2-乙烯基萘/反丁烯二腈光照下共聚合

2-乙烯基萘与反丁烯二腈可以在365nm光照下共聚合,生成1:1交替共聚物。研究了聚合反应的引发机理,认为通过二者的基态电荷转移复合物受光激发和2-乙烯基萘的定域激发形成激发态复合物,其进一步反应生成1,4-双自由基,引发链增长。     

在液镓电极上反丁烯二腈的电氢化二聚

在液镓电极上,反丁烯二腈（ＦＤＮ）的电氢化二聚（ＥＨＤ）不仅能在含离子型表面活性剂如四乙基对甲苯磺酸铵（ＴＥＡ－ＰＴＳ）溶液中发生,同样也能在含低浓度的强表面活性剂如ＴｒｉｔｏｎＸ－１００溶液中进行,在不含有机表面活性剂的溶液中,ＦＤＮ在滴镓电极上产生一个２电子还原波,生成为丁二腈的饱和单体。在水溶液中加入一定浓度的ＴＥＡ－ＰＴＳ或低浓度的ＴｒｉｔｏｎＸ－１００时,原来的２电子还原波分裂成两个连续     

碘化钾在1,2-双(二溴甲基)苯及4位取代衍生物与反丁烯二腈反应中的作用

1,2-双(二溴甲基)苯及4位取代衍生物与反丁烯二腈在N,N-二甲基甲酰胺中反应12 h没有新的产物生成,在同样的条件下,加入碘化钾可使反应发生,主产物是2,3-二氰基萘及其6位取代衍生物,它的产率随加入的碘化钾的量不同而不同.当碘化钾的加入量相当于1,2-双(二溴甲基)苯及4位取代衍生物分子中溴的摩尔数,则1,2-双(二溴甲基)苯及其4位取代衍生物与反丁烯二腈基本作用完毕,反应产物主要是2,3-二氰基萘及其6位取代衍生物,产率87.1%.这个实验事实表明,碘化钾的作用机制不是传统意义上的催化剂而是一个反应试剂.据此,提出了上述反应的机理.     

萘甲腈和2,3-二甲基丁烯-2-光环加成反应:三氟醋酸的效应

在低转光解情况下,1-萘甲腈(1-NpCN)和2,3-二甲基丁烯-2(DMB)在环已烷或苯中的光环加成反应主要得到环丁烷3,但2-NpCN主要得到氨杂环丁烯6和少量的环丁烷5,三氟醋酸(TFA)量增加抑制1-NpCN和DMB的光环加成反应,表明TFA与基态及单激发态1-NpCN生成非光反应的复合物,它也淬灭^*(1-NpCN-DMB)激基复合物.在低浓度范围(0.1M以下)TFA加速2-NpCN和DMB光环加成反应,但在高浓度范围(大于0.1M)时又抑制反应.这些结果被解析如下:^*(2-NpCN-DMB)激基复合物和TFA反应增加5和6的得率,反之,是由于生成非光反应的基态复合物及淬灭单激发态2-NpCN.在非极性溶剂中二种单激发态萘甲腈生成TFA激基复合物的萤光与母体^*NpCN萤光区域几乎相同.     

双键型分子光开关的E/Z异构化

适当取代的双键X=Y双键型分子能够在光的作用下发生E型和Z型之间的异构化。目前已报道的分子光开关大多是基于偶氮苯(ABs)、二芳烃乙烯(DAEs)和螺吡喃(SPs)等结构,但新的有趣的结构正在不断被报道。本文将讨论围绕C=C、C=N和N=N双键异构化的各种类型的光开关,重点介绍常用的光开关双键结构和极性质子溶剂等外界因素对其E/Z异构化的影响。     

激发态1，2-二硫环丁烯去活性和异构化机理的理论研究

运用完全活性空间多组态CASSCF方法研究了激发态1,2-二硫环丁烯（1,2-Dithiete）势能面交叉机理．自旋．轨道耦合（SOC）常数采用完全Pauli-Breit旋轨耦合算符（包括单电子和双电子项）进行计算,其强度为198．37或211．35cm^-1,对不同自旋态跃迂起着重要作用．研究结果表明：光激发1,3-dithiol-2-one导致形成主要产物trans—dithioglyoxal（Trans-MinS0）和次级产物thiolthioketene．计算与实验观察结果一致．     

含BN旋转轴的光驱动分子马达的理论设计和机理研究

依据B=N键与C=C键的电子结构相似性,以Feringa型二苯乙烯型光驱动分子马达（CC-stilbene）为母体,设计了含极性旋转轴的模型马达BN-stilbene.CASPT2//CASSCF计算结果表明,优化所得的BN-stilbene分子的基态存在四个与CC-stilbene马达结构相似、相对能量一致的螺旋异构体;B=N极性共价双键对BN-stilbene的基态和激发态电子结构有显著影响.对BN-stilbene模型马达的工作机理研究表明,极性旋转轴的引入使得BN-stilbene中S₁/S₀-CI与激发态中间体构型更加相似且能量更低,同时可增加旋转的驱动力,起到改进分子马达光异构化过程的单向性的目的.     

光驱动的金属富勒烯分子磁开关※

由于碳笼的保护, 从外部操控内嵌富勒烯笼内分子的特性一直是一个挑战. 通过在顺磁性金属富勒烯Sc₃C₂@C₈₀碳笼外修饰具有光活性的偶氮苯-氮氧自由基, 成功设计出基于金属富勒烯-氮氧自由基的分子开关, 实现了原位可逆地光驱动远程控制金属富勒烯的顺磁特性. 在不同光照条件下, 利用偶氮苯的光异构化特性改变双自旋中心的相对位置, 调整自旋-自旋、自旋-晶格相互作用, 进而影响金属富勒烯的电子顺磁特性. 研究发现, 紫外光照下, 氮氧自由基使金属富勒烯Sc₃C₂@C₈₀的顺磁信号逐渐减弱, 可见光照下Sc₃C₂@C₈₀的顺磁信号又增强, 由此实现了氮氧自由基作为顺磁开关的功能.     

1-丁烯的二聚和三聚研究与开发

随着１－丁烯产量和对辛烯、十二烯等高碳数烯烃需求的增加，对１－丁烯的二聚和三聚的研究已越来越受到关注。本文对其催化体系以及工业生产概况作一综述性论述。     

二芳基乙烯类化合物用作光开关的最新研究

本文在综述二芳基乙烯类化合物各种性能的基础上,重点介绍了二芳基乙烯类化合物作为荧光光控开关、荧光共振能量转移、光致变色电开关、光致变色磁开关、光致变色液晶开关和多功能光致变色开关的最新发展动态,以及二芳基乙烯类化合物的形态对光开关性能的影响。最后对未来光存储材料的研究趋势作了展望。     

Excited-State Proton Transfer and Decay in Hydrogen-Bonded Oxazole System:MS-CASPT2//CASSCF Study

Herein we have employed high-level multi-reference CASSCF and MS-CASPT2 electronic structure methods to systematically study the photochemical mechanism of intramolecularly hydrogen-bonded 2-(2'-hydroxyphenyl)-4-methyloxazole. At the CASSCF level, we have optimized minima, conical intersections, minimum-energy reaction paths relevant to the excited-state intramolecular proton transfer (ESIPT), rotation, photoisomerization, and the excited-state deactivation pathways. The energies of all structures and paths are refined by the MS-CASPT2 method. On the basis of the present results, we found that the ESIPT process in a conformer with the OH…N hydrogen bond is essentially barrierless process; whereas, the ESIPT process is inhibited in the other conformer with the OH…O hydrogen bond. The central single-bond rotation of the S₁ enol species is energetically unfavorable due to a large barrier. In addition, the excited-state deactivation of the S₁ keto species, as a result of the ultrafast ESIPT, is very efficient because of the existence of two easily-approached keto S₁/S₀ conical intersections. In stark contrast to the S₁ keto species, the decay of the S₁ enol species is almostly blocked. The present theoretical study contributes valuable knowledge to the understanding of photochemistry of similar intramolecularly hydrogen-bonded molecular and biological systems.     

基于偶氮苯衍生物的三阶非线性光开关性能的调控

偶氮苯衍生物因其具有特殊的共轭体系常用作光开关特性的三阶非线性光学（NLO）开关材料,但有部分带有特殊基团的偶氮类分子在一般条件下无法显示其性能.然而,这类分子在被调节之后能展示出优异的光控的NLO开关性能.以无光控的NLO开关性能的5-（N-4-偶氮苯基）氨甲基间苯二甲酸为研究对象,并对其潜在的光控NLO开关性能进行调控.经过调节后的这类分子在光照条件下能顺利地经历可逆的顺反异构化反应,且产生三阶非线性性能的转换.其Z-扫描实验结果显示处于反式构型的材料展示出反饱和吸收和自散焦特性;在光照之后,这类材料转化为顺式构型并展现出饱和吸收和自聚焦行为.三阶NLO性能的转换是由于材料的结构发生转变其内部电子产生重排,使得它们在激光刺激下产生不同的响应机制.     

Exploring the Mechanism of a Chiral N-Alkyl Imine-Based Light-Driven Molecular Rotary Motor at MS-CASPT2//CASSCF and MS-CASPT2//(TD) DFT Levels

The working mechanism including the photoisomerization and thermal isomerization steps of a chiral N-alkyl imine-based motor synthesized by Lehn et al. are revealed by MS-CASPT2//CASSCF and MS-CASPT2//(TD-)DFT methods. For the photoisomerization process of the imine-based motor, it involves both the bright (π,π*) state and the dark (n,π*) state. In addition, the MECI has similar geometry and energy to the minimum of the S₁ state, which shows that the process is barrierless and keeps the unidirectionality of rotation well; the result confirms the imine-based motor is a good candidate for a light-driven molecular rotary motor. For the thermal isomerization process of the imine-based motor, there are two even isomerization paths: one with the mechanism of the in-plane N inversion, the energy barriers of which are 29.6 kcal mol⁻¹ at MS3-CASPT2//CAM-B3LYP level and 29.2 kcal mol⁻¹ at MS3-CASPT2//CASSCF level; the other with the mechanism of ring inversion of the cycloheptatriene moiety, with energy barriers of 28.1 kcal mol⁻¹ at MS3-CASPT2//CAM-B3LYP level and 18.1 kcal mol⁻¹ at MS3-CASPT2//CASSCF level. According to the structural feature of the stator moiety, the imine molecule can be used as a two-step or a four-step light-driven rotary motor.     

酸碱控制的卟啉-苝酰亚胺分子阵列荧光开关

研究了氯仿溶液中分子阵列N,N-二[对-5′-(间-10′,15′,20′-三苯基卟啉)基-苯基]-3,4:9,10-四羧基二酰亚胺(TrPP-PTCDI-TrPP)在不同浓度的三氟乙酸作用下荧光光谱的变化,质子化无金属卟啉的光致激发态成为各种激发态中相对稳定的物种,因此无论激发无金属卟啉基元(λ=439nm)还是酰亚胺基元(λ=491nm),分子阵列都表现出质子化无金属卟啉生色团的特征荧光发射,酸的引入使激发态下高效率的电荷转移衰变途径被关闭,辐射衰变途径被打开.在溶液中引入三乙胺去质子化使电荷转移衰变途径被打开而辐射衰变途径被关闭,因此分子阵列构成了一个通过酸碱控制的荧光开关.考虑到酸碱中和反应的方便性及分子阵列对不同波段光激发同时敏感的广谱性,该分子阵列开关具有特殊优势.     

An Allochroic Molecular Cage Switch for Sensing and Capturing Organic Pollutants

The adsorption method is considered to be one of the most promising organic pollutants emission reduction strategies. The design and synthesis of high-performance porous adsorbents are one of the most important but challenging works. In this work, we constructed a new class of porous molecular cage switches by a simple reaction using phenolphthalein as the raw material. The molecular cage switches displayed interesting on-off behavior towards organic guests, which is highly responding to organic pollutants with rapid color change and is also able to adsorb these organic pollutants through an open-to-close pathway. This molecular cage switch also has excellent regenerative cycling properties and water resistance, which is expected to be employed in the handling of organic pollutants in the future.     

Location effect of an OH group on the chemiluminescence efficiency of 4-hydroperoxy-2-(o-, m-, or p-hydroxyphenyl)-4,5-diphenyl-4H-isoimidazoles

In studying the location effect of an OH group on the chemiluminescence efficiency of 4-hydroperoxy-2-(o-, m-, or p-hydroxyphenyl)-4,5-diphenyl-4H-isoimidazoles 4, we found that the efficiency of 4a with o-OH was 0.28 times that of lophine peroxide on initiation with KOH/MeOH. When the trigger base was changed to TBAF/THF, efficiency was 530-fold in dry DMF. The efficiency of 4b with m-OH or 4c with p-OH showed no such dramatic change.     

Characterization of a Redox-responsive Molecular Switch Based on Dibenzo[1,2]dithiine Using DFT

Structural and electronic properties of a bistable redox-responsive molecular switch based on dibenzo[1,2]dithiine (PSBH) were studied using the DFT-B3LYP/6-31G* method. The results confirmed that the electrical conductivity of the closed form of considered molecular switch is higher than that of the open form. NBO electric charges on heavy atoms of biphenyl unit revealed that the positive charge on sulfur atoms reinforced, which caused the collapse of disulfide bond.     

NaSO2Ph 催化下1，2-联烯亚砜高产率，高选择性异构化为炔基亚砜

The clean isomerization of 1,2-allenyl sulfoxides in the presence of NaSO2Ph afforded 2-alkynylic phenyl sulfoxides in good yields and selectivities. Although strong base-catalyzed isomerization of allenes to alkynes is known, the mechanism for the current reaction is interesting for the obvious reason that NaSOEPh is a weak base.     

1,2‐Dithienyldicyanoethene‐Based,Visible‐Light‐Driven,Chiral Fluorescent Molecular Switch: Rewritable Multimodal Photonic Devices

Reported here is the first example of a 1,2‐dithienyldicyanoethene‐based visible‐light‐driven chiral fluorescent molecular switch that exhibits reversible trans to cis photoisomerization. The trans form in solution almost completely transforms into the cis form, accompanied by a 10‐fold decrease in its fluorescence intensity within 60 seconds when exposed to green light (520 nm). The reverse isomerization proceeds upon irradiation with blue light (405 nm). When doped into commercially available achiral liquid crystal hosts, this molecular switch efficiently induces luminescent helical superstructures, that is, a cholesteric phase. The intensity of the circularly polarized fluorescence as well as the selective reflection wavelength of the induced cholesteric phases can be reversibly tuned using visible light of two different wavelengths. Optically rewritable photonic devices using cholesteric films containing this molecular switch are described.     

Quenching of Li (2P) by H2: potential energy surfaces, conical intersection seam, and diabatic bases

The quenching of Li (1s ²2p; ²P) to Li (1s ²2s; ²S) by H₂ is considered using coupled-cluster and multireference configuration-interaction techniques. C _{2 v} (²A₁, ²B₂) and C _{∞ v} (²Π,²Σ⁺) sections of the 1²A^′ and 2²A^′ potential energy surfaces are determined. The C _{2 v} portion of the 1²A^′−2²A^′ seam of conical intersection is studied. Perhaps the most significant finding is a surprising trifurcation of this seam into a portion with only C _s symmetry and the aforementioned C _{2 v} portion. The adiabatic-to-diabatic state transformation is considered in the vicinity of the seam of conical intersection using both perturbation theory and the dipole moment operator. The ²B₂ section of the 2²A^′ potential energy surface exhibits an exciplex in the general vicinity of the seam of conical intersection. The ²Π section of the 2²A^′ potential energy surface possesses a global minimum lying 1.86kcal/mol below the Li (²P)+H₂ asymptote. A van der Waals-like minimum with C _{∞ v} symmetry was found on the 1²A^′ potential energy surface. Received: 14 August 1998 / Accepted: 20 August 1998 / Published online: 11 November 1998