5-氯-2-硝基苯胺合成5-氯-苯并氧化呋咱反应的密度泛函研究

利用密度泛函理论(DFT)的B3LYP/6-31G(d,p)计算方法研究了次氯酸钠氧化环化5-氯-2-硝基苯胺合成5-氯-苯并氧化呋咱的反应, 采用连续介质模型(PCM)评估了溶剂效应. 提出两种可能的分步反应通道: (1)氧化、移氢、脱水和环化, (2)移氢、亚氨基氢扭转、氧化、脱水和环化|前者为优势通道. 非极性的CCl₄溶剂有较低的活化能垒, 比极性的乙醇溶剂更有利于5-氯-2-硝基苯胺的合成. 标题反应的机理类似于次氯酸钠氧化邻硝基苯胺合成苯并氧化呋咱, 但其速控步的活化能垒更低, 反应更易进行.     

3,4-双取代氧化呋咱衍生物的合成、结构表征及热性能研究

以自制的偕氯肟基化合物为原料, 通过脱氯化氢、分子间二聚环化及硝化等反应合成了自行设计的8种目标化合物--3,4-二苯基氧化呋咱(1)、3,4-二(吡啶-2 -基)氧化呋咱(2)、3,4-二(吡啶-3 -基)氧化呋咱(3)、3,4-二(吡啶-4 -基)氧化呋咱(4)、3,4-二(吡嗪-2 -基)氧化呋咱(5)、3,4-二(4 -甲氧基苯-1 -基)氧化呋咱(6)、3,4-二(4 -氯苯-1 -基)氧化呋咱(7)及3,4-二(3 ,5 -二硝基苯-1 -基)氧化呋咱(8). 利用红外光谱、核磁共振、质谱、元素分析等手段对8种目标化合物进行了结构表征. 初步考察了不同取代基对二聚反应的影响, 发现取代基的吸电子能力越强, 越有利于形成氧化氰中间体结构, 目标产物收率越高|以化合物5为例, 探讨了反应温度、缚酸剂、缚酸剂浓度、反应介质等对二聚反应的影响, 确定适宜的反应条件为: 反应温度2～10 ℃, 缚酸剂选择3%～5%浓度的Na₂CO₃或KHCO₃, 反应介质为低沸点溶剂, 在此反应条件下, 化合物的收率分别为64.7%, 71.3%, 70.0%, 71.1%, 75.6%, 58.1%, 59.4%, 42.7%|利用差示扫描量热法(DSC)研究了目标化合物的热稳定性, 其中苯基取代衍生物的热稳定性较氮杂环衍生物好.     

氨基呋咱氧化为氨基硝基呋咱的合成研究

研究开发了将氨基呋咱转化为氨基硝基呋咱新的高收率氧化方法. 采用甲烷磺酸为介质, 以过氧化氢、碱或碱土金属和胺为基的氧化物(如钨酸钠或过硫酸铵)混合物的新氧化体系[H2O2/CH3SO3H/Na2WO4或(NH4)2S2O8]代替以硫酸为介质的过氧化氢和过硫酸铵混合物氧化体系, 分别对3,4-二氨基呋咱(DAF)、3,3’-二氨基-4,4’-氧化偶氮呋咱(DAAF)和3,3’-二氨基-4,4’-偶氮呋咱(DAAzF)进行氧化, 以高于65%的产率获得了3-氨基-4-硝基呋咱(ANF)和3-氨基-3’-硝 基-4,4’-氧化偶氮呋咱(ANAF), 并以15%的收率合成得到新化合物3-氨基-3’-硝基-4,4’-偶氮呋咱(ANAzF). 研究表明甲烷磺酸/过氧化氢/碱或碱土金属和胺为基的氧化物混合物是制备同时含有氨基和硝基基团的系列呋咱化合物非常有效的氧化体系.     

3,6-双(3′-氨基呋咱-4-基)-1,4-二氧杂-2,5-二氮杂环己-2,5-二烯的合成及晶体结构

以3-氨基-4-酰胺肟基呋咱(AAOF)为原料合成出了含能化合物3-氨基-4-酰氯肟基呋咱(ACOF)。用稀碱3%~5%Na2CO3水溶液处理,ACOF脱去一分子HCl生成不稳定中间体3-氨基-4-氰基呋咱的氧化物(ACFO),随后发生歧化反应,生成3,4-二(氨基呋咱基)氧化呋咱(BAFF)及其异构体3,6-双(3′-氨基呋咱-4-基)-1,4-二氧杂-2,5-二氮杂环己-2,5-二烯(BADDD)。用IR、MS1、H NMR1、3C NMR和元素分析对ACOF的分子结构进行了表征。分子和晶体结构测试表明,BADDD是一具有新颖化学分子结构的化合物。     

苯的硝基和叠氮基衍生物的理论研究

在密度泛函理论B3LYP/6-31G*水平下优化了91个苯的硝基(NO₂)和叠氮基(N₃)衍生物的分子几何构型, 预测了它们的密度和生成热, 采用Kamlet-Jacobs方法计算了爆速和爆压, 筛选得到11种爆轰性能较好的高能量密度化合物(HEDC), 计算了它们的多个可能的热解引发键的键离解能(BDE)以及按“氧化呋咱机理”分解时的活化能(E_a). 结果表明, 当分子中有NO₂与N₃相邻时, 分解按“氧化呋咱机理”进行, 分解反应的E_a均大于100 kJ/mol|分子中没有NO₂和N₃相邻时, 热解始于C-NO₂或C-N₃均裂, 裂解的BDE都大于200 kJ/mol. 只含NO₂或N₃的7个物质的稳定性好于同时含NO₂和N₃的物质, 而只含N₃的物质的稳定性又好于只含NO₂的物质, 五叠氮苯和六叠氮苯具有很出色的爆轰性能和稳定性. 无论是能量还是稳定性方面, 筛选得到的11种物质基本符合HEDC的要求.     

3，6-双（3’-氨基呋咱-4-基）-1，4-二氧杂-2，5-二氮杂环己-2，5-二烯的合成及晶体结构

以3-氨基-4-酰胺肟基呋咱（AAOF）为原料合成出了含能化合物3-氨基-4-酰氯肟基呋咱（ACOF）。用稀碱3％～5％Na2CO3水溶液处理，ACOF脱去一分子HCl生成不稳定中间体3-氨基-4-氰基呋咱的氧化物（ACFO），随后发生歧化反应，生成3，4-二（氨基呋咱基）氧化呋咱（BAFF）及其异构体3，6-双（3’-氨基呋咱-4-基）-1，4-二氧杂-2，5-二氮杂环己-2，5-二烯（BADDD）。用IR、MS、^1H NMR、^13C NMR和元素分析对ACOF的分子结构进行了表征。分子和晶体结构测试表明，BADDD是一具有新颖化学分子结构的化合物。     

3-氨基-4-硝基呋咱和3,3’-二硝基-4,4’-偶氮呋咱的合成研究

3-氨基-4-硝基呋咱(ANF)及其衍生物是一类重要的含能材料. ANF的制备首先以乙二醛、盐酸羟胺和氢氧化钠为原料, 经过两步反应制得3,4-二氨基呋咱(DAF), 采用新的氧化体系过氧化氢/甲烷磺酸/钨酸钠混合物(H2O2/CH3SO3H/ Na2WO4)代替原氧化体系过氧化氢/硫酸/过硫酸铵混合物[H2O2/H2SO4/(NH4)2S2O8]氧化DAF以67%的产率获得了ANF. 然后在单电子氧化体系高锰酸钾/盐酸混合物作用下ANF发生氧化反应以54.7%的产率得到3,3’-二硝基- 4,4’-偶氮呋咱(DNAzF). 研究表明过氧化氢/甲烷磺酸/钨酸钠混合物是制备氨基硝基单/多呋咱非常有效的氧化体系.     

7-氨基-6-硝基苯并二氧化呋咱的合成和表征

以3,5-二硝基苯甲酸(DNBA)为原料经过3步反应合成了7-氨基-6-硝基苯并二氧化呋咱(ANBDF)：第1步反应,在二氯乙烷惰性溶剂中,DNBA与叠氮酸反应并发生Schmidt重排反应生成3,5-二硝基苯胺(1),产率89．6％;第2步反应,1含100％硫酸的硝硫混酸中硝化生成五硝基苯胺(2),产率51．1％;第3步反应,2与叠氮酸反应,不经分离直接进行热解脱氮、Schmidt重排反应,得到目标化合物(ANBDF),m．p．204℃-206℃,产率86．8％。用元素分析,IR,^1H NMR和MS(FAB)对ANBDF的结构进行了鉴定,确证其分子结构中含有氨基、硝基及苯并氧化呋咱环,这些基团存在于同一个苯环上,且处于同一平面。并对合成反应的机理及反应条件进行了讨论。     

3,4-二氨基呋咱基氧化呋咱异构体的合成与表征

将含能化合物3-氨基-4-氯肟基呋咱(ACOF)在低温下用稀碱处理后发生过渡中间体3-氨基-4-氰基呋咱氧化物(ACFO)的二聚关环反应合成了新型呋咱类含能化合物3,4-二氨基呋咱基氧化呋咱异构体(DAFF iso-m er),产率达66.3%。培养了DAFF isom er的单晶。用四圆单晶X-射线衍射仪,1H NMR,13C NMR,IR,MS及元素分析对其结构进行了表征。结果表明:DAFF isom er晶体属三斜晶系,空间群P-1,分子呈平面构型,层状晶体内存在分子内和分子间氢键,晶胞堆积层间不存在氢键。     

3-氨基-4-硝基呋咱和3,3′-二硝基-4，4′-偶氮呋咱的合成研究

3-氨基-4-硝基呋咱（ANF）及其衍生物是一类重要的含能材料．ANF的制备首先以乙二醛、盐酸羟胺和氢氧化钠为原料,经过两步反应制得3,4-二氨基呋咱（DAF）,采用新的氧化体系过氧化氢,甲烷磺酸,钨酸钠混合物（H2O2／CH3SO3H,Na2WO4）代替原氧化体系过氧化氢／硫酸,过硫酸铵混合物[H2O2／H2SO4/（NH4）2S2O8]氧化DAF以67％的产率获得了ANF．然后在单电子氧化体系高锰酸钾,盐酸混合物作用下ANF发生氧化反应以54．7％的产率得到3,3′-二硝基,4,4′-偶氮呋咱（DNAzF）．研究表明过氧化氢,甲烷磺酸,钨酸钠混合物是制备氨基硝基单／多呋咱非常有效的氧化体系．     

Synthèse et tautoméric d'amino-3 et d'hydroxy-3 buténolide

The synthesis fo 3-amino- and 3-hydroxy-2-methyl-4,4-spiro-cyclohexane-2-butene-4-olide was achieved starting from isocyanate or an isocyanate precursor. The study and discussion of tautomeric structures were peformed using ir and nmr spectra functional groups reactivity.     

A Convenient Synthesis of 1-(Dichloro-Pyrimidinyl Carbamyloxy) Alkyl Phosphonates

Abstract

In the study of the nucleophilic addtion reaction of dialkyl I-hydroxyphosphonate and dichloropyrimidinyl isocyanate. We found this reaction was a convenient way for the synthesis of 1-(substituted carbamy1oxy)alkyl phosphonatc derivative. Dialkyl 1 - hydroxyphos-phonate can be easily prepared by addtion of dialkylphosphitc to carbonyl compounds. 4,6-dicloro-2-isocyanato pyrimidine can be synthesized by the reaction of oxalyl chloride and 2-amino-4,6-dichloropyrimidine which can be obtained from 2-amino-4,6-dihydroxy pyrimidine.     

Aza-Wittig reaction of N-phosphorylalkyl phosphazenes with carbonyl compounds and phenylisocyanate. Synthesis of 4-amino-3-phosphoryl-2-azadienes and pyrazine-phosphonates

Simple and functionalized N-phosphorylalkyl imines and N-phosphorylalkyl-N′-phenyl-carbodiimides are obtained by aza-Wittig reaction of phosphazenes derived from aminophosphonates with carbonyl compounds and phenyl isocyanate. The reaction with dimethylformamide diethyl acetal (DMF-DEA) of these functionalized imines leads to the synthesis of 4-amino-3-phosphoryl-2-azadienes. N-Phosphorylmethyl imine derived from benzaldehyde can be used for the preparation of substituted pyrrole-phosphonates, while acid treatment of 4-dimethylamino-3-diethylphosphoryl-1-phenyl-2-azadiene gives diethyl 5-diethylphosphorylpyrazin-2-ylphosphonate.     

DFT study and Monte Carlo simulation on proton transfers of 2-amino-2-oxazoline, 2-amino-2-thiazoline, and 2-amino-2-imidazoline in the gas phase and in water

Density functional theory (DFT) and Monte Carlo (MC) simulation with free energy perturbation (FEP) techniques have been used to study the tautomeric proton transfer reaction of 2-amino-2-oxazoline, 2-amino-2-thiazoline, and 2-amino-2-imidazoline in the gas phase and in water. Two reaction pathways were considered: the direct and water-assisted transfers. The optimized structures and thermodynamic properties of stationary points for the title reaction system in the gas phase were calculated at the B3LYP/6-311+G(d, p) level of theory. The potential energy profiles along the minimum energy path in the gas phase and in water were obtained. The study of the solvent effect of water on the proton transfer of 2-amino-2-oxozoline, 2-amino-2-thiazoline, and 2-amino-2-imidazoline indicates that water as a solvent is favorable for the water-assisted process and slows down the rate of the direct transfer pathway.     

CH4和CO2合成乙酸中CO2与·H及·CH3相互作用的理论计算

采用量子化学密度泛函方法,对CO2与H及CH3自由基反应进行了理论计算,给出了CO2与H及CH3自由基相互作用的反应机理,提出了CO2与H及CH3自由基作用的4条反应路径.其中以H和CH3自由基进攻CO2的C原子反应为优先路径,主要产物为乙酸,而甲酸甲酯为动力学禁阻产物.计算结果与实验结果相当吻合.为CH4和CO2两步反应合成含氧化合物提供了理论解释和指导.     

Synthesis of new 3<Emphasis Type="Italic">H</Emphasis>-pyrrole derivatives from 3-aryl-2-oxa-7-azaspiro[4.4]nona-3,6,8-trienes

8-Amino-3-aryl-1-imino-4-methyl-6-(morpholin-4-yl)-2-oxa-7-azaspiro[4.4]nona-3,6,8-triene-9-carbonitriles reacted with acetic anhydride to give different products, depending on the solvent. The reaction in tetrahydrofuran gave the corresponding N-acyl derivatives at the imino group, whereas in pyridine 5-amino-2-morpholin-4-yl-3-(1-aryl-1-oxopropan-2-yl)-3H-pyrrole-3,4-dicarbonitriles were formed as a result of opening of the furan ring.     

Hydrothermal reactions of formaldehyde and formic acid: free-energy analysis of equilibrium

The chemical equilibria concerning formaldehyde and formic acid are computationally investigated in water over a wide range of thermodynamic conditions. The free energy is evaluated in the method of energy representation for the solvent effect on the decomposition processes of these two compounds. The solvation is found to suppress the production of nonpolar species from a polar. In the two competitive decomposition reactions of formic acid, the solvent strongly inhibits the decarboxylation (HCOOH-->CO2+H2) and its effect is relatively weak for the decarbonylation (HCOOH-->CO+H2O). The equilibrium weights for the two decomposition pathways of formic acid are determined by the equilibrium constant of the water-gas-shift reaction (CO+H2O-->CO2+H2), which is an essential and useful process in fuel technology. The reaction control by the solvent is then examined for the water-gas-shift reaction. Through the comparison of the equilibrium constants in the absence and presence of solvent, even the favorable side of the reaction is shown to be tuned by the solvent density and temperature. The reaction equilibrium is further treated for aldehyde disproportionation reactions involving formaldehyde and formic acid. The disproportionation reactions are found to be subject to relatively weak solvent effects and to be dominated by the electronic contribution.     

CO oxidation on unsupported Au55, Ag55, and Au25Ag30 nanoclusters

Using density functional calculations, we demonstrate a catalytic reaction path with activation barriers of less than 0.5 eV for CO oxidation on the neutral and unsupported icosahedral nanoclusters of Au(55), Ag(55), and Au(25)Ag(30). Both CO and O(2) adsorb more strongly on these clusters than on the corresponding bulk surfaces. The reaction path consists of an intermediate involving OOCO complex through which the coadsorption energy of CO and O(2) on these clusters is expected to play an important role in the reaction. Based on the studies for the Au and Ag nanoclusters, a model alloy nanocluster of Au(25)Ag(30) was designed to provide a larger coadsorption energy for CO and O(2) and was anticipated to be a better catalyst for CO oxidation from energetic analysis.     

Reaction of 5-substituted-2-amino-2-oxazolines with ethoxycarbonyl isocyanate. A route to 2,3,6,7-tetrahydro-4H-oxazolo[3,2-a]-1,3,5-triazine-2,4-diones

The reaction of 2-amino-2-oxazolines with ethoxycarbonyl isocyanate was investigated in order to access to fused 1,3,5-triazine-2,4-diones with a potential 5-HT₂ antagonist activity. The reaction leads to 2,3,6,7-tetrahydro-4H-oxazolo[3,2-a]-1,3,5-triazine-2,4-diones and to 1-carbethoxy-3-(2-iminooxazolidine)ureas. During the carbamoylation the regioselectivity seems to be related to the strong nucleophilic character of the endo nitrogen atom of 2-amino-2-oxazolines. The structures of two compounds were studied by X-ray crystallography. N-Substituted compounds have been prepared by alkylation of the 2,3,6,7-tetrahydro-7-phenoxymethyl-4H-oxazolo[3,2-a]-1,3,5-triazine-2,4-dione.     

Condensed 1,3,5-triazines: 1,3,4-Thiadiazolo[3,2-a]-1,3,5-triazines and isoxazolo[2,3-a]-1,3,5-triazines

A convenient route is reported for the synthesis of substituted 1,3,4-thiadiazolo[3,2-a]-1,3,5-triazine-5,7-diones and isoxazolo[2,3-a]-1,3,5-triazines. Condensation of the appropriately substituted 2-amino-1,3,4-thiadiazole and 3-aminoisoxazole with phenoxycarbonyl isocyanate provides the desired target compounds in fair yield.