聚醚氨酯红外N—H伸缩振动谱带分析

通过快速淬火实验,直接观察到聚醚氨酯中由硬段N—H基与软段—O—形成氢键的N—H伸缩振动谱带位于约3295cm~(-1),低于与硬段本身C=O形成氢键的N—H伸缩振动谱带(约3330cm~(-1))。这两种氢键键连的N—H伸缩振动谱带的位置从聚醚氨酯-四氢呋喃溶液的红外光谱得到证实。在此基础上讨论了三种聚醚氨酯试样的红外光谱中N—H伸缩振动谱带的差异。     

半胱氨酸阴离子与咪唑阳离子间相互作用的理论研究

采用密度泛函理论在B3LYP/6-311＋G(d,p)水平上对1-乙基-3-甲基咪唑阳离子和半胱氨酸阴离子形成的气态阴阳离子对([Emim][Cys])进行理论研究. 通过几何结构优化以及频率分析得到势能面上7个稳定的离子对构型. 计算结果表明[Emim]＋和[Cys]－之间存在较强的氢键相互作用, 其稳定化能主要来源于[Cys]－中羰基O的孤对电子lp(O) 和[Emim]＋中C—H反键轨道 s*(C—H) 之间的相互作用, lp(O)®s*(C—H). [Emim][Cys]_S1是最稳定的离子对构型, 考虑BSSE的相互作用能为－387.66 kJ/mol. 从NPA和NBO分析以及AIM (Atoms in Molecules)计算等方面阐述了半胱氨酸阴离子与咪唑阳离子之间氢键相互作用的本质, 并初步探讨了阴阳离子对相互作用对氨基酸离子液体性质的影响.     

红外光谱法研究氯化钙甲醇溶液的溶剂化性质

利用红外光谱研究了不同浓度氯化钙甲醇溶液中离子-溶剂和离子-离子的相互作用.溶剂分子谱带的变化说明了钙离子与甲醇分子发生了强烈的相互作用,这种作用主要是通过C-O中的氧原子实现,而溶剂甲醇分子的O-H谱带的偏移主要是离子(浓度)促使氢键发生改变.通过对光谱曲线的拟合,可定量计算阳离子溶剂化数,进一步揭示了溶剂化过程的微观性质.     

利用超额拉曼光谱研究硝酸镁水溶液中的离子对

利用超额拉曼光谱研究了室温下硝酸镁(Mg(NO₃)₂)溶液的离子缔合情况. 测量了该溶液羟基(－OH)伸 缩振动谱段和NO₃^-全对称伸缩振动谱段的拉曼光谱, 利用超额拉曼光谱及光谱拟合分析了这些光谱数据. － OH伸缩振动谱段的超额拉曼光谱显示, 低浓度(<2.3 mol·kg^-1)下阴离子第一水合层的水分子含量随溶液浓度 的升高呈线性关系增加, 在较高浓度时(>2.3 mol·kg^-1), 该含量变化偏离了线性关系, 这是因为Mg(NO₃)₂溶液 在高浓度时存在直接接触离子对导致的. 同样的转折点浓度也在对NO₃^- 全对称伸缩振动谱段的分析中被观测 到. 除了直接接触离子对, 还观测到三种溶剂分隔型离子对. 对该谱段下所有浓度的拉曼光谱和超额光谱进行 同时拟合, 给出了不同浓度下各种离子对的相对含量, 结果显示在0.23-4.86 mol·kg^-1浓度范围内都有溶剂分 隔型离子对和直接接触型离子对. 当Mg(NO₃)₂浓度低于2.3 mol·kg^-1时, 所有离子对的相对含量随浓度增加呈 现直线上升, 在高于这个浓度后直接接触离子对的相对含量急剧增加, 一种溶剂分隔型离子对的相对含量增加 变缓, 另一种溶剂分隔型离子对的相对含量逐渐减少, 还有一种溶剂分隔型离子对相对含量的增加趋势保持不 变, 在Mg(NO₃)₂浓度大于3.5 mol·kg^-1后, 其相对含量不再发生明显变化.     

高浓度LiClO4/丙酮溶液中离子-溶剂和离子-离子的相互作用

利用红外和拉曼光谱技术研究了不同浓度LiClO₄/丙酮溶液中离子-溶剂和离子-离子的相互作用. 红外和拉曼光谱的分析表明, Li^＋与丙酮分子发生了强烈的相互作用, 导致丙酮C—C伸缩振动谱带、C＝O伸缩振动谱带等发生了分裂. Li^＋的溶剂化数随溶液浓度的增加逐渐降低, 在所研究的LiClO₄浓度范围(0.31～3.98 mol•kg^－1)内由3.4减小到1.9. 此外, 根据的谱带变化确定了溶液中存在的多种离子对的形式, 计算了缔合平衡常数, 并与电导实验结果进行了比较, 解释了这两种方法测定的离子缔合常数存在差异的主要原因.     

红外光谱法研究磺化间规聚苯乙烯离聚物离子间相互作用

采用红外光谱法研究了不同金属阳离子及水合作用对磺化间规聚苯乙烯 (SsPS)离聚物阴、阳离子间相互作用的影响 .实验结果表明 :离间相互作用的强弱可通过红外光谱表现出来 ,SsPS离聚物中磺酸根阴离子 (SO-3 )的红外吸收谱带与金属阳离子的性质及离聚物所处的环境有关 .在干燥状态下 ,SsPS离聚物中磺酸根阴离子 (SO-3 )由于受到金属阳离子静电场作用的影响 ,S—O键被极化而使其对称伸缩振动和不对称伸缩振动吸收峰移向高波数 ,移动的幅度与金属阳离子的性质有关 .离聚物吸水后 ,由于水合作用的影响 ,金属阳离子的极化作用减弱 ,因而使S—O键相应的对称伸缩振动和不对称伸缩振动吸收谱带移向低波数 .对于未中和的磺化间规聚苯乙烯 (SsPS H)样品 ,水合作用会使磺酸基团部分离解 ,产生磺酸根阴离子 (SO-3 ) .在干燥状态下 ,磺酸基团仍以—SO3H形式存在 ,红外谱图上出现—SO3H基团的特征吸收     

密度泛函理论及光谱对CuCl2溶液中微团簇的研究

利用密度泛函理论和拉曼光谱对氯化铜溶液第一溶剂化层中的微团簇进行了研究。采用B3LYP方法对溶液中可能存在的团簇构型进行优化,从动力学和热力学方面分析得出溶液中团簇结构信息。理论拉曼光谱在100~500 cm~(-1)主要为Cu—O的伸缩振动峰,3400~4000 cm~(-1)范围内为O—H的对称和不对称伸缩振动。实验光谱在200~340 cm~(-1)出现明显新峰,位于2500~4000 cm-1的O—H伸缩振动峰随着溶液浓度的增加,峰的强度逐渐减小,峰形有明显变化。实验光谱和理论光谱验证和比对,表明溶液的实验光谱中产生的新峰为Cu—O振动,CuCl_2水溶液中产生短程离子相互作用及溶剂化现象,且随着溶液浓度的增加,溶剂化数目减小。     

高浓度LiClO4/丙酮溶液中离子-溶剂和离子-离子的相互作用

利用红外和拉曼光谱技术研究了不同浓度LiClO₄/丙酮溶液中离子-溶剂和离子-离子的相互作用. 红外和拉曼光谱的分析表明, Li^＋与丙酮分子发生了强烈的相互作用, 导致丙酮C—C伸缩振动谱带、C＝O伸缩振动谱带等发生了分裂. Li^＋的溶剂化数随溶液浓度的增加逐渐降低, 在所研究的LiClO₄浓度范围(0.31～3.98 mol•kg^－1)内由3.4减小到1.9. 此外, 根据的谱带变化确定了溶液中存在的多种离子对的形式, 计算了缔合平衡常数, 并与电导实验结果进行了比较, 解释了这两种方法测定的离子缔合常数存在差异的主要原因.     

多钒硼酸盐H3{[Cu（en）215[（VO）12O6B18O42]}[B（OH）3]2·16H2O的水热合成、晶体结构和性质

用H3BO3, NH4VO3, Cu(CH3COO)2·H2O和乙二胺在水热条件下合成了新颖结构的多钒硼酸盐H3{[Cu(en)2]5-[(VO)12O6B18O42]}[B(OH)3]2·16H2O,对其进行了单晶X射线衍射、红外光谱、拉曼光谱、紫外-可见漫反射光谱、荧光光谱、顺磁共振谱和热重分析表征.在该化合物的结构中,环状的B18O42通过18个B-(μ3-O)-V键被两个V6O18簇夹在中间,簇阴离子[(VO)12O6B18O42]13-分别通过4个[Cu(en)2]2+与邻近的簇阴离子靠静电相互作用连接成无限二维网状结构,其空洞尺寸为0.619～1.817 nm.     

1-乙基-3-甲基咪唑阳离子与天冬酰胺阴离子的相互作用

利用密度泛函理论B3LYP方法, 在6-311+G(d,p)水平上, 对1-乙基-3-甲基咪唑阳离子[Emim]+与天冬酰胺阴离子[Asn]-形成的氨基酸离子液体气态阴阳离子对([Emim][Asn])进行理论研究. 通过几何结构优化和频率分析得到势能面上的五个稳定构型. [Emim]+和[Asn]-之间能够形成较强的氢键相互作用, 零点能校正后的能量在-373.96至-326.28 kJ·mol-1之间. 其稳定化能主要来源于[Asn]-中羰基O的孤对电子lp(O)与[Emim]+中C—H反键轨道σ*(C—H)之间的相互作用: lp(O)→σ*(C—H). 红外光谱特征和自然布居分析(NPA)计算表明咪唑阳离子中参与形成氢键的C—H键振动的红移值、阴阳离子间的电荷转移与氢键相互作用能成正比关系. 分子中的原子(AIM)理论分析得到[Emim]+和[Asn]-之间的氢键相互作用以静电作用为主. 通过计算结果初步探讨影响氨基酸离子液体玻璃化温度Tg的结构因素.     

Early Stage Solvation of Protonated Methanol by Carbon Dioxide (cited: 1)

The solvation of protonated methanol by carbon dioxide has been studied via a cluster model. Quantum chemical calculations of the H⁺(CH₃OH)(CO₂)_n⁺(n=1-7) clusters indicate that the rst solvation shell of the OH groups is completed at n=3 or 4. Besides hydrogen-bond interaction, the C_CO2…O_CO2 intermolecular interaction is also responsible for the stabilization of the larger clusters. The transfer of the proton from methanol onto CO₂ with the formation of the OCOH⁺ moiety might be unfavorable in the early stage of solvation process. Simulated IR spectra reveal that vibrational frequencies of free O-H stretching, hydrogen-bonded O-H stretching, and O-C-O stretching of CO₂ unit a ord the sensitive probe for exploring the solvation of protonated methanol by carbon dioxide. IR spectra for the H⁺(CH₃OH)(CO₂)_n⁺(n=1-7) clusters could be readily measured by the infrared photodissociation technique and thus provide useful information for the understanding of solvation processes.     

Triple ion formation in solutions of alkaline sulfocyanides

Through the infrared and Raman spectra of alkaline sulfocyanides in high-and low-polarity media, nitromethane (CH₃NO₂) and tetrahydrofuran (THF), triple cations and triple anions may be characterized. The formation of these species at the expense of ion pairs or more aggregated species such as dimers is discussed taking into account cation solvation, anion solvation, and the influence of cation-anion interaction.     

Pd催化甲醇裂解制氢的反应机理

基于密度泛函理论(DFT), 研究了甲醇在Pd(111)面上首先发生O—H键断裂的反应历程(CH3OH(s)→CH3O(s)+H(s)→CH2O(s)+2H(s)→CHO(s)+3H(s)→CO(s)+4H(s)). 优化了裂解过程中各反应物、中间体、过渡态和产物的几何构型, 获得了反应路径上各物种的吸附能及各基元反应的活化能数据. 另外, 对甲醇发生C—O键断裂生成CH3(s)和OH(s)的分解过程也进行了模拟计算. 计算结果表明, O—H键的断裂(活化能为103.1 kJ·mol-1)比C—O键的断裂(活化能为249.3 kJ·mol-1)更容易; 甲醇在Pd(111)面上裂解的主要反应历程是: 甲醇首先发生O—H键的断裂, 生成甲氧基中间体(CH3O(s)), 然后甲氧基中间体再逐步脱氢生成CO(s)和H(s). 甲醇发生O—H键断裂的活化能为103.1 kJ·mol-1, 甲氧基上脱氢的活化能为106.7 kJ·mol-1, 两者均有可能是整个裂解反应的速控步骤.     

Vibrational analysis of chlorinated methylphosphonic acid and its anions

The vibrational spectra (IR and Raman) of CH₂ClPO₃H₂ and of its anions in solutions of H₂O and D₂O are reported. The IR spectra of the solid dibasic sodium and potassium salts, the solid normal and O-deuterated monobasic sodium and potassium salts and of the solid normal and O-deuterated acid are discussed. Symmetry and internal stretching force constants, stretch-stretch interactions and potential energy distributions are obtained from normal coordinate analysis of CH₂C1PO₃H₂, CH₂ClPO₃H^? and CH₂C1PO₃^2?, and the calculated and observed frequencies for O-deuterated acid and monobasic anion are compared.     

Competition between H<Subscript>2</Subscript>O and CH<Subscript>3</Subscript>OH molecules in the formation of the simplest stable proton disolvates and their solvation in aqueous methanol solutions of KOH and CH<Subscript>3</Subscript>OK

IR spectroscopic and quantum chemical methods are used to study the competition between water and methanol molecules in the formation of the simplest stable proton disolvates and their subsequent solvation in the case of solutions of KOH in CH₃OH and CH₃OK in H₂O with similar stoichiometries (~1:3-3.5). The complexes found in these solutions are analysed to determine their composition and structure: they are found to be heteroions (CH₃O?H?OH)^– solvated by two similar solvent molecules. In both cases, there are virtually no complexes of the second possible type (CH₃OH·(CH₃O?H?OCH₃)^–··H₂O or CH₃OH·(HO?H?OH)^–·H₂O), which appears to be due to the stoichiometric compositions of the solutions. It is shown that a DFT calculation (B3LYP/6-31++G(d,p)) of linear complexes with strong (~15-30 kcal/mol) H bonds reproduces, with good accuracy, the IR spectra of the solutions, which consist mainly of these complexes.     

包结法拆分1,1'-联-2-萘酚:包结物的晶体结构及CD光谱

以D/L-缬氨醇为原料,通过二步反应得到价廉易得的拆分剂碘化(R)/(S)-N,N,N-三甲基-1-羟基-3-甲基-2-丁铵,采用包结拆分法,成功实现了对1,1′-联-2-萘酚(BINOL)的拆分.对具有(R)-构型的季铵盐与(R)-BINOL在甲醇中所形成包结物的晶体结构分析结果表明:I-离子桥联主体(拆分剂)的醇羟基和客体(BINOL)的酚羟基形成O-H…I-氢键,以及相邻层的主客体分子之间的C-H…O氢键相互作用是在包结物中实现手性识别的关键.同时对两个包结物的溶液和固体圆二色(CD)光谱进行了研究.     

Spectroscopic Observation of the Hydroxy Position in Butanol Hydrates and Its Effect on Hydrate Stability

In this study, we investigate the crystal structures and phase equilibria of butanols+CH₄+H₂O systems to reveal the hydroxy group positioning and its effects on hydrate stability. Four clathrate hydrates formed by structural butanol isomers are identified with powder X‐ray diffraction (PXRD). In addition, Raman spectroscopy is used to analyze the guest distributions and inclusion behaviors of large alcohol molecules in these hydrate systems. The existence of a free OH indicates that guest molecules can be captured in the large cages of structure II hydrates without any hydrogen‐bonding interactions between the hydroxy group of the guests and the water‐host framework. However, Raman spectra of the binary (1‐butanol+CH₄) hydrate do not show the free OH signal, indicating that there could be possible hydrogen‐bonding interactions between the guests and hosts. We also measure the four‐phase equilibrium conditions of the butanols+CH₄+H₂O systems.     

Characteristics of the OH(OD) bands of methanol and ethanol in lithium salt—alcohol mixtures: saturated solutions and crystals

Raman spectra of alcohol (methanol, ethanol)—lithium salt (LiCl, LiBr, LiClO₄) mixtures were examined. Results on OH stretching bands are presented for saturated solutions at room temperature and for crystals obtained by cooling these solutions. In this second case well defined compounds, of the hydrate type, give rise to very narrow bands, showing that the hydrogen atom positions are ordered. For the CH₃OH—LiBr system, isotopic OH/OD dilutions lead to the conclusion of a coupling between four OH identical vibrators, probably surrounding one Br^? anion.     

X-ray structure and vibrational spectroscopy of a cobalt(II) complex prepared with excess of 4-hydroxybenzhydrazide

A new cobalt(II) complex was obtained from CH₃OH/H₂O solution containing CoSO₄ and 4-hydroxybenzhydrazide (4hbah) in 1?:?3 molar ratio. The crystals are composed of polymer chains [Co(4hbah)₂(μ-SO₄)] _n accompanied by lattice H₂O and CH₃OH forming the 3-D network. The CH₃OH molecules are highly disordered. For the assignment of IR and Raman spectra, the O,N-deuterated compound was prepared and DFT calculations were carried out.     

Different hydrogen-bonding patterns in two [Zn(ENTPP)] complexes with water or methanol as ligands

We have synthesized zinc complexes of H₂ENTPP (5-(8-ethoxycarbonyl-1-naphthyl)-10,15,20-triphenyl porphyrin) as a model to study hydrogen-bonding interactions. When water or methanol is a ligand, crystals of [Zn(ENTPP)(CH₃OH)] or [Zn(ENTPP)(H₂O)]?·?C₆H₅CH₃ were obtained. In both structures, the ligand has hydrogen-bonding interactions, but in different patterns. In [Zn(ENTPP)(CH₃OH)], the methanol oxygen and carboxylate oxygen in the naphthyl group form an intermolecular hydrogen bond. In [Zn(ENTPP)(H₂O)]?·?C₆H₅CH₃, there are two independent molecules A and B. In molecule B, there is an intramolecular hydrogen bond between the water oxygen and the carboxylate oxygen, while in molecule A, besides the intramolecular hydrogen bond, there is an intermolecular hydrogen bond between the water oxygen and the carboxylate oxygen. ¹H NMR spectra suggest the binding of methanol or water to zinc are equilibrium processes in solution. Equilibrium constant has been determined by UV-Vis measurements, and it suggests the binding affinity of zinc to methanol has been moderately increased.