金鸡纳碱衍生物修饰的负载钌催化剂催化芳香酮不对称加氢

以金鸡纳碱衍生物作为手性修饰剂,研究了三苯基膦(tpp)稳定的1.0%Ru/γ-Al2O3催化剂催化芳香酮多相不对称加氢,考察了稳定剂种类、修饰剂种类、金属负载量、溶剂、碱添加剂种类等因素对不对称加氢反应的影响.结果表明,金鸡纳碱衍生物对1.0%Ru/γ-Al2O3/2tpp催化剂具有较好的修饰作用,在优化的反应条件下苯乙酮及其衍生物加氢反应的对映选择性达78%～98%,2-乙酰基噻吩加氢反应的对映选择性可达80%,2-乙酰基呋喃加氢反应的对映选择性可达75%.     

金鸡纳碱衍生物修饰的负载钌-铑双金属催化剂催化芳香酮不对称加氢

以金鸡纳碱衍生物作为手性修饰剂,研究了三苯基膦稳定的1.0%Ru+0.2%Rh/γ-Al2O3催化剂催化芳香酮多相不对称加氢,考察了修饰剂种类及浓度、碱添加剂种类及浓度、溶剂、氢气压力等因素对不对称加氢反应的影响.结果表明,金鸡纳碱衍生物对1.0%Ru+0.2%Rh/γ-Al2O3-tpp催化剂具有较好的修饰作用,在优化反应条件下苯乙酮加氢反应的对映选择性高达84%.     

Asymmetric Hydrogenation of Aromatic Ketones Catalyzed by Cinchona-and PPh3-Modified RuRh/y-Al2O3

以金鸡纳碱衍生物作为手性修饰剂,研究了三苯基膦稳定的1.0%Ru＋0.2%Rh/γ-Al2O3催化剂催化芳香酮多相不对称加氢,考察了修饰剂种类及浓度、碱添加剂种类及浓度、溶剂、氢气压力等因素对不对称加氢反应的影响.结果表明,金鸡纳碱衍生物对1.0%Ru＋0.2%Rh/γ-Al2O3-tpp催化剂具有较好的修饰作用,在优化反应条件下苯乙酮加氢反应的对映选择性高达84%.     

L-脯氨酸修饰的铱催化苯乙酮及其衍生物不对称加氢反应

在温和条件下制备了L-脯氨酸稳定并修饰的负载型金属铱催化剂,用于苯乙酮及其衍生物不对称催化加氢反应. 考察了L-脯氨酸的量、溶剂、碱以及碱的量和氢气压力对苯乙酮不对称催化加氢反应的影响. 结果显示,该催化剂催化苯乙酮不对称加氢反应获得了92.1%的转化率和32.9%的对映选择性(e.e.),催化2′-(三氟甲基)苯乙醇的对映选择性为39.3,这一结果高于目前报道的天然手性修饰剂修饰的负载型金属催化剂. 该催化循环使用5次, 对映选择性只有小幅度下降.     

(1S,2S)-DPEN修饰的Ir/Al2O3催化苯乙酮及其衍生物的不对称加氢反应$

在碱性条件下制备了三氧化二铝负载的铱(Ir/γ-Al2O3)催化剂,并用于苯乙酮及其衍生物的不对称催化加氢反应.考察了不同的碱、碱浓度、手性二胺(1S,2S)-1,2-二苯基乙二胺[(1S,2S)-DPEN]浓度、反应温度和反应压力对催化剂及反应的影响.结果显示,在优化反应条件下,该催化剂表现出较高的催化活性和良好的对映选择性,其中异丁酰苯不对称催化加氢反应的对映选择性达到了80.3%.该催化剂不需要使用任何稳定剂,制备方法简单,催化性能稳定,通过简单的离心分离即可循环使用.     

金鸡纳碱衍生物和三苯基膦修饰的铱催化芳香酮不对称加氢反应

多相不对称催化反应因为它的应用前景而受到广泛关注,但由于在这类反应中催化剂和底物之间匹配的高度专一性,发掘新催化剂的难度等诸多因素极大地限制了多相不对称催化反应的开发.到目前为止,对于广泛关注的简单芳香酮的多相不对称加氢反应人们还无能为力.四川大学化学学院陈华等研究了以三苯基膦稳定地负载在Si02上的铱催化剂(3%Ir/SiOd2PPh3),在以金鸡纳碱衍生物为修饰剂催化简单芳香酮的不对称氢化反应中,在优化反应条件下,获得了高达96%ee的对映选择性.此工作为首例简单芳香酮经多相催化加氢获得高对映选择性的报道.为简单芳香酮的多相不对称氢化指出了新的方向.同时该工作也是首例以氢气为氢源、金属铱为催化剂的简单芳香酮高选择性不对称加氢的报道.     

手性二胺修饰的负载型钌催化剂催化芳香酮不对称加氢

研究了用手性修饰剂(1S,2S)-(－)-1,2-二苯基乙二胺修饰的负载型钌催化剂(Ru/γ-Al₂O₃)催化芳香酮的不对称加氢反应, 在KOH的异丙醇溶液中, 10～20 ℃, p_H2＝5 MPa条件下, 芳香酮及其衍生物加氢产物的ee值达79.5%～85.0%, 2-乙酰基噻吩加氢产物的ee值可达86.2%. 此催化剂制备简单, 容易与产物分离, 重复使用4次, 对映选择性基本保持不变.     

L-氨基酸衍生物修饰的Ru/γ-Al_2O_3催化芳香酮不对称加氢研究

以系列L-氨基酸衍生物作为手性修饰剂,研究了三苯基膦(tpp)稳定的1.0%Ru/γ-Al2O3催化剂催化芳香酮多相不对称加氢,考察了稳定剂种类、修饰剂种类、金属负载量、底物浓度、温度、压力等因素对不对称加氢反应的影响。结果表明,L-氨基酸衍生物对1.0%Ru/γ-Al2O3/2tpp催化剂具有较好的修饰作用,在优化反应条件下芳香酮加氢反应的对映选择性达33%-81%,苯乙酮加氢反应的对映选择性可达70%。     

手性二胺修饰的Ru/γ-Al2O3催化剂催化芳香酮不对称加氢

研究了用手性修饰剂(1S,2S)-(-)-1,2-二苯基乙二胺修饰的负载型钌催化剂(Ru/γ-Al2O3)催化芳香酮的不对称加氢反应,在KOH的异丙醇溶液中,10～20℃,=5MPa条件下,芳香酮及其衍生物加氢产物的ee值达79.5%～85.0%,2-乙酰基噻吩加氢产物的ee值可达86.2%.此催化剂制备简单,容易与产物分离,重复使用4次,对映选择性基本保持不变.pH2     

手性二胺修饰的Ru/γ-Al2O3催化剂催化芳香酮不对称加氢

研究了用手性修饰剂(1S,2S)-(-)-1,2-二苯基乙二胺修饰的负载型钌催化剂(Ru/γ-Al2O3)催化芳香酮的不对称加氢反应,在KOH的异丙醇溶液中,10～20℃,pH2=5 MPa条件下,芳香酮及其衍生物加氢产物的ee值达79.5%～85.0%,2-乙酰基噻吩加氢产物的ee值可达86.2%.此催化剂制备简单,容易与产物分离,重复使用4次,对映选择性基本保持不变.     

Novel recoverable catalysts for asymmetric transfer hydrogenation

9-Amino(9-deoxy)epiquinine and 9-amino(9-deoxy)epicinchonine were applied in asymmetric transfer hydrogenation of aromatic ketones in both iridium and rhodium catalytic systems using i-propanol as the hydrogen source. Good to excellent conversions and enantioselectivities were observed with a variety of aromatic ketones. Moreover, the Ir complex and Rh complex of 9-amino(9-deoxy)cinchonine were recovered in high yields with dilute hydrochloric acid. The enantioselectivity of 1-phenylethanol was nearly maintained after six cycles.     

Efficient iridium and rhodium‐catalyzed asymmetric transfer hydrogenation using 9‐amino(9‐deoxy) cinchona alkaloids as chiral ligands

9‐Amino (9‐deoxy) cinchona alkaloids, derived from natural cinchona alkaloids, were applied in asymmetric transfer hydrogenation in both iridium and rhodium catalytic systems using i‐propanol as the hydrogen source. A series of aromatic ketones was examined, and good to excellent conversions and enantioselectivities were observed. The best results were achieved using 9‐amino(9‐deoxy) epicinchonine 2a as the ligand and [Ir(COD)Cl]₂ as the metal precursor, and for the isobutylphenone, the conversion and enantioselectivity were obtained in 90 and 97% e.e. respectively. Copyright © 2006 John Wiley & Sons, Ltd.     

(1S,2S)-1,2-二苯基乙二胺修饰Ir/HAP催化苯乙酮及其衍生物的不对称加氢反应

采用浸渍法在温和条件下制备了羟基磷灰石负载的铱催化剂(Ir/HAP), 并以X射线衍射(XRD), 透射电子显微镜(TEM), X射线光电子能谱(XPS), 比表面积测定(BET)以及附带能量散射X射线谱的扫描电子显微镜(SEM-EDS)等手段对载体和催化剂进行了表征. 以(1S,2S)-1,2-二苯基乙二胺((1S,2S)-DPEN)为手性修饰剂时, 该催化剂对苯乙酮及其衍生物不对称加氢反应表现出较高活性和对映选择性(ee). 在氢气压力为3.0 MPa、303 K条件下反应3 h, 苯乙酮及其衍生物的加氢转化率在94.7%以上, 其中生成2'-(三氟甲基)苯乙醇的对映选择性高达81.5%. 在不使用其它配体作稳定剂的情况下, 该结果比目前文献报道值高. 通过对比研究发现, 羟基磷灰石作为载体优于二氧化硅等其它无机载体. 催化剂通过简单离心分离可循环使用多次, 无明显的金属铱流失.     

Chiral sulfur-containing ligands for iridium(I)-catalyzed asymmetric transfer hydrogenation of aromatic ketones

New efficient catalyst systems, coupled with IrCl(COD)PPh₃ and chiral [SNNS]-type ligands, were employed in the asymmetric transfer hydrogenation of aromatic ketones under mild reaction conditions. The corresponding optically active alcohols were obtained in high yield and good to excellent enantioselectivities (up to 96% ee). The chiral Ir(I) complexes with the ligands of [SNNS]-type were also prepared and characterized, which showed good enantioselectivity and high activity. The reactions can be performed in air and the catalytic experiments are greatly simplified.     

Asymmetric transfer hydrogenation of aromatic ketones catalyzed by the iridium hydride complex under ambient conditions

The chiral Ir catalytic system generated in situ from iridium hydride complex and chiral diaminodiphosphine ligand was employed in asymmetric transfer hydrogenation of aromatic ketones to give the corresponding optically active alcohols, with up to 99% ee in high yield were obtained even when the substrate-to-catalyst molar ratio reached 10000:1.     

Asymmetric hydrogenation of alkenes with planar chiral 2-phosphino-1-aminoferrocene-iridium(I) complexes

The first highly enantioenriched and enantiopure planar chiral 2-phosphino-1-aminoferrocene ligands and their Ir(COD)BAr_F complexes are reported. The ligands display bidentate coordination behavior towards iridium, as indicated by trends in ³¹P and ¹H NMR spectra of the phosphine moieties and the α to nitrogen substituents of the amines. All of the new complexes showed good reactivity as catalysts in promoting asymmetric hydrogenation of several prochiral alkenes, with enantioselectivities up to 92%. Iridium complexes of dimethylaminoferrocene derivatives containing P-Ar groups [PPh₂ and P(o-tol)₂] gave the highest levels of asymmetric induction.     

Chiral Iridium Spiro Aminophosphine Complexes: Asymmetric Hydrogenation of Simple Ketones,Structure, and Plausible Mechanism

The iridium complexes of chiral spiro aminophophine ligands, especially the ligand with 3,5‐di‐tert‐butylphenyl groups on the P atom ( 1c ) were demonstrated to be highly efficient catalysts for the asymmetric hydrogenation of alkyl aryl ketones. In the presence of KOtBu as a base and under mild reaction conditions, a series of chiral alcohols were synthesized in up to 97 % ee with high turnover number (TON up to 10 000) and high turnover frequency (TOF up to 3.7×10⁴ h⁻¹). Investigation on the structures of the iridium complexes of ligands (R)‐ 1a and 1c by X‐ray analyses disclosed that the 3,5‐di‐tert‐butyl groups on the P‐phenyl rings of the ligand are the key factor for achieving high activity and enantioselectivity of the catalyst. Study of the catalysts generated from the Ir‐(R)‐ 1c complex and H₂ by means of ESI‐MS and NMR spectroscopy indicated that the early formed iridium dihydride complex with one (R)‐ 1c ligand was the active species, which was slowly transformed into an inactive iridium dihydride complex with two (R)‐ 1c ligands. A plausible mechanism for the reaction was also suggested to explain the observations of the hydrogenation reactions.     

Enantioselective hydrogenation of olefins with planar chiral iridium ferrocenyloxazolinylphosphine complexes

Chiral iridium Fc-PHOX complexes were readily prepared from Fc-PHOX, [Ir(cod)Cl]₂ and NaBArF (or NaPF₆) in high yields. They were applied as catalysts in the enantioselective hydrogenation of olefins to afford the corresponding products with high conversions and good enantioselectivities (up to 99% ee).     

Diastereo‐ and Enantioselective anti‐Selective Hydrogenation of α‐Amino‐β‐keto Ester Hydrochlorides and Related Compounds Using Transition‐Metal–Chiral‐Bisphosphine Catalysts

This review describes our recent works on the diastereo‐ and enantioselective synthesis of anti‐β‐hydroxy‐α‐amino acid esters using transition‐metal–chiral‐bisphosphine catalysts. A variety of transition metals, namely ruthenium (Ru), rhodium (Rh),iridium (Ir), and nickel (Ni), in combination with chiral bisphosphines, worked well as catalysts for the direct anti‐selective asymmetric hydrogenation of α‐amino‐β‐keto ester hydrochlorides, yielding anti‐β‐hydroxy‐α‐amino acid esters via dynamic kinetic resolution (DKR) in excellent yields and diastereo‐ and enantioselectivities. The Ru‐catalyzed asymmetric hydrogenation of α‐amino‐β‐ketoesters via DKR is the first example of generating anti‐β‐hydroxy‐α‐amino acids. Complexes of iridium and axially chiral bisphosphines catalyze an efficient asymmetric hydrogenation of α‐amino‐β‐keto ester hydrochlorides via dynamic kinetic resolution. A homogeneous Ni–chiral‐bisphosphine complex also catalyzes an efficient asymmetric hydrogenation of α‐amino‐β‐keto ester hydrochlorides in an anti‐selective manner. As a related process, the asymmetric hydrogenation of the configurationally stable substituted α‐aminoketones using a Ni catalyst via DKR is also described.     

Heterogeneous asymmetric hydrogenation of heteroaromatic methyl ketones catalyzed by cinchona-modified iridium catalysts

A heterogeneous iridium catalyst was synthesized with silica particles as support for the hydrogenation of heteroaromatic methyl ketones. The catalyst and support were characterized by solid-state NMR, HTEM, SEM, XPS, and BET. A series of heteroaromatic methyl ketones were investigated at room temperature. The catalytic system was effective and more than 99% conversion and up to 83.6% enantioselectivity were obtained in the hydrogenation of heteroaromatic methyl ketones.