离子色谱法测定卷烟主流烟气中NO_x与烟丝中NO_3~-含量

<正>烟气中的氮氧化物(NOx)大部分来源于烟草中的硝酸盐(NO3-)[1],一方面由于硝酸盐热分解产生氧气,卷烟中硝酸盐含量增加有助于提高卷烟燃烧性,另一方面由于卷烟主流烟气中NOx的含量主要和烟丝中的NO3-相关[2],随着烟草中硝酸盐含量的增加,主流烟气中N2O、NO、NO2等氮氧化物的释放量也随之增加,NOx是卷烟烟气中主要有害成分之一,被列入了"Hoffmann有害成分名单"     

分子印迹聚合物选择性降低烟气中稠环芳烃类物质

以芘(PYR)为模板,由热引发本体聚合合成了芘分子印迹聚合物(MIP),考察了印迹聚合物的选择性吸附性能,采用Scatchard模型分析了印迹聚合物的结合特性,用离线固相萃取实验考察了印迹聚合物对同类底物的吸附能力,并将芘分子印迹聚合物应用到卷烟滤嘴中,用GC/MS法考察了卷烟主流烟气中稠环芳烃类物质释放量的变化。结果表明,芘分子印迹聚合物具有选择性降低卷烟烟气中稠环芳烃类物质的功能,当MIP添加量为1.5 mg时,能将卷烟烟气中的苯并[a]芘(B[a]P)、苯并(a)蒽(B[a]A)和苣(CHR)的释放量分别降低31.08%、25.69%和27.33%。     

分子印迹聚合物选择性降低烟气中稠环芳烃类物质

以芘(PYR)为模板,由热引发本体聚合合成了芘分子印迹聚合物(MIP),考察了印迹聚合物的选择性吸附性能,采用Scatchard模型分析了印迹聚合物的结合特性,用离线固相萃取实验考察了印迹聚合物对同类底物的吸附能力,并将芘分子印迹聚合物应用到卷烟滤嘴中,用GC/MS法考察了卷烟主流烟气中稠环芳烃类物质释放量的变化。 结果表明,芘分子印迹聚合物具有选择性降低卷烟烟气中稠环芳烃类物质的功能,当MIP添加量为1.5 mg时,能将卷烟烟气中的苯并[a]芘(B[a]P)、苯并(a)蒽(B[a]A)和苣(CHR)的释放量分别降低31.08%、25.69%和27.33%。     

滤棒中线纤维化学特性对卷烟主流烟气有害成分释放量的影响

为了研究中线滤棒中线纤维化学特性对卷烟主流烟气中有害成分释放量的影响,采用Boehm滴定法及FT-IR光谱对纤维的基团及数量进行了分析,并结合烟气常规以及主流烟气有害成分释放量的检测探讨了纤维的化学特性与主流烟气有害成分释放量之间的相关性。结果显示：（1）卷烟主流烟气中NH。释放量随着纤维酸性基团数量的增加而降低;HCN释放量随着纤维碱性基团数量的增加而降低;（2）影响苯酚释放量的主要因素是纤维的内酯基,其次是纤维的酸碱性;（3）卷烟主流烟气中巴豆醛的释放量随纤维的氨基基团数量的增加而降低。     

间氯苯基锰卟啉-5-氟尿嘧啶配合物的合成及其对癌细胞的抑制活性

合成了4种新5-氟尿嘧啶-卟啉衍生物：5-[3-(2-(5-氟尿嘧啶-1-基)乙氧基)苯基]-10,15,20-三(3-氯苯基)卟啉(1a)、5-[3-(2-(5-氟尿嘧啶-1-基)乙氧基)苯基]- 10,15,20-三(3-氯苯基)锰卟啉(2a)、5-[3-(3-(5-氟尿嘧啶-1-基)丙氧基)苯基]-10,15,20-三(3-氯苯基)锰卟啉(2b)和5-[3-(4-(5-氟尿嘧啶-1-基)丁氧基)苯基]-10,15,20-三(3-氯苯基)锰卟啉(2c),通过UV-Vis、IR、MS及元素分析表征了它们的结构。 用噻唑蓝法（MTT法）测定了化合物2a、2b和2c对人胃癌细胞株BGC-823的抑制活性。 化合物2b的半数抑制浓度IC50为1.34 μmol/L,表明有一定的细胞毒作用。     

新型含吡唑和三唑基联吡啶类化合物的合成及其光学性能

以对-吡唑基苯甲醛(1a)[或对-1,2,4-三唑基苯甲醛(1b)]和苯乙酮经Aldol缩合反应得4-吡唑查尓酮(2a)[或4-三唑查尔酮(2b)];2a或2b与2-乙酰基吡啶(3)经Michael加成反应得1-苯基-5-(2-吡啶基)-3-[4-(1-吡唑基)苯基]-1,5-戊二酮(4a)或1-苯基-5-(2-吡啶基)-3-[4-(1-[1,2,4]-三唑基)苯基]-1,5-戊二酮(4b);4a或4b与AcONH4经关环反应合成了两种新型含吡唑和三唑基的联吡啶衍生物——6-苯基-4-[4-(1H-吡唑基)苯基]-2,2'-联吡啶(5a)或6-苯基-4-[4-(1H-1,2,4-三唑基)苯基]-2,2'-联吡啶(5b),其结构经1H NMR,IR,MS和元素分析表征。UV-Vis和FL研究结果表明:5a和5b的λmax分别位于290 nm和280nm;5a和5b的λem均位于360 nm。     

新型萘并氧杂(艹卓)并喹啉酮和萘并吖啶二酮的合成及其荧光性质的研究

以2-溴甲基-3-喹啉甲酸乙酯(1)为底物,分别与α-萘酚和β-萘酚"一锅法"高产率合成了2-(α-萘氧甲基)-3-喹啉甲酸(2a)和2-(β-萘氧甲基)-3-喹啉甲酸(2b).化合物2a,2b用Eaton试剂(五氧化二磷一甲基磺酸)作为环化试剂,发生分子内Friedel-Crafts酰基化反应得到两种新型闭环产物:萘并[2',1',6,7]氧杂(艹卓)并[3,4-6]喹啉-7(14H)-酮(3a)和萘并[1',2',6,7]氧杂(艹卓)并[3,4-6]喹啉-15(8H)-酮(3b).化合物3a,3b在氢氧化钾的乙醇-水溶液中经1,2-Wittig重排和空气氧化生成萘并[2,1-b)吖(啶-7,14-二酮(4a)和萘并[1,2-6]吖啶-7,14-二酮(4b).所合成新化合物2a～4a,2b～4b的结构通过IR,UV,1H NMR,MS和元素分析进行了确认.测定了化合物2a～4a,2b～4b在三氯甲烷中的紫外光谱和化合物3a,4a和3b,4b的固体荧光光谱,2a～4a,2b～4b在三氯甲烷中的最大吸收峰分别位于280,261,312,273,256和313 nm;3a,4a和3b,4b在固态状态下的最大发射波长分别为350,300,274和330 nm.     

新型萘并氧杂并喹啉酮和萘并吖啶二酮的合成及其荧光性质的研究

以2-溴甲基-3-喹啉甲酸乙酯(1)为底物, 分别与α-萘酚和β-萘酚“一锅法”高产率合成了2-(α-萘氧甲基)-3-喹啉甲酸(2a)和2-(β-萘氧甲基)-3-喹啉甲酸(2b). 化合物2a, 2b用Eaton试剂(五氧化二磷-甲基磺酸)作为环化试剂, 发生分子内Friedel-Crafts酰基化反应得到两种新型闭环产物: 萘并[2’,1’,6,7]氧杂并[3,4-b]喹啉-7(14H)-酮(3a)和萘并[1’,2’,6,7]氧杂并[3,4-b]喹啉-15(8H)-酮(3b). 化合物3a, 3b在氢氧化钾的乙醇-水溶液中经1,2-Wittig重排和空气氧化生成萘并[2,1-b]吖啶-7,14-二酮(4a)和萘并[1,2-b]吖啶-7,14-二酮(4b). 所合成新化合物2a～4a, 2b～4b的结构通过 IR, UV, 1H NMR, MS和元素分析进行了确认. 测定了化合物2a～4a, 2b～4b在三氯甲烷中的紫外光谱和化合物3a, 4a和3b, 4b的固体荧光光谱, 2a～4a, 2b～4b在三氯甲烷中的最大吸收峰分别位于280, 261, 312, 273, 256和313 nm; 3a, 4a和3b, 4b在固态状态下的最大发射波长分别为350, 300, 274和330 nm.     

新型4-(5-N-取代-1,3,4-噻二唑-2-巯基)-苯并[4,5]呋喃[3,2-d]嘧啶类衍生物的合成及其抗癌活性

将5-取代胺基-2-巯基-1,3,4-噻二唑引入苯并[4,5]呋喃[3,2-d]嘧啶中,设计并合成了10个新型的4-(5-N-取代-1,3,4-噻二唑-2-巯基)-苯并[4,5]呋喃[3,2-d]嘧啶类衍生物(3a～3j),其结构经1H NMR,13C NMR,IR和MS确认。用MTT法测定了3a～3j对人胃腺癌细胞体(MGC)的体外增殖活性。结果表明,3a～3j均具有不同程度的抑制MGC的活性,其中4-(5-N-2’-甲氧基苯基-1,3,4-噻二唑-2-巯基)-苯并[4,5]呋喃[3,2-d]嘧啶(3j)在10μmol·L-1的浓度下对MGC的抑制率为86.4%。     

八元瓜环与乔松素的主客体作用及对乔松素性质的影响

利用核磁共振波谱、紫外吸收光谱和热重分析等方法研究了八元瓜环(Q[8])对乔松素(PCB)的包结作用;采用紫外吸收光谱法研究了Q[8]对PCB水溶性、抗氧化活性及在人工胃肠液中稳定性和累积释放量的影响.结果表明,PCB与Q[8]形成了摩尔比为1∶2的主客体包结配合物(PCB-Q[8]),PCB位于2个瓜环的端口之间,其稳定结合常数为5.00×10~9 L~2/mol~2.当c(Q[8])=90μmol/L时,可使PCB在水中的溶解度增加4.3倍;PCB-Q[8]包合物和PCB均对2,2-联氮基-双-(3-乙基苯并噻唑-6-磺酸)二铵盐(ABTS)自由基具有较好的清除作用,IC_(50)值分别为4.3和3.2μmol/L.在人工胃液中,PCB和PCB-Q[8]包合物都较稳定;而在人工肠液中,PCB于72 h后全部降解,PCB-Q[8]包合物则基本未降解,表明Q[8]增强了PCB在人工肠液中的稳定性;Q[8]的介入提高了PCB在人工胃液和人工肠液中的累积释放量,其数值分别提高了5倍和2倍.     

Synthesis and structure of hydroxyisoxazolidines and derivatives of hydroxylamine and alkenals

The reactions of N-substituted hydroxylamines with alkenals serve as a method for the synthesis of the corresponding 2-substituted 3(5)-hydroxyisoxazolidines. The reaction pathway is determined by the nature of the substituent attached to the nitrogen atom. Ring-chain isomerism has been detected in these newly obtained compoundsTranslated from Khimiya Geterotsiklicheskikh Soedinenii, No. 9, pp. 1270–1276, September, 1987.     

Synthesis and characterization of triazenide and triazene complexes of ruthenium and osmium

Triazenide [M(eta2-1,3-ArNNNAr)P4]BPh4 [M = Ru, Os; Ar = Ph, p-tolyl; P = P(OMe)3, P(OEt)3, PPh(OEt)2] complexes were prepared by allowing triflate [M(kappa2-OTf)P4]OTf species to react first with 1,3-ArN=NN(H)Ar triazene and then with an excess of triethylamine. Alternatively, ruthenium triazenide [Ru(eta2-1,3-ArNNNAr)P4]BPh4 derivatives were obtained by reacting hydride [RuH(eta2-H2)P4]+ and RuH(kappa1-OTf)P4 compounds with 1,3-diaryltriazene. The complexes were characterized by spectroscopy and X-ray crystallography of the [Ru(eta2-1,3-PhNNNPh){P(OEt)3}4]BPh4 derivative. Hydride triazene [OsH(eta1-1,3-ArN=NN(H)Ar)P4]BPh4 [P = P(OEt)3, PPh(OEt)2; Ar = Ph, p-tolyl] and [RuH{eta1-1,3-p-tolyl-N=NN(H)-p-tolyl}{PPh(OEt)2}4]BPh4 derivatives were prepared by allowing kappa1-triflate MH(kappa1-OTf)P4 to react with 1,3-diaryltriazene. The [Os(kappa1-OTf){eta1-1,3-PhN=NN(H)Ph}{P(OEt)3}4]BPh4 intermediate was also obtained. Variable-temperature NMR studies were carried out using 15N-labeled triazene complexes prepared from the 1,3-Ph15N=N15N(H)Ph ligand. Osmium dihydrogen [OsH(eta2-H2)P4]BPh4 complexes [P = P(OEt)3, PPh(OEt)2] react with 1,3-ArN=NN(H)Ar triazene to give the hydride-diazene [OsH(ArN=NH)P4]BPh4 derivatives. The X-ray crystal structure determination of the [OsH(PhN=NH){PPh(OEt)2}4]BPh4 complex is reported. A reaction path to explain the formation of the diazene complexes is also reported.     

Investigation of adhesion and mobility of polyurethane and epoxy-rubber glues and adhesives

The values of activation parameters in uncured and cured epoxy resins, rubbers, and blends thereof are investigated. The dependences of activation energy and adhesion strength of epoxy-rubber compositions on rubber content are determined. The correlation of adhesion and activation energy values for polyurethane rubber and epoxy-rubber compositions is shown.     

Mass and NMR spectra of haplophyllidine and perforine and of their derivatives

Conclusions The mass and NMR spectra of haplophyllidine, perforine, and their derivatives have been studied. The influence of the open and cyclic forms of the molecular ion on the nature of the fragmentation has been discussed. The main routes of fragmentation of the compounds considered are due to the presence of substituents at C₈ and C₄.Khimiya Prirodnykh Soedinenii, Vol. 5, No. 4, pp. 273–279, 1969     

Crystal and molecular structure of aroyl- and acetylhydrazones of acet- and benzaldehydes

Aroyl- and acetylhydrazones of acet- (I) and benzaldehydes (IV) and benzoylhydrazones of acet- (II) and benzaldehydes (III) were studied by x-ray structural and quantum-chemical methods in order to establish their structures. Compund (I) was the EEZ structure in the crystal. Calculations and spectral data showed that the EEE form occurs in nonpolar solvents and in the gas phase. According to crystallographic data molecules (I)–(IV) are the E-isomers (relative to the N-N bond) and the hydrazone fragments are planar. Intermolecular N-H...O H-bonds from in the crystals. The data obtained suggest that the majority of acylhydrazones are conformationally rigid on dissolution although exceptions do occur. Apparently the reasons for the difference of acetyl- and benzoylhydrazones in electrocarboxylation reactions are electronic and not steric factors.Translated from Izvestiya Akademii Nauk SSSR, Seriya Khimicheskaya, No. 1, pp. 75–81, January, 1991.     

Preparation and characterization of diarylphosphazene and diarylphosphinohydrazide complexes of titanium, tungsten and ruthenium and phosphorylketimido complexes of rhenium

Reaction of the proligand Ph2PN(SiMe3)2 (L1) with WCl6 gives the oligomeric phosphazene complex [WCl4(NPPh2)]n, 1 and subsequent reaction with PMe2Ph or NBu4Cl gives [WCl4(NPPh2)(PMe2Ph)] (2) or [WCl5(NPPh2)][NBu4] (3), respectively. DF calculations on [WCl5(NPPh2)][NBu4] show a W=N double bond (1.756 A) and a P-N bond distance of 1.701 A, which combined with the geometry about the P atom suggests, there is no P-N multiple bonding. Reaction of L1 with [ReOX3(PPh3)2] in MeCN (X = Cl or Br) gives [ReX2(NC(CH3)P(O)Ph2)(MeCN)(PPh3)](X = Cl, 4, X = Br, 5) which contains the new phosphorylketimido ligand. It is bound to the rhenium centre with a virtually linear Re-N-C arrangement (Re-N-C angle = 176.6 degrees, when X = Cl) and there is multiple bonding between Re and N (Re-N = 1.809(7) A when X = Cl). The proligand Ph2PNHNMe2(L2H) reacts with [(C5H5)TiCl3] to give [(C5H5)TiCl2(Me2NNPPh2)] (6). An X-ray crystal structure of the complex shows the ligand (L2) is bound by both nitrogen atoms. Reaction of the proligands Ph2PNHNR2[R2 = Me2 (L2H), -(CH2CH2)2NCH3 (L3H), (CH2CH2)2CH2 (L4H)] with [{RuCl(mu-Cl)(eta6-p-MeC6H4iPr)}2] gave [RuCl2(eta6-p-MeC6H4iPr)L] {L = L2H (7), L3H (8), L4H (9)}. The X-ray crystal structures of 7-9 confirmed that the phosphinohydrazine ligand is neutral and bound via the phosphorus only. Reaction of complexes 7-9 with AgBF4 resulted in chloride ion abstraction and the formation of the cationic species [RuCl(6-p-MeC6H4iPr)(L)]+ BF4- {(L = L2H (10), L3H (11), L4H (12)}. Finally, reaction of complex 6 with [{RuCl(mu-Cl)(eta6-p-MeC6H4iPr)}2] gave the binuclear species [(eta6-p-MeC6H4iPr)Cl2Ru(mu2,eta3-Ph2PNNMe2)TiCl2(C5H5)], 13.     

Ti-V基储氢合金及其氢化物的物相结构与组分优化设计

Ti-V基储氢合金在室温、常压下即可表现出良好的储氢特性,且质量储氢容量明显高于传统AB₅型储氢合金,从而在氢气的精制和回收、运输和储存及热泵等方面有较早的应用。 此外,在混合气体分离、核反应堆中处理氢的同位素、镍氢电池及燃料电池负极材料等方面也得到了广泛的研究与关注。 基于目前Ti-V基储氢合金的研究现状,概述了该类合金的优势、限制性因素(包括成因)及改性手段。 此外,为了进一步理解Ti-V基合金储氢机理、构建合金组分与储氢特性之间的对应关系,本工作重点围绕Ti-V基储氢合金及其氢化物的结构、组分优化设计展开综述,并对其未来研究方向做出展望。     

Glycolate and Thioglycolate Complexes of Rhenium and Their Oxidative Elimination of Ethylene and of Glycol

Selenium dioxide and osmium tetroxide are effective reagents and catalysts for olefin oxidation, although, owing to their toxicity, reservations remain as to their applicability.^[1] We are therefore seeking more easily handled metal oxides that are soluble in organic solvents and that are as effective as osmium tetroxide in carrying out stereospecific cis hydroxylation of olefins. The rhenium(VII ) oxide 1 , which has meanwhile become readily accessible, is a favorable candidate.^[2]