有机硅试剂参与过渡金属催化的C-H官能团化反应形成C-C键的研究进展

作为一类重要的有机金属试剂,有机硅试剂在有机合成化学的C—C键形成中得到了广泛应用.综述了近年来有机硅试剂参与的过渡金属催化下C—H官能团化反应形成C—C键的研究进展,重点介绍了Pd催化下C—H官能团化的Hiyama偶联反应.     

La（Ⅲ）、Nd（Ⅲ）与甜菜碱类衍生物形成的包含（H2O）6分子簇的配合物的晶体结构

利用配体1,5-二(3-羧基吡啶基)-N-甲基二乙胺(L)合成2种稀土金属配合物{[La2L4(H2O)2](ClO4)6·6H2O}n(1)和[Nd2L4(DMF)6(H2O)2]2(ClO4)6·4H2O(2)。用红外光谱和X-射线单晶衍射表征配合物的晶体结构。结构分析表明:配合物1属于三斜晶系,P1空间群,其晶胞参数为a=1.496 6(3)nm,b=1.559 7(4)nm,c=1.956 8(4)nm,α=86.776(6)°,β=77.723(7)°,γ=87.168(7)°,Z=2。在配合物1中,一对La髥原子被2个羧基桥联,形成双核结构;双核结构进一步被羧基连接,从而形成平行于c轴的一维链。值得注意的是配合物1的晶体结构中包含着由氢键连接的6个H2O分子组成的水分子簇。配合物2属于三斜晶系,P1空间群,晶胞参数为a=1.040 8(4)nm,b=1.354 1(5)nm,c=2.975(1)nm,α=94.390(8)°,β=91.720(7)°,γ=95.230(4)°,Z=2。配合物2中4个羧基连接一对Nd髥原子,形成四轮状结构,其中2个羧基采取syn-syn双原子桥联模式,而其余2个羧基则采取单原子桥联模式。     

细胞色素b5突变体V45H NMR初步研究

通过分析在H2O和D2O中采集,DQF-COSY,TOCSY和NOESY等二维核磁共振波谱鉴定了细胞色素b5定点突变体V45H(残基Val^45突变为His^45)的大多数氨基酸残基的质子自旋系统,通过解析NOESY谱中的dNN(i,i+1),dαN(i,i+1),dαN(i,i+2),dαN(i,i+3),dαβ(i,i+3)和dβN(i,i+1)等NOE相关,完成了其序列特异性归属以及主链和侧链质子共振信号的全归属。突变体V45H的二级结构分析表明残基Val^45突变为His^45对分子的整体折叠影响不大。但是,与野生型细胞色素b5相比较,突变体V45H主链酰胺质子的化学位移指数提示突变使其血红素疏水腔的微环境受到扰动。以上实验结果为进一步测定V45H的溶液结构和分析残基Val^45在蛋白质中的作用提供了基础。     

TS-1分子筛催化双氧水氧化环己烷(英文)

系统地研究了ＴＳ－１分子筛催化双氧水氧化环己烷的反应。制备了三种ＴＳ－１分子筛,它们具有窄的粒径分布,在６０℃表现出高的活性和选择性。考察了溶剂、催化剂、反应温度、反应时间、ＴＳ－１中Ｔｉ含量及Ｈ２Ｏ７用量对氧化反应的影响。对具有完好晶型的ＴＳ－１分子筛役有必要进行预处理。最佳反应温度为８０～１１０℃,丙酮为最佳溶剂。环己酮的选择性与ＴＳ－１粒子大小有关,而Ｈ２Ｏ２选择性与ＴＳ－１用量无关。实验结果显示．溶剂在反应中间体的形成中起重要作用,Ｔｉ与丙酮配体的过氧配合物具有活化环己烷的活性。关键词 ＴＳ－１ 环己烷 催化氧化 Ｈ２Ｏ２     

在微波作用、无催化剂的条件下合成3-芳基亚甲基-1，3-二氢-2H-吲哚-2-酮类化合物

用DMF作溶剂，无催化剂、微波辐射的条件下，使吲哚-2-酮(1)和醛、酮(2)发 生缩合反应，合成了3-芳基亚甲基-1，3-二氢-2H-吲哚-2-酮类化合物，时间短、 收率高。     

Combined use of nuclear magnetic resonance and infrared spectroscopy for studying recognition processes between amphenicolic antibiotics and albumin

Biological reactions are mostly concerned with selective interactions between small ligands and macromolecular receptors. The same ligands may activate responses of different intensities and/or effects in the presence of different receptors. Many approaches based on spectroscopic and non‐spectroscopic methods have been used to study interactions between small ligands and macromolecular receptors, including methods based on NMR and IR spectroscopic analysis of the solution behaviour of the ligand in the presence of receptors. In this work, we investigated the interaction between ovine serum albumin with two amphenicolic antibiotics [chloramphenicol (CAP) and thiamphenicol (TAP)], using a combined approach based on NMR and IR methodologies, furnishing complementary information about the recognition process occurring within the two systems. The two ligands, despite their similar structures, showed different affinities towards albumin. NMR methodology is based on the comparison of selective ( ) and non‐selective ( ) spin–lattice relaxation rates of the ligands in the presence and absence of macromolecular receptors and and temperature dependence analysis. From these studies, the ligand–receptor binding strength was evaluated on the basis of the ‘affinity index.’ The derivation of the affinity index from chemical equilibrium kinetics for both the CAP–albumin and TAP–albumin systems allowed a comparison of the abilities of the two amphenicolic antibiotics to interact with the protein. IR methodology is based on the comparison of the ligand–protein ‘complex’ spectra with those of the non‐interacting systems. On the basis of the differences revealed, a more thorough IR analysis was performed in order to understand the structural changes which occurred on both ligand and protein molecules within the interacting system. Copyright © 2003 John Wiley & Sons, Ltd.     

Hydrothermal Synthesis of Two New Transition Metal Coordination Polymers with Mixed Ligands

Hydrothermal reactions of 1, 2, 4‐benzenetricarboxylic acid, 1, 10‐phenanthroline and transition metal cations including Zn^II or Co^II, in basified aqueous solution gave rise to two complexes, [Zn₃(btrc)₂(1, 10‐phen)₂(H₂O)₂]_n ( 1 ), and [Co₃(btrc)₂(1, 10‐phen)₂(H₂O)₂]_n ( 2 ) (btrc = 1, 2, 4‐benzenetricarboxylate, and 1, 10‐phen = 1, 10‐phenanthroline). 1 2 crystalize isotypically in the triclinic space group P1¯. The btrc ligand acts as multi‐dentate bridging ligand in both compound 1 and 2 to link up transition metal atoms into lamella networks, which are further attached into three‐dimensional frameworks through complex hydrogen bonding and π‐π interactions. The photoluminescence spectrum for compound 1 has also been studied. The corresponding reaction with Cu²⁺ follows another pathway.     

Rh/SiO2催化剂上甲烷部分氧化制合成气的核磁共振研究

 利用1H MAS NMR技术,在甲烷部分氧化(POM)制合成气反应条件下研究了Rh/SiO2催化剂上氢与金属的相互作用及反应机理. 结果发现,氢气在Rh/SiO2上解离吸附后可能有四种存在形式: 化学位移为δ=-100～-120的可逆(αM)和不可逆(αI)吸附氢物种,δ=0～-100的“氢云”或“氢雾”形式的氢物种和δ=3.0的溢流氢物种. 溢流氢物种是由可逆吸附的氢物种和“氢云”或“氢雾”状态的氢物种溢流到SiO2上并弱吸附在桥式氧(Si-O-Si)附近而形成的. 溢流氢物种活化晶格氧,形成一种POM反应的活性氧物种OH-. 活性氧物种OH-反溢流到Rh上,并与CH4解离吸附在Rh上的CHx物种反应生成含氧中间物种CHxO. CHxO物种的化学位移为5～7. O2参与CHxO物种的进一步氧化,或补充溢流氢夺取桥式氧后形成的缺陷位上的晶格氧,在高温(973 K)反应条件下,O2可能优先补充缺陷位上的晶格氧,使CHx的氧化按表面反应机理进行.     

H2CO和NO2反应机理的密度泛函理论计算研究

用密度泛函理论方法在UB3LYP/ 6-311++G(d,p)并包含零点能水平上计算得到了H2CO和NO2反应的势能面.在势能面上找到了由H2CO和NO2反应生成HCO和trans-HONO的两条反应通道.直接H迁移反应通道的势垒只有90.54 kJ*mol-1,是主要的反应通道,其TST速率是7.9 cm3*mol-1*s-1,与文献值相符;另一条通道是H2CO异构化为trans-HCOH,然后C位H迁移,最后生成的HOC分子异构化为HCO,这条通道反应势垒高达348.03 kJ*mol-1,是一条次要反应通道.     

纳米α-FeOOH催化剂一段法脱除COS和H2S性能的研究

利用均相沉淀法、氨水滴定法制备纳米α-FeOOH粒子，以该粒子为活性组分制备催化剂，利用微反－色谱联用活性评价技术，在常压、空速10 000 h－1、25 ℃～60 ℃温度范围内考察了纳米α-FeOOH催化剂对COS催化水解的活性。采用热重法对纳米α-FeOOH催化剂脱除H2S的性能进行了研究。结果表明：纳米α-FeOOH催化剂对COS水解在低温度、大空速下具有高的活性，系列Ⅰ和系列Ⅱ催化剂分别在60 ℃和40 ℃～45 ℃时COS转化率达到100%。在60 ℃时各种催化剂吸附H2S的能力最强，最高饱和硫容可达到21.72w%。催化剂表面能量分布不均匀，COS催化水解在低温时存在补偿效应。