新型手性溶解剂的合成及手性识别研究

核磁共振手性溶解剂法是精确、快速地测定微量手性化合物ee(enantiomeric excess)值的方法之一.目前有许多关于手性溶解剂(CSAs)的文献报道,但适合于手性羧酸类对映体识别的CSAs仍较少.光学活性的胺常被用作测定手性羧酸的手性溶解剂,其中以α-苯乙胺的使用最为广泛,但有时因被测物的化学位移不等价值(△△δ)较小而使其应用受到限制.光学活性的胺与手性羧酸类对映体作用时,胺基与羧基的成盐作用是主客体相互作用的方式之一.我们结合这一特点设计合成了一类新型的手性溶解剂,通过1H NMR,MS,IR和元素分析对其进行了结构表征.该类化合物具有较好的溶解性能,我们将其作为手性溶解剂对外消旋的α-甲氧基苦杏仁酸和两种手性药物分子萘普森,布洛芬进行了识别研究,它们均表现出较好的手性识别效果.合成路线如下:     

高效毛细管电泳法拆分芳香醇类化合物的研究

以磺化的环糊精为手性选择剂,采用毛细管电泳法对10种结构相近的芳香醇类化合物进行了手性拆分的研究.分离过程通过11次实验分别建立了10种手性醇对映体分离度的目标函数,考察了3个主要因素（溶液的pH、分离电压和手性选择剂浓度）对分离效率的影响.从分离度响应曲面图可得到最佳的分离条件,在选定的优化条件下,10种手性芳香醇在10 min内均得到了满意的拆分效果.     

高磺化-β-环糊精毛细管电泳分离分析手性芳香仲醇

以高磺化-β-环糊精为毛细管电泳手性选择剂,建立了有效分离7种手性芳香仲醇对映体的方法.在20 mmol/L H3PO4-三乙醇胺为背景电解质(pH 2.5),6%(m/V) 高磺化-β-环糊精为手性选择剂(S-β-CD),柱温20 ℃,操作电压-15 kV,检测波长214 nm等优化条件下,所有芳香仲醇对映体均实现基线分离.以本方法测定了7种芳香酮不对称氢转移反应产物7种手性芳香仲醇的百分对映体过量值(% ee),其测定结果与高效液相色谱、气相色谱测定结果完全一致.本方法可以用于手性芳香仲醇光学纯度的测定.     

L-亮氨酸衍生物手性氨基醇的合成及其对布洛芬和扁桃酸对映异构体的手性识别

对甲基苯胺经甲基化、甲酰化得到5,N,N-三甲基-2-氨基苯甲醛;对L-亮氨酸经酯化、格氏反应得到二齿手性氨基醇.二齿手性氨基醇与上述醛经缩合、还原反应,得到三齿手性氨基醇.产物结构经IR,MS和1H NMR等进行了表征;通过改变主客体的浓度及手性羧酸的纯度,运用1H NMR分别考察了主体二齿手性氨基醇、三齿手性氨基醇对客体布洛芬和扁桃酸对映异构体的手性识别能力.结果表明:当主客体物质的量之比为1:1时,三齿手性氨基醇对布洛芬消旋体的a位甲基质子及扁桃酸消旋体的a位质子分别产生11.2和9.2 Hz的化学位移差值.     

用α－苯乙胺拆分制备高光学活性线性二级醇

用手性α-苯乙胺作为拆分剂以较好的收率拆分了具有线性结构的二级醇，1－ 对烷基苯基取代的乙醇和α－苯丙醇，光学纯度达92％－98％。并初步研究了二级 醇结构对拆分的影响。     

光学活性反式1-(4-烷基环己基)醇的制备

用手性α-苯乙胺为拆分剂通过化学拆分以较好的收率制备了可作为手性液晶材料的光学活性反式1-(4-烷基环己基)醇,光学纯度达90%～＞99%.     

高光学纯度的线性二级醇的制备

近年来具有线性结构的手性二级醇1-对烷基苯基取代的乙醇和丙醇广泛应用于某些手性光学材料,如手性液晶中.虽然通过化学拆分可以得到某些接近光学纯的该类二级醇,但拆分方法的应用范围有限.通过对潜手性酮的不对称还原是制备手性二级醇的重要方法之一,特别是Corey等发展的不对称硼烷还原是非常有效的方法.我们以(S)-二苯基脯氨醇为配体制备的催化剂,用硼烷来还原含有不同官能团的烷基芳基酮以很好的产率和对映体选择性得到了一系列含有不同官能团的线性二级醇.     

叔醇的动力学拆分研究进展

手性叔醇结构广泛存在于生物活性物质、天然产物和药物分子中,实现其高效不对称催化合成具有重要意义.消旋醇的动力学拆分是一种合成高光学纯度手性醇的重要方法,然而由于叔醇α-碳上带三个不同的非氢取代基团,手性识别难度较大,因而发展高效且具有广泛底物适用性的叔醇动力学拆分方法具有较大的挑战.尽管如此,近年来非酶催化的叔醇的动力学拆分领域取得了快速的发展,一些新颖的不对称催化反应、催化体系被成功应用于叔醇的动力学拆分反应中.对叔醇动力学拆分反应进行了系统总结,分类介绍了这些反应的底物适用性、特点、机理以及局限等,并对该领域的未来发展进行展望.     

不对称反应的对映体过量值预测

建立了手性催化剂结构与反应产物对映体过量值的定量结构-活性相关性模型, 以辅助苯乙酮不对称氢转移反应的催化剂筛选. 手性催化剂由手性氨醇配体与金属络合物合成, 故采用构象独立手性指数或构象依赖手性指数描述手性氨醇配体, 采用指示变量区分金属络合物, 然后合并2个指数来描述手性催化剂. 通过遗传算法进行变量选择, 采用随机森林法建立数学模型以预测对映体过量值, 测试集的相关系数R²=0.769, 整个数据集的OOB(Out-of-bag)交叉验证结果为R²=0.785.     

新型手性方酸衍生物的合成及催化前手性芳酮的不对称 还原反应

方酸经酯化后与手性氨基醇反应,继而与脂肪胺、硫醇等作用,首次合成了11个新型手性方酰氨基醇配体。研究了它们经原位制成手性恶唑硼烷催化前手性芳酮的不对称还原的性能,得到手性仲醇的化学产率和e.e值分别为88%～98%和42%～81%。新化合物的结构经IR,1^HNMR,MS及元素分析证实,4b的绝对构型经X射线衍射确认。     

Synthesis of noval chiral tridentate amino alcohols as chiral solvating agents under ball-milling conditions

A new family of chiral solvating agents based on chiral didentate amino alcohols and chloromethyl pyridine derivatives were synthesized by ball milling in solvent free condition. The new chiral tridentate amino alcohols were tested as chiral NMR solvating agents for the Ts-derivatives of amino acids, other several acids and pyrazole drugs. For the Ts-derivatives of amino acids studied herein, chiral tridentate amino alcohol 3a could be used for the assignment of the absolute configurations of their racemes through the chemical shift non-equivalences of their CH₃ (Ts) protons with certain confidence.     

NMR spectroscopic determination of enantiomers via their triphenyltin derivatives: A new application of chiral solvating agents

A method is described for the NMR determination of the enantiomeric composition of chiral carboxylic acids and alcohols using their triphenyltin derivatives together with the chiral solvating agents quinine hydrochloride and phenylethylamine.     

Versatile chiral auxiliaries for NMR spectroscopy based on carbamoyl derivatives of dihydroquinine

Carbamoylation at the C(9) site of dihydroquinine affords new and efficient chiral solvating agents for the NMR enantiodiscrimination of simple derivatives of chiral alcohols, amines, carboxyl acids and amino acids.     

Imidazolinium sulfonate and sulfamate zwitterions as chiral solvating agents for enantiomeric excess calculations

The synthesis of enantiopure unsymmetrical N-heterocyclic based zwitterions incorporating imidazolinium and alkylsulfonate or sulfamate groups is described. The desired compounds were prepared in good yields from 1,3-propanesultone or cyclic sulfamidates and imidazolines. The imidazolinium based zwitterions proved to be versatile chiral solvating agents for Mosher’s acid, alcohols, cyanohydrins, amino alcohols, nitro alcohols, thiols, and carboxylic acids with very high shifts in the ¹H and ¹⁹F NMR.     

Chiral bis(amino amides) as chiral solvating agents for enantiomeric excess determination of α-hydroxy and arylpropionic acids

A family of bis(amino amides) derived from natural amino acids has been synthesized and tested for the NMR enantiodiscrimination, as chiral solvating agents, for enantiomeric excess determination of some carboxylic acids. Those bis(amino amide) receptors contain different structural modifications and the splitting of the signals of the acids, after addition of the corresponding CSAs, depends on those structural variables. The influence of aminoacid side chain and the nature of the aliphatic spacer are important parameters to obtain good chiral discriminations. The results obtained clearly show the chiral recognition abilities of these bis(amino amide) ligands and suggest their advantageous use as chiral solvating agents for carboxylic acids. The binding between bis(amino amides) and carboxylic acids has been studied by ESI-MS, NMR, DSC, and molecular modeling. The data suggest that enantiodiscrimination involves the formation of an ionic pair after proton transfer from the carboxylic substrate to the bis(amino amides).     

扁桃酸及其衍生物对映体的手性识别研究

以两种手性氨基醇作为主体,运用1H NMR分别考察其对客体7个扁桃酸衍生物对映异构体的手性识别能力。结果表明,主客体物质的量之比为1∶1时,主体诱导客体对叔丁基扁桃酸消旋体最高产生37.6 Hz的化学位移差值。     

Quantitative 1H NMR method for the routine spectroscopic determination of enantiomeric purity of active pharmaceutical ingredients fenfluramine, sertraline, and paroxetine

Determining the enantiomeric purity of chiral therapeutic agents is important in the development of active pharmaceutical ingredients (API). A strategy for determining the enantiomeric purity of three APIs was developed using nuclear magnetic resonance (NMR) and the chiral solvating agent (CSA) 1,1-bi-2-naphthyl (1). While chiral chromatography is widely used to evaluate enantiomeric purity, it can sometimes suffer from tedious sample preparation obviating rapid measurements that are sometimes needed during the manufacture of such agents. The techniques described herein provide comparable enantiomeric purity results with those obtained with traditional chiral HPLC and other published methods for these compounds. Chiral analysis of standard samples of methylbenzylamine enantiomeric mixtures using 1 were found to be quantitative to approximately 1% minor enantiomer. Enantiomeric purity determination by NMR utilizing chiral solvating agents do not require special instrumental techniques, chemical derivatization or standards and is therefore ideally suited for rapid routine analysis. As a result, the technique demonstrated is commonly used in our laboratory as a complementary or alternative method to chiral HPLC or optical rotation measurements for routine determination of enantiomeric purity.     

含平面手性和中心手性双手性因素化合物的合成及应用

[2,2]对二环苯经甲酰化、缩合、拆分得到（Rp）-4-甲酰基[2,2]对二环苯,再与L-亮氨酸的衍生物二齿手性氨基醇经缩合、还原得到由平面手性和中心手性因素构建的化合物（Rp,S）-1,1-二苯基-2-{[2,2]对二环苯基-甲氨基}-4-甲基戊醇.产物结构经IR、MS和1H NMR等进行了表征.用1H NMR考察了其作为主体对客体手性羧酸衍生物消旋体的手性识别能力.     

Enantiodifferentiation of multifunctional tertiary alcohols by NMR spectroscopy with a Whelk-O type chiral solvating agent

A Whelk-O type chiral solvating agent (CSA) allows NMR enantioresolution of multifunctional tertiary alcohols. Crystallographic analysis of the CSA revealed two conformers, which can be expected to coexist in solution. One conformation affords a chiral cleft that can engage a single enantiomer in simultaneous hydrogen bonding, π–π stacking, and CH/π interactions. This chiral recognition process yields nonequivalent NMR signals for the enantiomers of eighteen substrates even when substoichiometric amounts of the CSA are used.