非缓冲介质中硫脲氧化的非线性动力学

研究了在非缓冲介质中高碘酸盐氧化硫脲的复杂反应动力学。实验结果表明：高碘酸盐氧化硫脲的非线性反应不但呈现多种不同的化学计量方程式,而且体系的pH、[I-]、[I2]及Pt电极电位呈现封闭条件下的准振荡和单峰振荡以及开放条件下的双稳态和衰减振荡行为。综合考虑硫价态与碘价态变化的各自非线性过程及相互耦合,提出了包含质子快速预平衡反应、碘化合物自身反应、碘化合物-硫化合物反应以及硫－硫反应的12步反应机理,模拟出了封闭体系中pH、[I-]以及[I2]的准振荡和单峰振荡以及开放体系中的双稳态行为。     

流动注射化学发光法测定硫脲

基于Fe(Ⅲ)氧化硫脲生成Fe(Ⅱ)的反应和Luminol-O2-Fe(Ⅱ)化学发光反应相偶合,建立了流动注射化学发光测定硫脲的方法。方法检出限为4×10-7mol.L-1,RSD为2%(n=11),方法用于白葡萄酒中硫脲的分析测定,结果满意。     

碘酸盐-硫脲非缓冲体系的动力学行为与机理

研究了在非缓冲介质中碘酸盐氧化硫脲的复杂动力学行为, 结果发现在封闭条件下体系的pH, [I^−]及铂电极电位呈现单峰或准振荡现象. 当碘酸盐过量时, 体系的pH首先快速上升, 然后自催化下降, 最后上升趋向平缓, 体系碘钟产生的诱导期与体系初始pH成正比; 而当硫脲过量时, 体系的pH呈现单峰振荡行为并伴随着I₂瞬时产生与瞬时消耗的过程, [I₂]到达极值的诱导期与体系初始pH呈线性关系. 运用包含质子平衡反应、碘钟反应、碘-硫反应以及硫-硫反应的14步反应机理模拟出了封闭体系中pH, [I^−]以及[I₂]的单峰振荡或准振荡行为.     

柴油脱硫的机理研究以及反应中的溶剂效应

柴油的脱硫技术分为加氢脱硫和非加氢脱硫。在非加氢脱硫的研究中,氧化脱硫技术具有反应条件温和、不使用昂贵的氢气、投资和操作费用低等优点日益受到重视。文章介绍了柴油的脱硫技术的机理方面的研究进展。其中包括加氢脱硫的反应网络;以及氧化脱硫研究中,光化学氧化体系和有机过氧化物氧化体系中DBT的氧化机理。在不同的反应体系中,溶剂对含硫化合物的脱除也有很大的影响.     

CSTR中H2O2-KSCN-CuSO4非线性反应体系的研究

非统性化学反应现象（包括化学振荡、化学波和化学混饨等）的研究近二十年来进展较快，BZ反应＊、NADH氧化的生化反应＊及卤类化合物主导的其它反应体系［’－’］的混饨、双节律等复杂非线性现象不断被发现并得到不同程度的确证．无卤无机反应体系的复杂非线性现象未见报导，我们选择H202－KSCN－CllS04－N。OH无卤体系K7］进行探索，此反应在连续搅拌反应器（CSTR）和封闭反应器（batch）皆有振荡现象，在体系中加入鲁米诺（11J．－－－－n由产生发光振荡现象问，我们对这个反应体系的进一步研究发现复杂振荡（包括非周期过程）…     

酸性溶液中二硫甲脒水解和氧化的动力学研究

以S（-I）化合物二硫甲脒作为研究对象,利用高效液相色谱（HPLC）和质谱（MS）为快速分析手段,对酸性溶液中二硫甲脒水解和氧化动力学进行了研究.通过控制慢反应速度和选择合适的流动相,HPLC在物种追踪和动力学机理研究方面比其他方法（UV-vis和化学分离分析）显示出独特的优越性.二硫甲脒在酸性条件下可缓慢分解成多种硫化合物,通过HPLC可确定硫脲和二氧化硫脲两种产物,同时使用HPLC-MS联用还可以检测出两个未知产物,即MS测定表明该分子量为92.28和116.36的物种分别为甲脒次磺酸和联硫氰.为了确定水解过程中二氧化硫脲的产生途径,我们设计了一组对比实验,使水解分别在有氧和无氧环境中进行,发现结果并无明显差异,且硫脲生成量与二硫甲脒消耗量之比都保持在1.25～1.30之间,故推断二氧化硫脲是由甲脒次磺酸歧化得到.在过氧化氢氧化二硫甲脒反应中,除了硫脲、甲脒亚磺酸、甲脒次磺酸、联硫氰和尿素之外,甲脒磺酸和硫酸根也被检测出,该氧化反应对于二硫甲脒和过氧化氢均为一级反应,在pH1.5～3.0测定了二硫甲脒水解和氧化的速率常数,表明都随pH的增加而增大.我们提出的过氧化氢氧化二硫甲脒反应机理包括二硫甲脒水解平衡和甲脒次磺酸不可逆水解的两步连续反应、二硫甲脒及氧化中间物的氧化反应和甲脒磺酸的水解反应,该机理能够有效模拟氧化反应过程中不同物种的动力学实验曲线.     

阴离子荧光受体研究进展

本文总结了近年来阴离子荧光受体的研究进展和荧光化学传感的主要机理,主要 介绍以下3类受体的设计合成及其在阴离子识别中的应用:(1)以氢键或静电作用键合阴 离子的受体(包括酰胺、脲及硫脲、胍盐和硫脲盐、五员杂环);(2)含金属和路易斯酸的受体;(3)以竞争键合机制识别阴离子的"化学传感体系".     

铜离子在合金硫化镍矿浸出过程的化学动力学

建立了在常压氧化硫酸浸出合金硫化镍矿过程中通氧反应结束后铜离子浸出镍的动力学方程,反应的表观活化能为129.88 kJ.K-1.mol-1.根据该动力学方程,可以进一步对硫酸氧化浸出合金硫化镍矿过程中镍的浸出速率进行推导.     

基于缺电子烯胺交叉氨化过程的多组分反应研究进展

缺电子烯胺结构上含有多个不同活性的亲核和亲电反应位点,同时双键本身可以作为烯键给予体参与反应,因此可以通过各种亲核、亲电以及环加成等转化广泛应用于有机合成反应.综述结合我们自己小组的研究工作和兴趣,对基于缺电子烯胺如烯胺酮、烯胺酯等和含胺基试剂包括铵、胺、烯胺、脲和硫脲等之间的交叉氨化为关键转化,并和其它底物发生串联转化的多组分反应研究进展进行了总结.     

La—Ba—Na—O催化剂上甲烷氧化偶联宏观反应动力学研究

甲烷氧化偶联反应在不同催化剂体系上动力学的研究各不相同,我们已报道了La-Ba-O系复合氧化物催化剂对此反应的优良催化性能。本文则是对该催化剂上的甲烷氧化偶联反应的动力学进行初步探讨。     

Tethered bisubstrate derivatives as probes for mechanism and as inhibitors of aminoglycoside 3'-phosphotransferases

Aminoglycoside 3'-phosphotransferases [APH(3')s] phosphorylate aminoglycoside antibiotics, a reaction that inactivates the antibiotics. These enzymes are the primary cause of resistance to aminoglycosides in bacteria. APH(3')-Ia operates by a random-equilibrium BiBi mechanism, whereas APH(3')-IIIa catalyzes its reaction by the Theorell-Chance mechanism, a form of ordered BiBi mechanism. Hence, both substrates have to be present in the active site prior to the transfer of phosphate by both mechanisms. Four bisubstrate analogues, compounds 1-4, were designed and synthesized as inhibitors for APH(3')s. These compounds are made of adenosine linked covalently to the 3'-hydroxyl of neamine (an aminoglycoside) via all-methylene tethers of 5-8 carbons. The K(i) values measured for these compounds indicated that affinities of APH(3')-Ia and APH(3')-IIa for compounds 2 and 3 (six- and seven-carbon tethers, respectively) were the best, and the inhibition constants for the two were comparable.     

(E)-3-Halo-2-styryl-4H-chromen-4-ones: synthesis and transformation to novel pyrazoles

New methods for the synthesis of (E)-3-halo-2-styryl-4H-chromen-4-ones were established. The reaction of these compounds with hydrazine hydrate afforded new and unexpected 3(5)-aryl-5(3)-[2-(2-hydroxyphenyl)-2-hydrazonoethyl]-1H-pyrazoles, which upon acid hydrolysis gave 3(5)-aryl-5(3)-[2-(2-hydroxyphenyl)-2-oxoethyl]-1H-pyrazoles. The reaction mechanisms for these transformations, involving 1,6- followed by 1,4-conjugate additions, are discussed and the structures of all new compounds were established by NMR studies.     

Mechanism of Mukaiyama-Michael Reaction of Ketene Silyl Acetal: Electron Transfer or Nucleophilic Addition?

Mechanism of Mukaiyama-Michael reaction of ketene silyl acetal has been discussed. The competition reaction employing various types of ketene silyl acetals reveals that those bearing more substituents at the beta-position react preferentially over less substituted ones. However, when ketene silyl acetals involve bulky siloxy and/or alkoxy group(s), less substituted compounds react preferentially. The Lewis acids play an important role in these reactions. Enhanced preference for the more sterically demanding Michael adducts is obtained with Bu(2)Sn(OTf)(2), SnCl(4), and Et(3)SiClO(4) in the former reaction while TiCl(4) gives the highest selectivity for the less sterically demanding products in the latter case. These results are interpreted in terms of alternative reaction mechanisms. The reaction of less bulky ketene silyl acetals are initiated by electron transfer from these compounds to a Lewis acid. On the other hand, bulkier ketene silyl acetals undergo a ubiquitous nucleophilic reaction. Such a mechanistic change is discussed based on a variety of experimental results as well as the semiempirical PM3 MO calculations.     

Inhibition mechanism of flavin by deprenyl as an acetylenic irreversible inhibitor

Possible inhibition mechanisms of flavin (isoalloxazine) with (−)-deprenyl as an acetylenic irreversible inhibitor have been investigated in detail by ab initio methods with the 6-31G* basis set through the simplified model compounds 3-formyl-2-imino-1-hydropyrazine and propargylamine. The resulting compounds have been verified by calculations with the 3-21G basis set using flavin itself and the model of (−)-deprenyl for confirmation of the reactions through the simplified models. Two cyclic O4,N5- and C4a,N5-covalent adducts have been found. The latter was the most stable and was considered to be the final irreversible product. The intermediates in the reaction, the acyclic C4a- or N5-allenic compounds and their hydrogen-transferred cyanine-type compounds, are in agreement with the results of experimental photochemical reactions. In most of the reaction processes, hydrogen migration played an important role. Received: 26 June 1998 / Accepted: 28 August 1998 / Published online: 11 November 1998     

Direct dynamics classical trajectory simulations of the O+ + CH4 reaction at hyperthermal energies

A Born-Oppenheimer direct dynamics simulation of the O(+) + CH(4) reaction dynamics at hyperthermal energies has been carried out with the PM3 (ground quartet state) Hamiltonian. Calculations were performed at various collision energies ranging from 0.5 to 10 eV with emphasis on high energy collisions where this reaction is relevant to materials erosion studies in low Earth orbit and geosynchronous Earth orbit. Charge transfer to give CH(4)(+) is the dominant channel arising from O(+) + CH(4) collisions in this energy range, but most of the emphasis in our study is on collisions that lead to reaction. All energetically accessible reaction channels were found, including products containing carbon-oxygen bonds, which is in agreement with the results of recent experiments. After correcting for compensating errors in competing reaction channels, our excitation functions show quantitative agreement with experiment (for which absolute magnitudes of cross sections are available) at high collision energies (several eV). More detailed properties, such as translational and angular distributions, show qualitative agreement. The opacity function reveals a high selectivity for producing OH(+) at high impact parameters, CH(3)(+)/CH(2)(+)/H(2)O(+) at intermediate impact parameters, and H(2)CO(+)/HCO(+)/CO(+) at small impact parameters. Angular distributions for CH(3)(+)/CH(2)(+)/OH(+) are forward scattered at high collision energies which implies the importance of direct reaction mechanisms, while reaction complexes play an important role at lower energies, especially for the H(2)O(+) product. Finally, we find that the nominally spin-forbidden product CH(3)(+) + OH can be produced by a spin-allowed pathway that involves the formation of the triplet excited product CH(3)(+)(?(3)E). This explains why CH(3)(+) can have a high cross section, even at very low collision energies. The results of this work suggest that the PM3 method may be applied directly to the study of O(+) reactions with small alkane molecules and polymer surfaces.     

一种四氢苯并吡喃及其衍生物的水相合成

制备了一种以三乙烯二胺(DABCO)为基础的离子液体;在水溶剂中,以该离子液体为催化剂催化三组分一锅法制备四氢苯并吡喃的反应,得到2-氨基-3-氰基-4-芳基-7,7-二甲基-5-氧代-4H-5,6,7,8-四氢苯并[b]吡喃;考察了反应时间、催化剂用量、催化剂加入时间、反应温度对反应收率的影响,确定了最优反应条件;由不同的芳香醛和活性亚甲基化合物制备了一系列四氢苯并吡喃衍生物,并讨论了可能的反应机理.结果表明,所选用的合成反应条件温和、时间短、收率高、后处理简单,且催化剂重复使用4次催化效果变化不大;就反应机理而言,所用催化剂具有双重催化活性.     

Mechanistic study on gold(I)‐catalyzed crosscoupling of diazo compounds: A DFT study

The reaction mechanisms of the gold(I)‐catalyzed cross‐coupling reaction of aryldiazoacetate R1 with vinyldiazoacetate R2 leading to N‐substituted pyrazoles have been theoretically investigated using density functional theory calculations. Two possible reaction mechanisms were examined and discussed. The preferred reaction mechanism (mechanism A) can be characterized by five steps: the formation of the gold carbenoid A2 via the attack of catalyst to R1 (step I), nucleophilic addition of another reactant R2 to generate intermediate A3 (step II), intramolecular cyclization of A3 to form intermediate A4 (step III), hydrogen migration to give intermediate A5 (step IV), and catalyst elimination affording the final product P1 (step V). Step IV is found to be the rate‐determining step with an overall free energy barrier of 28.3 kcal/mol. Our calculated results are in good agreement with the experimental observations. The present study may provide a useful guide for understanding these kinds of gold(I)‐catalyzed cross‐coupling reactions of diazo compounds.     

Oxidation of bis-aroylhydrazones of 3,3-dimethylpentane-2,4-dione and thermal decomposition of the oxidation products

Oxidation of the title bis-aroylhydrazones 2 with lead tetraacetate gives l-aroyl-5-aroylazo-3, 4, 4, 5-tetramethyl-2-pyrazolines 6 in good yields. The aroylazopyrazolines 6 decompose by refluxing in chloroform or ethanol solution to l-aroyl-5-hydroxy-3, 4, 4, 5-tetramethyl-2-pyrazolines 3 , l-aroyl-5-methylene-3, 4, 4-trimethyl-2-pyrazoles 10 and 1-aroyl-3, 4, 4, 5-tetramethyl-2-pyrazolines 11 . The spectral data of the prepared compounds, as well as the reaction mechanisms are discussed.     

Coumarin-4-ylmethoxycarbonyls as phototriggers for alcohols and phenols

Caged compounds can be used to regulate the spatial and temporal dynamics of signaling molecules in live cells. Photochemical properties of coumarin-4-ylmethoxy carbonates (1a-d) are investigated to construct caged compounds of hydroxy-containing molecules. All the compounds possess desired properties as phototriggers for alcohols and phenols. The 6-bromo-7-hydroxycoumarin-4-ylmethoxycarbonyl (Bhcmoc) group has the highest photochemical efficiency and is applied to make caged compounds of 1,2-dioctanoylglycerol (diC(8)), Tyr-OMe, and adenosine. [reaction: see text]