离子交换膜法合成2,2′-二氯氢化偶氮苯

应用离子交换膜法电解邻氯硝基苯合成2,2′-二氯氢化偶氮苯.讨论了电极活化条件、电流密度、电解液温度等因素对电解还原反应的影响.结果表明:在反应温度t=80℃,阴极、阳极电解液分别为10%和30%(by m ass)的NaOH溶液,电流密度4.2A/dm2条件下电解,电流效率最高,可达73%,收率为83%.     

对称季铵碱的烷基链长度对草酸电还原反应的影响

研究了四种不同烷基链长度的对称季铵碱对草酸电还原制备乙醛酸反应的影响。线性扫描测试考察了添加剂对铅电极上阴极反应的影响,结果表明对称季铵碱在电极表面的吸附对析氢反应的抑制程度大于其对草酸电还原反应的抑制程度,且随着对称季铵碱中烷基链长度的增加,添加剂抑制析氢反应效果更明显。计时安培法的结果证明添加剂可影响草酸向电极表面的扩散,随着对称季铵碱中烷基链长度的增加,草酸的扩散系数呈现出先增加后减小的趋势。恒流电解实验结果表明,添加剂能有效提高草酸电还原反应的电流效率,且提高效果随对称季铵碱所含烷基链长度的增加而增强。因此,添加剂的吸附对阴极表面析氢反应的抑制作用是草酸电还原反应电流效率提高的主要原因。本研究表明,四丁基氢氧化铵为添加剂时,草酸还原为乙醛酸的电流效率最高。     

电解法制备K_2FeO_4过程添加剂的筛选

应用电解法,并于阳极电解液中分别加入KIO4等不同种类添加剂制备K2FeO4,考察添加剂对电流效率以及FeO42-稳定性的影响规律,产品K2FeO4的结构形貌由XRD、SEM表征.结果表明,KIO4是比较理想的添加剂,在阳极液中添加质量比为0.02%的KIO4,电解1h后,电流效率可提高31.6%,K2FeO4产品的纯度相应提高了3.85%.     

间接电氧化2-丁酮制备α-羟基缩酮的研究

在板框式循环电解槽中,以KOH为电解质,KI为催化剂,石墨电极分别为阳极和阴极,研究电化学间接氧化2-丁酮合成乙偶姻中间体α-羟基缩酮,讨论电流密度、极板间电解液流速、电解液中2-丁酮浓度、电解温度以及通电量等电解条件对中间体收率和电流效率的影响,经优选工艺条件为：电流密度40 mA·cm^-2,流速6.4 cm·s^-1,2-丁酮浓度1.75 mol·L^-1,电解温度30℃,通电量为1.5 F·moL^-1时,中间体收率可达78.9%,电流效率40.1%. 循环伏安测试结果表明,电解时碘离子在阳极氧化生成碘单质,甲醇在阴极还原生成甲氧基负离子,原料2-丁酮与电解产物反应,并最终生成乙偶姻中间体.     

mCMC-PEG-CS双极膜在电还原制备巯基乙酸中的应用

以Fe3+改性羧甲基纤维素(CMC)和聚乙二醇(PEG)共混物为阳膜, 以戊二醛改性壳聚糖(CS)和聚乙二醇共混物为阴膜, 制备了mCMC-PEG-CS双极膜, 并将其用作电解还原制备巯基乙酸(TGA)电解槽中阴阳两室间的隔膜. 以硫代硫酸钠法合成的巯基乙酸(TGA)和二硫代二乙酸(DTDGA)混合物为原料, 研究了酸浓度、温度及电解电流密度对电还原DTDGA制备TGA的生成量和电流效率的影响. 实验结果表明, 在TGA初始合成质量分数为2.79%, 电流密度为10 mA/cm2, 35 ℃电解时, 阴极室电还原产物巯基乙酸的电流效率为74.69%, 电解过程中的平均电流效率为54.02%. 与传统的金属还原法还原DTDGA制备的TGA相比, 不仅避免了昂贵的金属还原剂锌的消耗, 而且消除了反应副产物锌泥对环境的污染.     

羟基新戊醛的间接电氧化研究

在离子交换膜电解槽内,将电解溴离子生成的溴单质作为氧化剂,使羟基新戊醛变成羟基新戊酸.研究了反应温度、pH、反应物浓度及阳极电位对电流效率和选择性的影响.结果表明,槽内式间接电氧化法制取羟基新戊酸的电流效率和选择性都较高,电流效率可达91.4%.选择性一般在90%以上.     

V（Ⅲ）-V（Ⅳ）电解液的电解合成

以硫酸氧钒(VOSO4)为原料,电解合成了用于制备钒电池的混合价态钒离子[V(Ⅲ)-V(Ⅳ)]电解液.较适宜的电化学反应条件为:以Ir-Ta/Ti为阳极,导电石墨板为阴极;4 mol·L-1 H2SO4为阳极电解液,2 mol·L-1 VOSO4-2 mol·L-1H2SO4混合溶液为阴极电解液,于1A电解6 h.在此条件下进行电化学反应,电解液的电化学活性高,电导率稳定;电解过程实现了较高的电流效率(接近100%)和较低的电能损耗(345 Wh·kg-1).     

荧光试剂Indo-1的合成

以邻硝基酚为原料,经10步反应合成了测定细胞游离钙离子浓度的强荧光试剂--Indo-1,其结构经H NMR,IR和MS表征.     

乙腈体系中咪唑溴盐和电制镁盐协同促进环氧化物与 CO2羧化反应合成环状碳酸酯

CO2是一种储量丰富且廉价易得的可再生 C1资源.以 CO2为原料的羧化反应可将 CO2高效转化成羧酸及其衍生物等高附加值化学品.例如, CO2和环氧化物反应生成环状碳酸酯属于“原子经济”反应,是有效利用 CO2的方法之一,其产物环状碳酸酯广泛用于极性有机溶剂、电池电解液和化妆品等.由于 CO2化学性质非常稳定,不易活化,制备环状碳酸酯的传统方法是以金属卤化物或金属配合物为催化剂在高温高压下进行反应.因此,开发出操作简便且能耗低的绿色技术用于合成环状碳酸酯面临巨大挑战.
　　最近研究表明,电催化技术可使环氧化物和 CO2在温和条件下转化为环状碳酸酯.已报道的电催化反应研究重点都是如何通过多相或均相电催化还原 CO2的方式使环氧化物能够在温和条件下进行羧化反应.然而, CO2电还原生成的 CO2?-自由基非常活泼,在其扩散到溶液中与环氧化物反应之前易在电极上直接转化为 CO和碳酸盐等副产物,从而导致羧化反应较低的电流效率.
　　 Ema课题组报道环氧化物与 CO2羧化反应经历三个步骤,即开环反应、CO2插入反应和闭环反应,其中开环反应活化能最大,是羧化反应决速步骤.与已报道的电催化途径不同,本文通过建立一个由电化学反应和羧化反应组成的催化反应体系,旨在通过降低开环反应活化能来促进环氧化物羧化反应.在电化学反应过程中,由牺牲阳极提供羧化反应必需的路易斯酸,即电制镁盐;在羧化反应过程中,通过电制镁盐和咪唑溴盐的协同作用实现环氧化物和 CO2在温和条件下高效率地转化为环状碳酸酯.
　　实验首先选取环氧苯乙烷为反应原料,考察了电制镁盐、共催化剂的阳离子以及羧化反应温度对目标产物产率的影响.如果羧化反应过程中没有镁盐或直接用等量溴化镁代替电制镁盐,羧化产率仅为5.4%和35.5%,而电制镁盐条件下羧化反应产率高达90.7%,表明电制镁盐作为路易斯酸催化剂对提高羧化反应产率是必不可少的.比较了在 N2和 CO2气氛中分别电解制备得到的镁盐的催化性能. N2气氛中电制镁盐更高的催化性能可能与溶剂乙腈或支持电解质的阳离子在阴极发生电还原生成的物质有关.该电还原产物可部分代替溴离子与电制镁盐配对,由于其体积更大,一定程度上提高了电制镁盐的亲电性,有利于羧化反应进行.如果用四丁基溴化铵代替咪唑溴盐作为共催化剂,羧化反应产率从90.7%降为65.5%.羧化反应过程中溴离子对电制镁盐的配对能力受共催化剂阳离子静电引力的牵制而减弱,共催化剂的阳离子对溴离子的静电引力越强,溴离子对电制镁盐亲电性的影响就越弱.前期研究成果表明,在乙腈溶液中咪唑阳离子对阴离子的静电引力明显强于季铵阳离子,由此可认为当咪唑溴盐作为共催化剂时提高了电制镁盐的亲电性,促进了环氧化物的开环反应.提高羧化反应温度虽然可以降低环氧化物开环反应的活化能,但也会降低 CO2在乙腈溶液中的溶解度,50°C反应较为合适.在最优反应条件下考察了该催化体系对其他环氧化物羧化反应的普适性,所得环状碳酸酯产率为48.3%–90.7%.     

超声间接电氧化合成三种甲基苯甲醛

以Mn(II)/Mn(III)为氧化还原媒质，间接电氧化合成了邻、间、对位甲基苯甲 醛。在电解和合成的过程中，分别施加了超声进行反应。实验结果表明，电解的电 流效率和邻甲基苯甲醛、间甲基苯甲醛的合成产率在超声的参与下有10%左右的提 高。优化了超声电解的条件，并探讨了超声与未超声时将二甲苯的三个异构体氧化 为相应醛的难易程度。     

Catalyst,additive and counterion effects on the efficiency and enantioselectivity of copper-catalysed C–H insertion reactions of α-diazosulfones

Asymmetric copper-catalysed intramolecular C–H insertion reactions of α-diazosulfones in the presence of various group I salts are reported leading to substantial variation in reaction efficiencies and enantioselectivities. The borate additives NaBARF and KBARF were found to be the most effective additives for permitting highly enantioselective syntheses with short reactions times and high efficiency. Significantly, direct evidence of the critical role of the additive in enantioselective carbenoid reactions has been secured.     

Influence of the amino acid composition on the ionization efficiencies of small peptides

Electrospray ionization is widely used to generate gas phase ions from a variety of molecules ranging from small ions to large proteins, while the ionization mechanism is claimed to depend on the size of the molecule. For small molecules, the ionization efficiency, the amount of gas phase ions produced in the electrospray process, depends on the properties of the compound. Here, we show that the amino acid composition also influences the ionization efficiency of the oligopeptide. Additionally, we show that the ionization efficiencies of oligopeptides consisting of more than five amino acid residues are very similar to one another, and assuming equal ionization efficiencies is feasible. Therefore, accurate ionization efficiency predictions are needed mainly for small oligopeptides. For these oligopeptides, the amino acid composition can be used to estimate the ionization efficiency in an easy to use manner.     

利用K-L方程估算旋转圆盘电极体系反应动力学电流的误差来源分析

旋转圆盘电极（RDE）体系主要用于低溶解度反应物的电极过程动力学研究. 在利用RDE技术研究不可逆电极反应动力学时,人们常利用Koutecky-Levich方程排除传质的影响,从总电流估算反应的动力学电流. 由于K-L方程是建立在系统满足稳态扩散模型的基础上,实际运用时如果体系偏离稳态扩散,就有可能对估算的动力学参数造成很大误差. 本文以氧气在多晶铂电极上的还原反应为例系统地估算了不同氧气浓度与电极转速下的误差,结果表明低氧气浓度与低圆盘转速的情况不满足稳态扩散条件,若此时仍根据K-L方程利用外推法进行分析,误差可达30%. 因此作者建议,在RDE体系中利用K-L方程估算动力学参数时,最好忽略低浓度与低转速下的数据,直接使用较高浓度与较高转速下的数据进行计算与分析.     

Manipulating Reaction Energy Coordinate Landscape of Mechanochemical Diaza-Cope Rearrangement

Chiral vicinal diamines, a unique class of optically-active building blocks, play a crucial role in material design, pharmaceutical, and catalysis. Traditionally, their syntheses are all solvent-based approaches, which make organic solvent an indispensable part of their production. As part of our program aiming to develop chemical processes with reduced carbon footprints, we recently reported a highly practical and environmentally-friendly synthetic route to chiral vicinal diamines by solvent-free mechanochemical diaza-Cope rearrangement. We herein showed that a new protocol by co-milling with common laboratory solid additives, such as silica gel, can significantly enhance the efficiency of the reaction, compared to reactions in the absence of additives. One possible explanation is the Lewis acidic nature of additives that accelerates a key Schiff base formation step. Reaction monitoring experiments tracing all the reaction species, including reactants, intermediates, and product, suggested that the reaction profile is distinctly different from ball-milling reactions without additives. Collectively, this work demonstrated that additive effect is a powerful tool to manipulate a reaction pathway in mechanochemical diazo-Cope rearrangement pathway, and this is expected to find broad interest in organic synthesis using mechanical force as an energy input.     

Synthesis of multi-unit protein hetero-complexes in the gas phase via ion-ion chemistry

The synthesis of protein hetero-complex ions via ion-ion reactions in the gas phase is demonstrated in a quadrupole ion trap. Bovine cytochrome c cations and bovine ubiquitin anions are used as reactant species in the stepwise construction of complexes containing as many as six protein sub-units. For any set of reactants, a series of competitive and consecutive reactions is possible. The yield of complex ions for any given sequence of reactions is primarily limited by the presence of competitive reactions. Proton transfer represents the most important competitive reaction that adversely affects protein complex synthesis. In the present data, proton transfer takes place most extensively in the first step of complex synthesis, when single protein sub-units are subjected to reaction with one another. Proton transfer is found to be less extensive when one of the reactants is a protein complex. The generation of hexameric hetero-complexes containing two cytochrome c molecules and four ubiquitin molecules is demonstrated with two different synthesis approaches. The first involved the initial reaction of several charge states of cytochrome c and several charges states of ubiquitin. The sequence of reactions in this example illustrates the array of possible competitive and consecutive reactions associated with even a relatively simple set of multiply charged reactants. The second approach involved the initial reaction of the 9(+) charge state of cytochrome c and the 5(-) charge state of ubiquitin. The latter approach highlights the utility of the multi-stage mass spectrometric (MS(n)) capabilities of the ion trap in defining reactant ion identities (i.e. charge states and polarities) so that synthesis reactions can be directed along a particular set of pathways.     

Black Phosphorus Quantum Dots Used for Boosting Light Harvesting in Organic Photovoltaics

Although organic photovoltaic devices (OPVs) have been investigated for more than two decades, the power conversion efficiencies of OPVs are much lower than those of inorganic or perovskite solar cells. One effective approach to improve the efficiency of OPVs is to introduce additives to enhance light harvesting as well as charge transportation in the devices. Here, black phosphorus quantum dots (BPQDs) are introduced in OPVs as an additive. By adding 0.055 wt % BPQDs relative to the polymer donors in the OPVs, the device efficiencies can be dramatically improved for more than 10 %. The weight percentage is much lower than that of any other additive used in OPVs before, which is mainly due to the two‐dimentional structure as well as the strong broadband light absorption and scattering of the BPQDs. This work paves a way for using two‐dimentional quantum dots in OPVs as a cost‐effective approach to enhance device efficiencies.     

固定床电解槽变电流成对电解合成乙醛酸

对电解氧化乙二醛合成乙醛酸过程 ,固定床电解槽和变电流电解效果明显优于平板型电解槽和恒电流电解效果 .当阳极液中乙二醛和盐酸初始质量分数 (WCHOCHO 和WHCI)分别等于7.0 %和 8.0 %、阴极液为始终饱和的草酸溶液和微量的添加剂时 ,采用平均电流密度 (i)为 15 35A/m2 的变电流方式电解 ,阳极电流效率 (CEa)为 85 .3%、乙醛酸选择性 (RSa)为 93.9% ;阴极电流效率 (CEc)为 86 .7% ,乙醛酸选择性 (RSc)为 94 .0 % .阳极初产品中WCHOCOOH∶WCHOCHO≥ 4 0∶3,克服了阳极产品中乙二醛难以除去的困难     

Comparison of separation selectivity in capillary electrokinetic chromatography using a cationic linear polymeric pseudo-stationary phase or monomeric additives of similar structure

The retention properties in electrically driven systems with monomeric additives were compared to an electrokinetic chromatographic system with a linear, charged polymer of similar chemical structure (all additives are quaternary tetraalkyl ammonium ions). The monomeric additives were tetramethylammonium (TMA), tetraethylammonium (TEA) and dimethylpyrrolidinium (DMP), respectively, the polymeric additive was poly(diallyldimethyl)ammonium (PDADMA). The additive concentration in the background electrolyte was 2 and 4% (w/w). The retention characteristics were based on the apparent mobilities of 10 non-charged analytes with different chemical functionality, which were transported by the anodic electroosmotic flow in the dynamically coated capillary, and retained by the counter-flowing cationic additives. From these data capacity factors were derived, which ranged up to 0.8. Association constants were calculated, and were found between 10 and 170. Roughly, the association constants increased for a given analyte in the sequence TMA相似文献   

Mass transport and effective diffusion coefficient in the reduction of hydrogen ions from aqueous sulfuric acid solutions: Numerical modeling

This work presents results of the numerical solution to a system of equations of material balance and the movement of particles in solution under the influence of the forces of diffusion, migration, and convection, which describe the process of mass transport during the reduction of hydrogen ions at a rotating disk electrode from aqueous sulfuric acid solutions with and without excess supporting electrolyte. Results of the calculations show that the diffusion kinetics of hydrogen ion reduction can be observed only with measurements in dilute (≤10^?3 M) sulfuric acid solutions with an excess of indifferent supporting electrolyte. For more acidic solutions it is necessary to take into account the simultaneous diffusion of hydrogen and bisulfate ions. In the study of the regularities of hydrogen ion reduction in sulfuric acid solutions with a sulfate supporting electrolyte, it is necessary to take into account that with excess supporting electrolyte, the limiting current of hydrogen reduction is caused solely by the diffusion of bisulfate ions, but for small concentration ratios of the supporting electrolyte to acid, the influence of migration effects is significant.