemically distinct NH-containing moieties.
- Crawford, Sarah M.,Lavery, Christopher B.,Stradiotto, Mark
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supporting information
p. 16760 - 16771
(2014/01/06)
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- Mn-promoted aerobic oxidative C-C bond cleavage of aldehydes with dioxygen activation: A simple synthetic approach to formamides
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A novel Mn-promoted aerobic oxidative C-C bond cleavage of aldehydes with dioxygen activation has been developed. The usage of molecular oxygen (1 atm) as oxidant, reactant, and an initiator to trigger this transformation makes this transformation very green and practical. A plausible radical process is proposed on the basis of mechanistic studies. Furthermore, this method provides a practical, neutral, and mild synthetic approach to formamides, which are important units in biologically active molecules.
- Zhang, Chun,Xu, Zejun,Shen, Tao,Wu, Guolin,Zhang, Liangren,Jiao, Ning
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supporting information; experimental part
p. 2362 - 2365
(2012/06/29)
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- PURINYL DERIVATIVES AND THEIR USE AS POTASSIUM CHANNEL MODULATORS
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This invention relates to novel purinyl derivatives and their use as potassium channel modulating agents. Moreover the invention is directed to pharmaceutical compositions useful for the treatment or alleviation of diseases or disorders associated with the activity of potassium channels.
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Page/Page column 24
(2008/12/04)
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- CHEMICAL COMPOUNDS
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This invention relates to non-steroidal compounds that are modulators of androgen receptor, and also to the methods for the making and use of such compounds.
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Page/Page column 33; 34
(2008/12/04)
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- Living polymerization of butadiene at both chain ends via a bimetallic nickel initiator. Preparation of hydroxytelechelic poly(butadiene) and symmetric poly(isocyanide-b-butadiene-b-isocyanide) elastomeric triblock copolymers
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A bifunctional nickel initiator, bis(μ-trifluoroacetato)(η3:η 3-2,2′-biallyl)dinickel(II), IV, was synthesized to promote the living polymerization of butadiene to high cis-1,4-content polymer with both chain ends active. Other potential initiators, [1,4-phenylenebis((η3-1-allyl)nickeltrifluoroacetate)] n),II, and[1,4-cyclohexanediylbis((η3-1-allyl)-nickel trifluoroacetate)]n, III, were found to be completely ineffective due to intermolecular carboxylate bridges which gave the complexes polymeric structures. The intramolecular bridges in IV and its molecularity were confirmed by X-ray crystallography. IV cocrystallizes in space group P1 with 0.5 equiv of 2,3-bis((trifluoroacetoxy)methyl)-1,3-butadiene in the unit cell with constants of a = 9.5600(8) A?, b = 9.6554(9) A?, c = 11.7615(10) A?; α = 73.711(7)?, β = 73.537(7)?, γ = 71.938(7)?; V=967.50(15) A?3; and Z=2. Refinement of the model, which contained a disordered C6H8 unit, led to convergence with Rf = 5.8%, RwF = 6.9%, and GOF = 2.21 for 276 variables refined against those 2852 data with |F?|>3.0σ/(|F?|)). The living polybutadiene samples were successfully used to prepare triblock copolymers of the structure poly (1-phenylethyl isocyanide-b-butadiene-b-1-phenylethyl isocyanide), which have been characterized using gel permeation chromatography, differential scanning calorimetry, 13C NMR, elemental analysis, and transmission electron microscopy. The bifunctional living polybutadiene was also successfully end-capped with p-(trifluoromethyl)-benzaldehyde to afford a telechelic polymer with hydroxy functionalities at both chain ends.
- Deming, Timothy J.,Novak, Bruce M.,Ziller, Joseph W.
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p. 2366 - 2374
(2007/10/02)
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