水溶性苝醌衍生物(13-SO~2Na-DDHA)与胶体半导体(CdS)澡光 诱导电子传递过? 痰亩ρа芯?

根据非均相体系电子传递动力μ＜0(μ=E~s*/s+-E~CB)的原理,构建出相匹配的水溶性苝醌衍生物光敏剂(13-SO~2Na-DDHA)与胶体半导体(CdS)的复合体体系,? 獯忝鸱椒ǎ獬鏊侵浜捅砉劢岷铣Ｊ?K~app)为1480(mol/L)^-1。继而? τ孟孕?spincounteraction)的ESR技术,首次定量地研究了它们之间的光诱? 嫉绱莨痰亩ρВ范耸?3-SO~3Na-DDNA光敏化作用的CdS胶体半导体表? 婀饣乖ρХ匠毯退俾食Ｊ峁⑾郑诒咎逑抵蠺EMPO接受光电子的反应? 妒?,而不同于均相体系中的反应级数别虽在相同可见光照射条件下(13-SO~2Na-DDHA)复合体的光还原速率比单独CdS高约82倍,表明该水溶性光敏剂对CdS胶体半导体具有显著的敏化效果,在太阳能应用中可被用作CdS胶体半导体有效的敏化剂。     

水溶性苝醌衍生物(13-SO~2Na-DDHA)与胶体半导体(CdS)澡光 诱导电子传递过? 痰亩ρа芯?

根据非均相体系电子传递动力μ＜0(μ=E~s*/s+-E~CB)的原理,构建出相匹配的水溶性苝醌衍生物光敏剂(13-SO~2Na-DDHA)与胶体半导体(CdS)的复合体体系,? 獯忝鸱椒ǎ獬鏊侵浜捅砉劢岷铣Ｊ?K~app)为1480(mol/L)^-1。继而? τ孟孕?spincounteraction)的ESR技术,首次定量地研究了它们之间的光诱? 嫉绱莨痰亩ρВ范耸?3-SO~3Na-DDNA光敏化作用的CdS胶体半导体表? 婀饣乖ρХ匠毯退俾食Ｊ峁⑾郑诒咎逑抵蠺EMPO接受光电子的反应? 妒?,而不同于均相体系中的反应级数别虽在相同可见光照射条件下(13-SO~2Na-DDHA)复合体的光还原速率比单独CdS高约82倍,表明该水溶性光敏剂对CdS胶体半导体具有显著的敏化效果,在太阳能应用中可被用作CdS胶体半导体有效的敏化剂。     

CH4-nFn(n=1～3)与CH3氢抽提反应微观动力学的理论研究

采用量子化学的QCISD(T)/6-311 G(d,p)//BHandHLYP/6-311G(d,p)方法研究了氟代甲烷CH4-nFn(n=1~3)与CH3自由基氢抽提反应的微观动力学性质.并利用Polyrate程序分别计算了3个反应在200~3000K范围内的速率常数.计算结果表明,R1a,R2a和R3三个反应路径的反应能量分别为-12.7,-9.5和11.8kJ/mol,相应的能垒依次为67.0,62.2和67.5kJ/mol.在437K时,kCVT/SCT分别为6.72×10-19,8.01×10-18和8.82×10-20cm3/(molecule.s).计算结果还表明,在低温段反应的量子隧道效应显著,在计算温度范围内变分效应对反应速率常数的影响可以忽略.     

富勒烯(C60/C70)与N,N,N',N'一四-(对甲苯基)-4,4'-二胺-1,1'-二苯硒醚(TPDASe)间光诱导电子转移过程的激光光解研究

富勒烯(C60/Z70)与N,N,N',N'-四-(对甲苯基)-4,4'-二胺-1,1'-二苯硒醚(TPDASe)间在激光光诱导条件下,发生了分子间的电子转移过程.在可见-近红外区(600～1200mm),观测到了TPDASe阳离子自由基、富勒烯(C60/C70)激发三线态和阴离子自由基,在苯腈溶液中,观测瞬态谱测定了电子从TPDASe转移到富勒烯(C60/C70)激发三线态的量子转化产率(ΦT et)和电子转移常数(Ket).     

富勒烯(C_(60)/C_(70))与N,N,N′,N′-四-(对甲苯基)-4,4′-二胺1,1′-二苯硒醚(TPDASe)间光诱导电子转移过程的激光光解研究

富勒烯 (C60 /C70 )与N ,N ,N′ ,N′ 四 (对甲苯基 ) 4,4′ 二胺 1,1′ 二苯硒醚 (TPDASe)间在激光光诱导条件下 ,发生了分子间的电子转移过程 .在可见 -近红外区 ( 60 0～ 12 0 0nm) ,观测到了TPDASe阳离子自由基、富勒烯 (C60 /C70 )激发三线态和阴离子自由基 ,在苯腈溶液中 ,观测瞬态谱测定了电子从TPDASe转移到富勒烯 (C60 /C70 )激发三线态的量子转化产率(ΦTet)和电子转移常数 (Ket) .     

CdS量子点与金电极之间的光生电子交换

对光照下CdS量子点与金电极之间的光生电子交换过程进行了系统研究.首先,对基于电子隧穿的多个光生电子转移过程进行了理论分析,并进行了数学模型推导.其次,利用推导的数学模型在不同参数的条件下进行了仿真研究.最后,测量了CdS量子点修饰的金电极在不同偏置电压、不同光强和不同氧化物及还原物浓度的条件下产生的光电流,并将实验、理论及仿真结果三者相结合进行了分析讨论.实验结果与仿真结果都证明了理论模型的正确性.     

Photoinduced Electron Transfer between CdS and CdTe Nanoparticles in Colloidal Solutions

The photochemical behavior of solutions containing a mixture of CdS and CdTe nanoparticles under pulsed irradiation conditions was investigated. It was shown that electron transfer from the CdS particles to the CdTe nanoparticles occurs during the photoexcitation of such systems. The effectiveness of the process is increased with increase in the size of the CdTe nanoparticles. Such behavior is due to decrease in the potential of the CdTe conduction band with increase in the size of the nanoparticles as a result of the appearance of quantum-dimensional effects.     

Photoinduced Electron Transfer (PET) between C_(60) and Amines in Micelle Solution A Kinetic ESR Study

Fullerene chemistry has been one of the most exciting research subjects in the recent decade1,2. However, the predominant hydrophobic character and the spherical carbon allotrope of C60 hinder its solubility in an aqueous solution. In order to efficiently slow down charge recombination in the PET system containing C60, water was selected as optimal polar media to stabilize charge separation state. Accordingly, solubility of fullerene in water had to be achieved by incorporating it into th…     

Photoinduced Electron Transfer Reaction between Poly-guanylic Acid (5`) with Anthraquinone-2-sulfonate

TheinteractionofquinonephotonucleasewithDNAhasbeenwidelystUdied.Anthraquinonederivatives,inparticularthatofanhraquinone-2-sulfonatehasbeenusedascleavingagentforduPlexDNA1-5.Howevef,directobservationofexcitedionpairsofbiomoleculesespeciallytheStabilizedradicalcationofbiomoleculeishamPeredbytheoverwhelmingtransientabsorPtionofhydrogenbondedradicalanionofquinone.lnthiswork,theinteractionofpolylG]withtripletanthraquinone-2-sulfonateinCH,CN-H:O(97f3)viaelectrontransferreactionhasbeenachieved…     

富勒烯（C_(60)/C_(70)）与三苯基胺间的光诱导电子转移过程研究

用激光光解方法研究了富勒烯（C_(60)/C_(70)）与三苯基胺（TPA）间的光诱 导电子转移过程。在近红外区,观测到TPA阴离子自由基,富勒烯（C_(60)/C_(70) ）激发三线态和阴离子自由基。在苯腈溶液中,利用瞬态谱测定了电子从TPA转移 到富勒烯（C_(60)/C_(70)）激发三线态的量子转化产率（Φ_(et)）和电子转移常 数（k_(et)）。     

Photoinduced Electron Transfer in Pentaammineruthenium(II) Complexes of 1-(4-Cyanophenyl)imidazole

A new bridging ligand, 1-(4-cyanophenyl)imidazole (CPI) has been prepared, as well as its N-methylated derivative 1-methyl-3-(4-cyanophenyl)imidazolium iodide (CPI-Me(+)I(-)). The mononuclear and binuclear complexes [(NH(3))(5)Ru-CPI-Me](3+) and [(NH(3))(5)Ru-CPI-Ru(NH(3))(5)](4+) have been obtained. Free CPI is planar, according to theoretical calculations (MMX and MNDO), and its luminescence properties suggest the occurence of a twisted internal charge transfer (TICT) state. The comparison of the two ruthenium complexes reveals the spectral and electrochemical features of coordination by the cyanophenyl or by the imidazole groups. Controlled oxidation of the binuclear complex [(NH(3))(5)Ru-CPI-Ru(NH(3))(5)](4+) yields the mixed valence species [(NH(3))(5)Ru-CPI-Ru(NH(3))(5)](5+) in which the ruthenium coordinated to the cyanophenyl group is ruthenium(II) while the ruthenium linked to imidazole is ruthenium(III). An intervalence band is observed at 640 nm (epsilon = 188), from which the effective metal-metal coupling through the bridging ligand is determined as 0.032 eV. This value is satisfactorily reproduced by a theoretical calculation using the effective Hamiltonian theory. Finally the binuclear complex exhibits a weak luminescence when excited either on the ligand band near 260 nm or on the metal-to-ligand charge transfer band near 410 nm. The CPI ligand is the first example of a TICT-forming species with appreciable coupling between metallic sites and can be considered as a first step toward a molecular switch.     

芳醚树枝形聚合物体系的设计合成及电子转移和三重态能量传递研究

<正>树枝形聚合物是一类具有特殊结构的大分子,通过可控合成,具有光捕获功能的官能团可以精确地分布在树枝形聚合物的核心或外围,甚至可以在支化单元的任何位置,随着代数的增加,官能团数目从核心向外围呈指数增长,树枝形聚合物的这种特殊结构被用来模拟光合作用中的光捕获体系.电子转移和能量传递是光合作用的关键过程,也是光化学研究的重要内容,因此,研究树枝形聚合物体系内的电子转移和能量传递是人工模拟光合作用的一个突破口,是目前相关研究工作的热点之一.本文设计合成了一系列一代到四代的芳醚树枝形聚合物,共24个新化合物,通过稳态、瞬态以及光化学反应的方法研究了芳醚树枝形聚合物体系内电子转移和三重态能量传递过程,得到了一系列有意义的研究结果:     

N-(末端三丁基锡取代基)酰亚胺的光诱导单电子转移成环反应

合成了两种新的分子内给受电子体系N-[2-(2-三丁基锡甲硫基)乙基]邻苯二甲酰亚胺(1a)和N-(3-三丁基锡丙基)马来酰亚胺(1b),并在甲醇、乙腈-30%水、乙腈中进行了光诱导单电子转移反应.化合物1a在光诱导下发生分子内单电子转移反应,以很高的产率和区域选择性生成环胺醇2.化合物1b在光诱导下发生分子内单电子转移反应生成环胺醇3,同时有[2+2]环加成副反应产物4生成.以上所有新化合物的结构经质谱和核磁共振谱验证.     

N-(末端三甲基硅苄基甘氨酸肽链)邻苯二甲酰亚胺的光诱导单电子转移成环反应

以苄基甘氨酸为起始原料合成N-(末端三甲基硅苄基甘氨酸肽链)邻苯二甲酰亚胺(1).1在甲醇溶剂中光照发生单电子转移反应,生成分子内双自由基10,自由基偶合生成环聚甘氨酸肽化合物2.此反应产率好,区域选择性高.所有新化合物结构均经NMR和质谱验证.