Li+掺杂纳米TiO2的制备及其光催化性能研究

采用溶胶-凝胶法和浸渍法制备了Li⁺掺杂纳米TiO₂光催化剂,并用XRD和TEM等技术进行了表征;用pH值漂移法测量了催化剂的零电位pH值(pHpzc).结果表明,500℃煅烧制得的催化剂均为锐钛矿相;Li⁺的掺杂抑制了TiO₂粒子的生长,提高了催化剂的分散性;催化剂的零电位pH值为6.6—8.1,其值取决于Li⁺的浓度和掺杂方式.分别以紫外光和太阳光为光源,孔雀石绿和甲基橙为降解物评价了催化剂的光催化活性;并用气相色谱测试了污染物降解产生的CO₂的含量.结果显示,对孔雀石绿的降解,浸渍法和溶胶-凝胶法掺Li⁺都能有效提高TiO₂的光催化活性,但浸渍法比溶胶-凝胶法效果更好,催化活性最高的为浸渍法制备的5%(摩尔分数)Li⁺掺杂TiO₂,其在紫外光和太阳光下的光催化活性分别比纯TiO₂提高了6—8倍和9—10倍;对甲基橙的降解,除溶胶-凝胶法制备的3%(摩尔分数)Li⁺掺杂TiO₂能稍提高光催化活性外,其它Li⁺的掺杂都不同程度降低了TiO₂的光催化活性;随污染物降解率的增加,最终降解产物CO₂的含量增加.实验结果表明,Li⁺掺杂改变了催化剂表面的电荷状态从而改变了催化剂的零电位pH值是造成催化剂降解不同污染物具有不同催化活性的主要原因.     

Concerted Catalysis by Adjacent Palladium and Gold in Alloy Nanoparticles for the Versatile and Practical [2+2+2] Cycloaddition of Alkynes

A Pd‐Au alloy efficiently catalyzed the [2+2+2] cycloaddition of substituted alkynes. Whereas monometallic Pd and Au catalysts were totally ineffective, Pd‐Au alloy nanoparticle catalysts with a low Pd/Au molar ratio showed high activity to give the corresponding polysubstituted arenes in high yields. A variety of substituted alkynes participated in various modes of cycloaddition under Pd‐Au alloy catalysis. The Pd‐Au alloy catalysts exhibited high air tolerance and reusability.     

Biocatalytic Strategies towards [4+2] Cycloadditions

Long sought after [4+2] cyclases have sprouted up in numerous biosynthetic pathways in recent years, raising hopes for biocatalytic solutions to cycloaddition catalysis, an important problem in chemical synthesis. In a few cases, detailed pictures of the inner workings of these catalysts have emerged, but intense efforts to gain deeper understanding are underway by means of crystallography and computational modelling. This Minireview aims to shed light on the catalytic strategies that this highly diverse family of enzymes employs to accelerate and direct the course of [4+2] cycloadditions with reference to small-molecule catalysts and designer enzymes. These catalytic strategies include oxidative or reductive triggers and lid-like movements of enzyme domains. A precise understanding of natural cycloaddition catalysts will be instrumental for customizing them for various synthetic applications.     

Alkenes in [2+2+2] Cycloadditions

Participation of alkenes and allenes in [2+2+2] cycloaddition reactions has attracted much attention recently. This version of the well‐established alkyne cyclotrimerization renders interesting products, such as cyclohexadienes and other polycycles, through cascade processes. Many mechanistic variations are observed when using certain metal complexes as catalysts. The frequent generation of stereogenic centers has prompted the development of efficient asymmetric versions. This Minireview summarizes the efforts reported to date on the use of double bonds as partners in [2+2+2] cyclotrimerizations.     

沸石和活性炭为载体的Fe3+和Cu2+型催化剂催化氧化苯酚的比较

以沸石和活性炭为载体，制备了Fe3 和Cu2 型沸石和活性炭催化荆，研究了非均相Fe和Cu催化剂催化氧化高浓度含酚废水．在Fenton反应机理的基础上，探讨了Cu2 的均相和非均相催化氧化机理，以人造沸石和活性炭为栽体制备了相应的4种非均相催化剂，进行了均相、非均相Fe和Cu催化剂催化氧化高浓度含酚废水的对比试验，分析了这两种载体的比表面积、孔径分布和中孔孔容，比较了4种非均相催化剂对苯酚降解率的影响．结果发现Cu2 不仅能大大提高反应速率，而且其均相、非均相反应体系的苯酚降解率均可达到约97％．     

Transformation of n-hexane on Al2O3and SiO2supported Pt, Pt+Ga and Ir+Pt+Ga catalysts prepared by anchoring methods

Summary Transformation of n-hexane over Al₂O₃and SiO₂supported Pt, Pt+Ga and Ir+Pt+Ga catalysts was studied in a continuous-flow reactor operated under slug-pulse mode at 520°C. Bimetallic catalysts were prepared by introducing first Ga(OEt)₃and then diallylplatinum as precursor compounds. Iridium was then introduced viadecomposition of Ir₄(CO)₁₂adsorbed onto Pt+Ga catalysts. The addition of Ga to Pt/SiO₂catalyst decreased hydrogenation, aromatization and hydrogenolysis selectivity. Over Pt/Al₂O₃catalyst Ga increased hydrogenolysis selectivity and decreased isomerization and C₅-cyclization. The main effect of Ir was to increase hydrogenolysis selectivity and the stability of catalysts.</o:p>     

Half-Sandwich Metal-Catalyzed Alkyne [2+2+2] Cycloadditions and the Slippage Span Model

Half-sandwich Rh^I compounds display good catalytic activity toward alkyne [2+2+2] cycloadditions. A peculiar structural feature of these catalysts is the coordination of the metal to an aromatic moiety, typically a cyclopentadienyl anion, and, in particular, the possibility to change the bonding mode easily by the metal slipping over this aromatic moiety. Upon modifying the ancillary ligands, or proceeding along the catalytic cycle, hapticity changes can be observed; it varies from η⁵, if the five metal–carbon distances are identical, through η³+η², in the presence of allylic distortion, and η³, in the case of allylic coordination, to η¹, if a σ metal–carbon bond forms. In this study, we present the slippage span model, derived with the aim of establishing a relationship between slippage variation during the catalytic cycle, quantified in a novel and rigorous way, and the performance of catalysts in terms of turnover frequency, computed with the energy span model. By collecting and comparing new data and data from the literature, we find that the highest performance is associated with the smallest slippage variation along the cycle.     

Intracellular Ruthenium-Promoted (2+2+2) Cycloadditions

Metal-mediated intracellular reactions are becoming invaluable tools in chemical and cell biology, and hold promise for strongly impacting the field of biomedicine. Most of the reactions reported so far involve either uncaging or redox processes. Demonstrated here for the first time is the viability of performing multicomponent alkyne cycloaromatizations inside live mammalian cells using ruthenium catalysts. Both fully intramolecular and intermolecular cycloadditions of diynes with alkynes are feasible, the latter providing an intracellular synthesis of appealing anthraquinones. The power of the approach is further demonstrated by generating anthraquinone AIEgens (AIE=aggregation induced emission) that otherwise do not go inside cells, and by modifying the intracellular distribution of the products by simply varying the type of ruthenium complex.     

Scandium(III) zeolites as new heterogeneous catalysts: [4+2]cyclocondensation of in situ generated aryl imines with alkenes

Scandium(III)-exchanged zeolite was used as heterogeneous ligand-free catalysts for the [4+2]cyclocondensation of amines and aldehydes with alkenes through the in situ formation of imines. Such catalysts offered a versatile, efficient, and highly regio- and stereoselective synthesis of tetrahydroquinoline derivatives. These catalysts exhibited a wide scope and compatibility with functional groups. They are very simple to use, easy to remove (by simple filtration), and they are recyclable (up to three times without loss of activity).     

Screening of MgO——and Ce02-Based Catalysts for Carbon Dioxide Oxidative Coupling of Methane to C2＋ Hydrocarbons

The catalyst screening tests for carbon dioxide oxidative coupling of methane (CO2-OCM)have been investigated over ternary and binary metal oxide catalysts.The catalysts are prepared by doping MgO-and CeO2-based solids with oxides from alkali(Li2O),alkaline earth (CaO),and transition metal groups (WO3 or MnO).The presence of the peroxide (O2^2-)active sites on the Li2O2,revealed by Raman spectroscopy,may be the key factor in the enhanced performance of some of the Li2O/MgO catalysts.The high reducibility of the CeO2 catalyst,an important factor in the CO2-OCM catalyst activity,may be enhanced by the presence of manganese oxide species. The manganese oxide species increases oxygen mobitity and oxygen vacancies in the CeO2 catalyst.raman and Fourier Transform Infra Red (FT-IR)spectroscopies revealed the presence of lattice vibrations of metal-oxygen bondings and active sites in which the peaks carresponding to the buld crystalline structures of Li2O,CaO,WO2 and MnO are detected.The performance of 5%MnO/15?O/CeO2 catalyst is the most potential among the CeO2-based catalysts,although lower than the 2%Li2O/MgO catalyst.The 2%Li2O/MgO catalyst showed the most promising C2 hydrocarbons selectivity and yield at 98.0%and 5.7%,respectively.     

铈锆比对低贵金属Pt＋Rh/Ce0.3＋xZr0.6－xY0.1O1.95＋Al2O3三效催化剂性能的影响

用共沉淀法制得一系列铈锆比不同的Ce_0.3＋xZr_0.6－xY_0.1O_1.95储氧材料, 并用于制备了一系列低贵金属Pt＋Rh/Ce_0.3＋xZr_0.6－xY_0.1O_1.95＋Al₂O₃三效催化剂. 用比表面、程序升温还原以及X射线衍射对该系列催化剂进行表征, 结果发现, 催化剂的活性与催化剂中贵金属的还原性能密切相关, 低铈储氧材料比高铈储氧材料更有利于促进贵金属还原, 因而含低铈储氧材料催化剂的活性明显优于含高铈储氧材料催化剂的活性, Pt＋Rh/Ce_0.35Zr_0.55Y_0.1O_1.95＋Al₂O₃的活性最佳, 对HC, CO和NO的起燃温度最低分别为: 235, 175, 200 ℃. 样品经1000 ℃水热老化之后, 贵金属Pt被烧结而发生迁移, 使得催化剂的活性及还原性能变差, 含低铈材料的催化剂的抗老化性能优于含高铈材料的催化剂, 其中Pt＋Rh/Ce_0.35Zr_0.55Y_0.1O_1.95＋Al₂O₃的抗老化性能最好.     

Catalytic enantioselective intermolecular [2 + 2 + 2] cycloaddition of an alkene and two alkynes

A catalytic enantioselective intermolecular [2 + 2 + 2] cycloaddition of one molecule of alkene (enone) and two molecules of alkyne was developed in the presence of a nickel complex modified by chiral monodentate oxazoline ligands, which have not previously been used as chiral ligands for transition metals in asymmetric catalysts, and an aluminium phenoxide.     

Screening of MgO- and CeO_2-Based Catalysts for Carbon Dioxide Oxidative Coupling of Methane to C_(2+) Hydrocarbons

The catalyst screening tests for carbon dioxide oxidative coupling of methane (CO2-OCM) have been investigated over ternary and binary metal oxide catalysts. The catalysts are prepared by doping MgO- and CeO2-based solids with oxides from alkali (Li2O), alkaline earth (CaO), and transition metal groups (WO3 or MnO). The presence of the peroxide (O2-2) active sites on the Li2O2, revealed by Raman spectroscopy, may be the key factor in the enhanced performance of some of the Li2O/MgO catalysts. The high reducibility of the CeO2 catalyst, an important factor in the CO2-OCM catalyst activity, may     

Synthesis of Mg<Superscript>2+</Superscript>-, Al<Superscript>3+</Superscript>-, and Ga<Superscript>3+</Superscript>-containing layered hydroxides and supported platinum catalysts based thereon

The effect of the cationic composition of MgAl(Ga) layered double hydroxides on the structure, texture, and acid–base properties of related oxide supports for platinum catalysts has been investigated. As gallium is progressively substituted for aluminum in the mixed oxide, the properties of the support change only slightly, while the activity of the Ga–Pt catalysts in propane conversion increases, the propylene selectivity remains high (99%), and C–C bond hydrogenolysis is hampered.     

Intracellular Ruthenium‐Promoted (2+2+2) Cycloadditions

Metal‐mediated intracellular reactions are becoming invaluable tools in chemical and cell biology, and hold promise for strongly impacting the field of biomedicine. Most of the reactions reported so far involve either uncaging or redox processes. Demonstrated here for the first time is the viability of performing multicomponent alkyne cycloaromatizations inside live mammalian cells using ruthenium catalysts. Both fully intramolecular and intermolecular cycloadditions of diynes with alkynes are feasible, the latter providing an intracellular synthesis of appealing anthraquinones. The power of the approach is further demonstrated by generating anthraquinone AIEgens (AIE=aggregation induced emission) that otherwise do not go inside cells, and by modifying the intracellular distribution of the products by simply varying the type of ruthenium complex.     

调控尖晶石Co3+和Ni3+表面密度来提高催化甲烷氧化活性

天然气资源丰富、价格低廉, 因而被广泛用作燃料. 天然气的主要成分是甲烷, 未燃烧完的甲烷所产生的温室效应是二氧化碳的 21 倍, 所带来的环境问题引起越来越多的研究者关注. 但甲烷是最稳定的非极性有机小分子, C–H 键能高达434 kJ/mol, 大多数催化剂很难将其在很低的温度在完全转化. C–H 键的活化解离是催化甲烷燃烧最关键的一步, 而活化C–H 键方式主要有两大类: (1) 均裂活化机制, 一般用在贵金属催化剂上; (2) 异裂活化机制, 往往发生在过渡金属氧化物上. 比较而言, 贵金属催化剂, 尤其是 Pd, 往往具有更优异的低温催化活性, 但价格昂贵, 从而限制了其广泛使用. 因此, 开发更加高效的非贵金属催化剂用于废气中未转化的甲烷完全氧化是亟待解决的问题.含有 Co 和 Ni 的尖晶石氧化物具有良好的催化甲烷燃烧活性, 有望代替贵金属催化剂, 但要求在低于 400 °C 完全转化, 仍具有一定挑战. 另一方面, Ni3+和 Co3+哪个是活性中心, 还具有一定争议. 因此, 我们通过水热法和共沉淀法合成一系列表面暴露不同数目的 Ni3+和 Co3+来探究表面高氧化态 Co 和 Ni 跟活性之间的关系. XRD 和 TEM 结果表明, 相比于水热法合成的 Co3O4, 水热法合成的 NiCo2O4发生明显的晶格收缩现象, 这是由于在尖晶石体相中大量小半径 Ni3+(0.053 nm) 取代了大半径 Co3+(0.055 nm) 所致. 同时还发现, 水热合成的尖晶石具有多孔纳米片层结构, 相比于共沉淀法合成的尖晶石具有更大的比表面积, 催化活性也更高. XPS 分析发现, 催化甲烷燃烧的活性随着表面 (Ni3++ Co3+) 含量增加而提高. 结合文献分析和本文的实验结果推测, 表面的 Ni3+和 Co3+都可作为解离 C–H 键的活性中心. 水热 60 小时合成的 NiCo2O4纳米片表面 Ni3++ Co3+的数量最多, 所以具有最优异的催化性能, 大约在 280 °C甲烷转化 50%. 当加入 10%(体积比) 的水, 在高空速工况下对催化活性影响不大, 主要是因为长时间水热合成的尖晶石表面缺陷少, 对水的吸附弱, 这可通过 O 1s 图谱得到印证. 总之, 这些研究结果能够给甲烷活化和开发更加高效和低成本催化剂一些启示.     

Colloidal FeIII,MnIII, CoIII,and CuII Hydroxides Stabilized by Starch as Catalysts of Water Oxidation Reaction with One Electron Oxidant Ru(bpy)33+

Colloidal catalysts for oxidation of water to dioxygen, which are stable on storage and under the reaction conditions, are synthesized based on Co^III, Mn^III, Fe^III and Cu^II hydroxides. Stabilization of the colloids with dextrated starch allows the process of hydroxide ageing to be stopped at the stage of the formation of primary nuclei (ca. 2–3 nm from transmission electron microscopy data). Molecular mechanics and dynamic light scattering studies indicate a core-shell type structure of the catalysts, where the hydroxide core is stabilized by the molecular starch network (ca. 5–7 nm). The colloidal catalysts are highly efficient in oxidizing water with one electron oxidant Ru(bpy)₃³⁺ at pH 7 to 10. The influence of pH, catalyst concentration, and buffer nature on the oxygen yield is studied. The maximal yields are 72, 53, and 78 % over Fe-, Mn- and Co-containing catalysts, respectively, and turnover numbers are 7.8; 54 and 360, respectively. The Cu-containing catalyst is poorly effective to the water oxidation (the maximal yield is 28 % O₂). The synthesized catalysts are of interest for stopped-flow kinetic studies of the mechanism of the water oxidation and as precursors for anchoring nanosized hydroxides onto various supports in order to develop biomimetic systems for artificial photosynthesis.     

Insight into the origins of the reactivity and selectivity for the aminocatalytic [2+2] cycloaddition reaction

A density functional study of the [2 + 2] cycloaddition between methyleneindolinones and enals catalyzed by prolinol derivatives is presented here. The calculations show that dienamines could be generated under acid-free conditions, and the hydroxyl of the catalysts plays a key role in the formation of dienamines. The following cycloaddition process between methyleneindolinones and the new formed dienamines includes two-step intramolecular electron transfers. The stereoselectivity is mainly attributed to the charge distributions on the reaction centers and the H-bonding interaction between the catalysts and methyleneindolinones. The excellent 3,4-regioselectivity is largely ascribed to the fact that the pre-product of 1,2-reactivity is tough to hydrolyze, but could return to the precursor. Besides, the large steric hindrance of catalysts is not conducive to the 3,4-reactivity, while the H-bonding between the catalysts and methyleneindolinones has less effect on the regioselectivity.     

2+2+2] cycloaddition reactions of macrocyclic systems catalyzed by transition metals. A review

Polyalkyne and enediyne azamacrocycles are prepared from arenesulfonamides and various alkyne and alkene derivatives either under basic or neutral conditions. The new family of macrocyclic substrates is tested in the [2+2+2] cycloaddition reaction. Several catalysts are used for the cycloisomerization reaction, and their enantioinduction is evaluated as appropriate. The effect of the structural features of the macrocycles, namely the ring size, substituents in precise positions and the number and type of unsaturations, on the [2+2+2] cycloaddition reaction has also been studied.     

Metal-controlled selective [3+2] cyclization reactions of alkenyl Fischer carbene complexes and allenes

Chromium alkenyl Fischer carbene complexes undergo selective [3+2] cyclization reactions to allenes in the presence of nickel(0) or rhodium(I) catalysts. Interestingly, the chemo- and regioselectivity of the process are entirely dependent on the nature of the metal.