Synthesis,Crystal Structure and Thermal Behavior of 4,5‐Diacetoxyl‐2‐(dinitromethylene)‐imidazolidine

A new energetic material, 4,5‐diacetoxyl‐2‐(dinitromethylene)‐imidazolidine (DADNI), was synthesized by the reaction of 4,5‐dihydroxyl‐2‐(dinitromethylene)‐imidazolidine (DDNI) and acetic anhydride, and characterized by single crystal X‐ray diffraction. Crystal data for DADNI are monoclinic, space group C2/c, a=15.9167(3) Å, b=8.6816(4) Å, c=8.5209(3) Å, β=103.294(9)°, V=1145.9(3) ų, Z=4, µ=0.150 mm⁻¹, F(000)=600, D_c=1.682 g·cm⁻³, R₁=0.0565 and wR₂=0.1649. Thermal decomposition behavior of DADNI was studied and an intensely exothermic process was observed. The kinetic equation of the decomposition reaction is: dα/dT=(10^16.64/β)×4α^3/4exp(−1.582×10⁵/RT). The critical temperature of thermal explosion is 163.76°C. The specific heat capacity of DADNI was studied with micro‐DSC method and theoretical calculation method. The molar heat capacity is 343.30 J·mol⁻¹·K⁻¹ at 298.15 K. The adiabatic time‐to‐explosion of DADNI was calculated to be 87.7 s.     

Non‐Isothermal Decomposition Kinetics,Specific Heat Capacity and Adiabatic Time‐to‐explosion of a Novel High Energy Material: 1‐Amino‐1‐Methylamino‐2,2‐Dinitroethylene (AMFOX‐7)

A novel high energy material, 1‐amino‐1‐methylamino‐2,2‐dinitroethlyene (AMFOX‐7), was synthesized by the reaction of 1,1‐diamino‐2,2‐dinitroethylene (FOX‐7) and methylamine aqueous solution in N‐methyl pyrrolidone at 80°C. The thermal behavior and non‐isothermal decomposition kinetics of AMFOX‐7 were studied with DSC and TG/DTG methods. The kinetic equation of thermal decomposition reaction can be expressed as: $ {\rm d\alpha /d}T = \frac{{10^{21.03}}}{{\rm \beta}}\frac{3}{2}\left({1 - {\rm \alpha}} \right)\left[{- 1{\rm n}\left({{\rm 1} - {\rm \alpha}} \right)} \right]^{\frac{1}{3}} \exp \left({- 2.292 \times 10^5 {\rm /}RT} \right) A novel high energy material, 1‐amino‐1‐methylamino‐2,2‐dinitroethlyene (AMFOX‐7), was synthesized by the reaction of 1,1‐diamino‐2,2‐dinitroethylene (FOX‐7) and methylamine aqueous solution in N‐methyl pyrrolidone at 80°C. The thermal behavior and non‐isothermal decomposition kinetics of AMFOX‐7 were studied with DSC and TG/DTG methods. The kinetic equation of thermal decomposition reaction can be expressed as: $ {\rm d\alpha /d}T = \frac{{10^{21.03}}}{{\rm \beta}}\frac{3}{2}\left({1 - {\rm \alpha}} \right)\left[{- 1{\rm n}\left({{\rm 1} - {\rm \alpha}} \right)} \right]^{\frac{1}{3}} \exp \left({- 2.292 \times 10^5 {\rm /}RT} \right) $. The critical temperature of thermal explosion of AMFOX‐7 is 244.89°C. The specific heat capacity of AMFOX‐7 was determined with micro‐DSC method and theoretical calculation method, and the standard molar specific heat capacity is 199.39 J·mol^?1·K^?1 at 298.15 K. Adiabatic time‐to‐explosion of AMFOX‐7 was also calculated to be 215.41 s. AMFOX‐7 has higher thermal stability than FOX‐7.     

G(FOX-7)的合成、晶体结构及量子化学研究

用1,1-二氨基-2,2-二硝基乙烯（FOX-7）和盐酸胍在KOH水溶液中合成了[HN=C(NH₂)₂]⁺(FOX-7)^---G(FOX-7),并培养出淡黄色单晶。化合物属正交晶系,空间群为P-bca,晶体结构参数为: a=1.0428(3)nm, b=0.73099(18)nm,c=2.2253(5)nm,V=1.6963(7) nm³,D_c=1.542 g/cm³,μ＝0.333 mm^-1,F(000)=864, Z=8。在分析分子晶体结构的基础上,采用B3LYP、HF和MP2三种方法在6-31+G(d)基组水平上对标题化合物进行几何全优化,并对其成键情况、原子电荷分布、分子轨道能量进行了分析。     

1-氨基-1-肼基-2,2-二硝基乙烯（AHDNE）的非等温分解动力学，比热容和绝热至爆时间研究

利用DSC和TG/DTG法研究了1-氨基-1-肼基-2,2-二硝基乙烯（AHDNE）热分解行为及分解动力学,第一热分解过程的动力学方程为： ,其热爆炸临界温度为98.16 ºC。同时,利用微量热法测定了AHDNE的比热容,298.15K时的标准摩尔比热容为211.86 J•mol-1•K-1。计算得到了AHDNE的绝热至爆时间为59.21 s。AHDNE是不稳定的,其热稳定性远低于母体化合物FOX-7。     

Thermal Behaviors of 2‐(Dinitromethylene)‐1,3‐diazacycloheptane (DNDH)

2‐(Dinitromethylene)‐1,3‐diazacycloheptane (DNDH) was prepared by the reaction of 1,1‐diamino‐2,2‐dinitroethylene (FOX‐7) with 1,4‐diaminoethane in NMP. Thermal decomposition behavior of DNDH was studied under the non‐isothermal conditions with DSC method, and presents only one intensely exothermic decomposition process. The kinetic equation of the decomposition reaction is dα/dT=10^33.88×3α^2/3exp(−3.353×10⁵/RT)/β. The critical temperature of thermal explosion is 215.97°C. Specific heat capacity of DNDH was studied with micro‐DSC method and theoretical calculation method, and the molar heat capacity is 215.40 J·mol⁻¹·K⁻¹ at 298.15 K. Adiabatic time‐to‐explosion was calculated to be 92.07 s. DNDH has same thermal stability to FOX‐7.     

Structural Characterization and Thermal Properties of 1-Amino-1-ethylamino-2,2-dinitroethylene

1-amino-1-ethylamino-2,2-dinitroethylene (AEFOX-7) was synthesized by the reaction of 1,1-diamino-2,2-dinitroethylene (FOX-7) and ethylamine aqueous solution at 92 oC. The the-oretical investigation on AEFOX-7 was carried out by B3LYP/6-311++G^**method. The IR frequencies and NMR chemical shifts were performed and compared with the experi-mental results. The thermal behavior of AEFOX-7 was studied with differential scanning calorimetry and thermal gravity-derivative thermogravimetry methods, and can be divided into a melting process and an exothermic decomposition process. The enthalpy, apparent activation energy and pre-exponential factor of the exothermic decomposition reaction were obtained as 374.88 kJ/mol, 169.7 kJ/mol, and 10^19.24 s^-1, respectively. The critical temper-ature of thermal explosion of AEFOX-7 is 145.2 oC. The specific heat capacity of AEFOX-7 was determined with micro-DSC method and theoretical calculation method, and the molar heat capacity is 214.50 J/(mol K) at 298.15 K. The adiabatic time-to-explosion of AEFOX-7 was calculated to be a certain value between 1.38-1.40 s. The thermal stability of AEFOX-7 is much lower than that of FOX-7.     

Adsorption and Decomposition Mechanism of 1,1‐Diamino‐2,2‐dinitroethylene on Al(111) Surface by Periodic DFT Calculations

The adsorption of 1,1‐diamino‐2,2‐dinitroethylene (FOX‐7) molecule on the Al(111) surface was investigated by the generalized gradient approximation (GGA) of density functional theory (DFT). The calculations employ a supercell (4×4×2) slab model and three‐dimensional periodic boundary conditions. The strong attractive forces between oxygen and aluminum atoms induce the N? O bond breaking of the FOX‐7. Subsequently, the dissociated oxygen atoms and radical fragment of FOX‐7 oxidize the Al surface. The largest adsorption energy is ?940.5 kJ/mol. Most of charge transfer is 3.31e from the Al surface to the fragment of FOX‐7 molecule. We also investigated the adsorption and decomposition mechanism of FOX‐7 molecule on the Al(111) surface. The activation energy for the dissociation steps of P2 con?guration is as large as 428.8 kJ/mol, while activation energies of other con?gurations are much smaller, in range of 2.4 to 147.7 kJ/mol.     

新型高能有机钾盐K(DNDZ)的晶体结构和热行为研究

合成了一种新型高能有机钾盐2-(二硝基亚甲基)-1,3-二氮杂环戊烷钾盐[K(DNDZ)],并培养出单晶。该晶体属单斜晶系,空间群P2₁/n,晶胞参数为：a=0.506 31(19) nm,b=1.336 2(5) nm,c=1.164 9(4) nm,β=99.860(6)°,V=0.776 5(5) nm³,Z=4,μ=0.674 mm^-1,F(000)=432,D_c=1.815 g·cm^-3。用非等温DSC法研究了K(DNDZ)的热行为,第一放热分解反应的放热焓、表观活化能和指前因子分别为444.75 kJ·mol^-1,152.2 kJ·mol^-1和10^13.92 s^-1。其热爆炸的临界温度为208.63 ℃。     

1-氨基-1-肼基-2,2-二硝基乙烯(AHDNE)的合成、 晶体结构和理论计算

利用1,1-二氨基-2,2-二硝基乙烯(FOX-7)和水合肼在水体系中合成了1-氨基-1-肼基-2,2-二硝基乙烯(AHDNE), 并在甲醇溶液中培养出可用于X射线衍射的单晶. 晶体属正交晶系, 空间群为Pnma, 晶胞参数为: a＝0.6283(4) nm, b＝0.7713(5) nm, c＝1.2280(8) nm, a＝b＝g＝90°, V＝0.5950(7) nm3, Dc＝1.821 g/cm3, μ＝0.171 mm－1, F(000)＝336, Z＝4, R1＝0.0489, wR2＝0.1456. 选取标题化合物的一个结构单元作为初始模型, 运用Gaussian 03程序, 在6-311＋G(d)的基组水平上, 用HF, MP2以及B3LYP三种计算方法对标题化合物进行了几何全优化, 并对其成键情况及自然键轨道(NBO)进行了分析.     

Synthesis and characterization of a new cadmium complex based on 1,1-diamino-2,2-dinitroethylene

A new cadmium complex of 1,1-diamino-2,2-dinitroethylene (FOX-7) was synthesized and structurally determined. Central Cd²⁺ is coordinated by six nitrogens from four NH₃ molecules and two FOX-7^? anions to form an octahedral structure. The thermal decomposition of Cd(NH₃)₄(FOX-7)₂ was studied with differential scanning calorimeter and TG–DTG methods. The apparent activation energy and pre-exponential constant of the exothermic process are 220.6 kJ M^?1 and 10^17.86 s^?1, respectively. Cd(NH₃)₄(FOX-7)₂ is sensitive.     

Cs(DNDZ)的合成、晶体结构和热行为研究

合成了一种新型高能有机铯盐2-(二硝基亚甲基)-1,3-二氮杂环戊烷铯盐[Cs(DNDZ)],并培养出单晶。该晶体属单斜晶系,空间群P21/c,晶胞参数为:a=0.933 6(2)nm,b=0.677 42(14)nm,c=1.387 4(3)nm,β=101.173(2)°,V=0.860 8(3)nm3,Z=4,μ=4.292mm-1,F(000)=576,Dc=2.361 g.cm-3,R1=0.029 1,wR2=0.077 8。用非等温DSC,TG/DTG法研究了Cs(DNDZ)的热行为,第一放热分解反应的放热焓、表观活化能和指前因子分别为-1045 J.g-1,144.2 kJ.mol-1和1013.75s-1。其热爆炸的临界温度为181.48℃。Cs(DNDZ)热稳定性低于DNDZ。     

Thermal Behavior of 2‐(Dinitromethylene)‐1,3‐diazacyclopentane

A new compound, 2‐(dinitromethylene)‐1,3‐diazacyclopentane (DNDZ), was prepared by the reaction of 1,1‐diamino‐2,2‐dinitroethylene (FOX‐7) with 1,2‐diaminoethane in N‐methylpyrrolidone (NMP). Thermal decomposition of DNDZ was studied under non‐isothermal conditions by DSC, TG/DTG methods, and the enthalpy, apparent activation energy and pre‐exponential factor of the exothermic decomposition reaction were obtained as 317.13 kJ·mol^?1, 269.7 kJ·mol^?1 and 10^24.51 s^?1, respectively. The critical temperature of thermal explosion was 261.04°C. Specific heat capacity of DNDZ was determined with a micro‐DSC method and a theoretical calculation method, and the molar heat capacity was 205.41 J·mol^?1·K^?1 at 298.15 K. Adiabatic time‐to‐explosion was calculated to be a certain value between 263–289 s. DNDZ has higher thermal stability than FOX‐7.     

1,1-二氨基-2,2-二硝基乙烯的合成与性能研究

以2-甲基嘧啶-4,6-二酮为原料, 通过硝化和水解过程合成出FOX-7 (1,1-二氨基-2,2-二硝基乙烯), 经IR, MS, NMR和元素分析鉴定了其结构, 并对影响得率的主要因素进行了简要分析. 重结晶提纯后培养合成产物的单晶, 用四圆衍射仪对其进行了结构解析, 得到了合成产物的晶体学数据. 测试了FOX-7的电火花感度和落锤感度, 并同RDX (1,3,5-三硝基-1,3,5-三氮杂环己烷)、HMX(环四甲撑四硝胺)以及TATB(三氨基三硝基苯)进行了对比, 结果表明FOX-7的感度要低于RDX, 但较TATB差. 同时对原始样品和重结晶FOX-7的外观形貌和热性质进行了测试, 并对变化情况进行了说明, 发现FOX-7的外观形貌和热性质可以进一步改善和优化.     

1,4-二氢-5H-(二硝基亚甲基)-四唑(DNMT)的合成、晶体结构和热行为研究

利用1-氨基-1-肼基-2,2-二硝基乙烯(AHDNE)和亚硝酸钾在酸性水溶液中合成出了高能富氮化合物1,4-二氢- 5H-(二硝基亚甲基)-四唑(DNMT), 并在水溶液中培养出DNMT•2H2O单晶. 该晶体属正交晶系, 空间群为Pnma, 晶胞参数为: a＝10.392(2) Å, b＝15.809(4) Å, c＝5.0640(11) Å, V＝832.0(3) Å3, Dc＝1.629 g•cm－3, μ＝0.163 mm－1, F(000)＝432, Z＝4, R1＝0.0311, wR2＝0.0885. 运用Gaussian 03程序, 在6-311＋＋G**基组水平上, 用HF和B3LYP两种方法对DNMT分子进行了几何全优化和相应的电荷、轨道能量分析. 理论计算和热分析结果表明DNMT呈现较差的热稳定性.     

3-硝基胍-6-(3,5-二甲基吡唑)-1,2,4,5-四嗪的晶体结构及热行为

合成了3-硝基胍-6-(3,5-二甲基吡唑)-1,2,4,5-四嗪(NDT),在二甲基甲酰胺(DMF)中培养出NDT的单晶(NDT·DMF),该晶体属于三斜晶系,P-1空间群,晶胞参数为a=0.7070(4) nm,b=0.8468(6) nm,c=1.4123(9) nm,α=73.281(8)°,β=80.423(11)°,γ=81.740(9)°,Z=2。 利用DSC和TG-DTG研究了NDT的热分解行为,其放热过程的表观活化能和指前因子分别为288.245 kJ/mol和10^29.04 s^-1。 对NDT的热安全性进行了研究,获得NDT的自加速分解温度T_SADT为212.19 ℃,热点火温度T_be为213.52 ℃,热爆炸临界温度T_bp为214.95 ℃,绝热至爆时间范围在5.43~6.26 s。     

Molecular Structure,Theoretical Calculation and Thermal Behavior of DAG(NTO)

A new compound, [DAG(NTO)], was prepared by mixing the NaNTO•H2O aqueous solution and diaminogaunidine hydrochloride aqueous solution. Single crystals suitable for X-ray measurement were obtained by recrystallization from water at room temperature. The crystal belongs to triclinic, space group P-1 with crystal parameters of a＝0.6732(3) nm, b＝0.6745(3) nm, c＝0.9840(4) nm, α＝88.309(7)°, β＝77.255(6)°, γ＝86.520(7)°, V＝4.349(3) nm3, Z＝2, μ＝0.144 mm－1, F(000)＝228, and Dc＝1.674 g/cm3. The theoretical investigation on DAG(NTO) as a structural unit was carried out by B3LYP, MP2 and HF methods with 6-31＋G(d) basis set. The apparent activation energy and pre-exponential constant of the exothermic decomposition reaction of DAG(NTO) are 112.15 kJ•mol－1 and 109.603 s－1, respectively. The critical temperature of thermal explosion is 208.6 ℃.     

1,1-二氨基-2,2-二硝基乙烯的比热容、热力学性质及绝热至爆时间研究

应用Micro-DSCⅢ微热量仪的两种连续比热容测定模式对1,1-二氨基-2,2-二硝基乙烯(FOX-7)比热容进行了测定. 得到298.15 K时FOX-7的标准摩尔比热容分别为176.56和176.02 J•mol^－1•K^－1, 相对偏差为0.31%. 运用Gaussian 03W程序的DFT-RB3LYP/6-311＋＋G**方法对FOX-7在283～353 K温度范围内进行了比热容理论计算, 结果为147.11～170.54 J•mol^－1•K^－1, 与Micro-DSCⅢ微热量仪测定值偏差在13.27%～15.46%之间. 用测得的比热容方程计算了298.15 K为基础的FOX-7的热力学函数并得到了绝热至爆时间.     

Synthesis,structural characterization,and thermal properties of a new energetic zinc-FOX-7 complex

A new energetic zinc-FOX-7 complex (FOX-7 = 1,1-diamino-2,2-dinitroethylene), Zn(NH₃)₂(FOX-7)₂, was synthesized and structurally characterized by single crystal X-ray diffraction. Zn²⁺ was coordinated by four nitrogens from two ammonias and two FOX-7^? anions, forming a distorted tetrahedron. Thermal decomposition of Zn(NH₃)₂(FOX-7)₂ was studied by differential scanning calorimetry and thermogravimetry/differential thermogravimetry. The apparent activation energy and pre-exponential constant of the first decomposition process are 144.8 kJ M^?1 and 10^13.99?s^?1, respectively. The self-accelerating decomposition temperature and critical temperature of thermal explosion of Zn(NH₃)₂(FOX-7)₂ are 183.2 and 195.8?°C, respectively. The thermal stability of Zn(NH₃)₂(FOX-7)₂ is good, but Zn(NH₃)₂(FOX-7)₂ is still sensitive.     

1,1′-联萘-2,2′-二胺的结构和外消旋机理的DFT研究

运用电子密度泛函理论(DFT)研究了1,1′-联萘-2,2′-二胺光学构象的稳定性、消旋异构化过程及机理。研究表明:2,2′-BINAM有三种稳定构型,每一种构型都有两个镜面对映异构体。2,2′-BINAM的异构化有两种类型:一是氨基围绕离域大π键所在平面进行翻转;另一是两个萘环围绕C1-C1′键进行旋转。     

3，5-二羟基-2，4，6-三硝基苯酚铷的晶体结构和热行为

0IntroductionSom e nitrogen鄄rich alkaline and alkali鄄earth m et鄄als com pounds of polynitro hydroxybenzenes can beused environm entally friendly prim ary explosives[1￣5].2,4,6鄄Trinitro鄄1,3,5鄄trihydroxybenzene(trinitrophloroglu鄄cinol,TNPG)belongs to a polynitro hydroxybenzeneand has been used in chem icalindustry as an ingredi鄄entfor prim ing com position,percussion caps and deto鄄nator form ulations[6].Therefore,in recent years,ithasbeen exploited to prepare a num ber of salts of ba…