紫外光致活的Pt／TiO2对苄醇催化自氧化反应的研究

本文主要研究了紫外光照致活的掺铂n型半导体氧化物催化剂(Pt/TiO_2)对苄醇进行催化自氧化的反应,依据光电导、PZC、表面组成、反应活性等实验结果,提出了反应机理及其单光子作用模型。     

Pt/Al2O3和Pt-Cu/Al2O3催化CCl4氢化脱氯反应

制备了Al2O3负载Pt单金属催化剂和负载Pt-Cu双金属催化剂,比较了二者不同还原温度对其催化CCl4氢化脱氯反应性能的影响。 单金属Pt催化剂上主要生成CHCl3,而双金属Pt-Cu催化剂上产物随催化剂制备时的还原温度不同而异,当催化剂经400 ℃用H2还原后产物主要为CHCl3,而当催化剂经800 ℃用H2还原后产物主要为CCl2CCl2。 由于CCl4氢化反应是强放热反应,催化剂表面局部过热使得在反应中生成的C2等产物聚合结焦,覆盖了催化剂的活性中心,导致催化剂失活。 因此,通过加入甲醇作为稀释剂以带走部分反应热可提高催化剂的稳定性。 同时也降低了CHCl3的选择性,提高了CCl2CCl2的选择性。     

One-Step Approach for Constructing High-Density Single-Atom Catalysts toward Overall Water Splitting at Industrial Current Densities

The construction of highly active, durable, and cost-effective catalysts is urgently needed for green hydrogen production. Herein, catalysts consisting of high-density Pt (24 atoms nm⁻²) and Ir (32 atoms nm⁻²) single atoms anchored on Co(OH)₂ were constructed by a facile one-step approach. Remarkably, Pt₁/Co(OH)₂ and Ir₁/Co(OH)₂ only required 4 and 178 mV at 10 mA cm⁻² for hydrogen evolution reaction and oxygen evolution reaction, respectively. Moreover, the assembled Pt₁/Co(OH)₂//Ir₁/Co(OH)₂ system showed mass activity of 4.9 A mg_{noble metal}⁻¹ at 2.0 V in an alkaline water electrolyzer, which is 316.1 times higher than that of Pt/C//IrO₂. Mechanistic studies revealed that reconstructed Ir−O₆ single atoms and remodeled Pt triple-atom sites enhanced the occupancy of Ir−O bonding orbitals and improved the occupation of Pt−H antibonding orbital, respectively, contributing to the formation of the O−O bond and the desorption of hydrogen. This one-step approach was also generalized to fabricate other 20 single-atom catalysts.     

金属羰基络合物制备的Pt-Re/Al_2O_3催化剂的性能 Ⅰ.不同方法制备的Pt-Re/Al_2O_3催化剂上正庚烷的转化

考察了由[Pt_3(CO)_6]_5[NEt_4]_2与Re_2(CO)_(10)共浸或分浸制备的一系列催化剂在接近工业运转的压力下的正庚烷转化反应。以羰基金属原子簇化合物作为前身物制备的Pt-Re/Al_2O_3催化剂的活性、芳构化选择性和稳定性等明显地优于常规的以H_2PtCl_6与HReO_4溶液共浸制备的催化剂。常规Pt-Re/Al_2O_3催化剂的活性和稳定性比Pt/Al_2O_3好,但芳构化选择性降低,若引入Re_2(CO)_(10),则其催化活性、芳构化选择性和稳定性均显著提高。不同方法制备的Pt-Re/Al_2O_3催化剂的活性和稳定性的变化趋势为Pt_5Re_2>Pt_5 Re_2>Pt Re_2>PtRe,表明Pt,Re之间存在相互作用程度的差异。     

Interaction of Au(III) and Pt(IV) complex ions with Fe(II) ions as a scavenging and a reducing agent: a basic study on the recovery of Au and Pt by a chemical method

In order to develop a chemical technique for the recovery of gold (Au) and platinum (Pt) in the metallic state from spent catalysts, e.g., catalysts for environmental protection and automobile and petroleum catalysts, the coprecipitation behaviors of Au(III) and Pt(IV) complex ions with Fe(OH)(2) as a scavenging and reducing agent were investigated. The Au(III) complex ions were found to be stoichiometrically and rapidly reduced to metallic Au due to electron transfer in acidic aqueous solution prior to coprecipitation with Fe(OH)(2). Conversely, Pt(IV) complex ions were reduced only after coprecipitation with Fe(OH)(2) due to electron transfer through a Pt(IV)-O-Fe(II) bond on the solid Fe(OH)(2). Using this chemical technique, Au and Pt can be selectively and effectively recovered in the metallic state.     

溶剂热助乙二醇还原法制备Pt/C催化剂过程中酸碱配位机制及工艺参数优化

质子交换膜燃料电池(PEMFCs)能量转换率高,反应产物仅为H2O、不造成污染,是一种极具发展前景的能源转换装置.然而, PEMFCs的阴极氧还原反应(ORR)动力学缓慢、过电位高.由于Pt对ORR中间产物脱吸附能适中,因此, Pt/C成为电催化ORR的商业化催化剂,对其制备技术的研究成为该领域的研究热点.乙二醇(EG)还原法制备碳载Pt基催化剂是一种常见方法, EG作为还原剂的同时,还起到保护剂和分散剂的作用,使制备的催化剂具有均一性.EG在外界能量的活化下,分解生成H2O和CH3CHO, CH3CHO作为还原剂将H2Pt Cl6还原生成Pt单质颗粒,同时生成的CH3COO-由于静电排斥可以防止Pt粒子团聚.常见的外界能量的活化方法有脉冲微波法、回流法、溶剂热法等,其中溶剂热法采用高压釜作为反应容器,抗干扰能力强,工艺操作简单、反应快速、耗能较少、成本低廉,极易于实现工业化生产;值得注意的是,无论使用何种方法对Pt前驱体混合液给予活化能使其发生还原,其碱的含量都会对最终所得催化剂的电催化ORR活性有着显著的影响,因此,通过跟踪前驱体混合液中含Pt物种的变化路径,揭示催化剂制备过程中的碱调控机理,实现加入碱的定量化,对于大规模制备高效Pt/C催化剂具有重要的意义.因此,本文采用溶剂热助EG还原法合成Pt/C催化剂的技术,创新联用UV-vis和H+浓度探针技术,揭示了前驱体混合液中含Pt物种的配位过程,实现了加入碱的定量化.发现当m(Na OH):m(Pt)达到2:1时, Pt配位完成;进而通过优化反应温度、反应时间等参数,成功制备了高效Pt/C催化剂:当反应温度为140 oC,反应时间为2 h时,所得催化剂在酸性条件下,相对于商业化Pt/C具有更高的电催化ORR活性,其起始ORR还原电位达到0.95 V(商业化Pt/C为0.90 V),半波电位为0.82 V(商业化Pt/C为0.75 V),该工作对于工业化大批量生产高效Pt/C催化剂具有重要的意义.     

铂和铱催化剂在中性电解液中对nh3电氧化性能

比较了Pt和Ir催化剂在中性NaCIO4电解液中对NH3氧化的电催化活性和选择性.发现NH3和NH4OH在Pt和Ir催化剂上的电氧化性能相似,因而可用NH4OH代替NH3进行研究.NH4OH在Pt和Ir催化剂上氧化峰峰电流密度与NH4OH浓度呈很好的线性关系,因而Pt和Ir均能作为控制电位电解型NH3传感器的催化剂.当NH4OH浓度为0.013 mol/L时,NH3在Pt和Ir催化剂上的氧化峰分别位于0.4和0.8 v,NH4OH在Pt催化剂上的氧化峰峰电位负于在Ir催化剂上的,这是Pt催化剂的优点,但NH4OH在Ir催化剂上的氧化峰峰电流密度为Pt催化剂上的2.5倍以上,说明NH4OH在Ir催化剂上的检测灵敏度远高于在Pt催化剂上的.而且CO对NH3在Ir催化剂上的检测没有干扰,但在Pt催化剂上有明显干扰.因此,初步的研究结果表明,Ir催化剂较适用于定电位电解型的NH3电化学传感器的阳极催化剂.     

NO reduction by C3H6 over apatite-type A10(PO4)6(OH)2 (A?=?Ca and Sr)-supported Pt catalysts

A₁₀(PO₄)₆(OH)₂ (A = Ca and Sr)-supported Pt catalysts were prepared and their catalytic activity in NO reduction were investigated. The Sr₁₀(PO₄)₆(OH)₂-supported catalyst had high catalytic activity in the C₃H₆?CNO?CO₂ reaction; the activity was higher than that of the ??-Al₂O₃-supported catalyst at 300 °C. The basicity of the apatite supports would affect the chemical state of Pt on catalyst, resulting in promotion of NO reduction.     

Mixed-metal pt monolayer electrocatalysts for enhanced oxygen reduction kinetics

We have synthesized a new class of electrocatalysts for the O2 reduction reaction, consisting of a mixed monolayer of Pt and another late transition metal (Ir, Ru, Rh, Re, or Os) deposited on a Pd(111) single crystal or on carbon-supported Pd nanoparticles. Several of these mixed monolayer electrocatalysts exhibited very high activity and increased stability of Pt against oxidation, as well as a 20-fold increase in a Pt mass-specific activity, compared with state-of-the-art all-Pt electrocatalysts. Their superior activity and stability reflect a low OH coverage on Pt, caused by the lateral repulsion between the OH adsorbed on Pt and the OH or O adsorbed on neighboring, other than Pt, late transition metal atoms. The origin of this effect was identified through a combination of experimental and theoretical methods, employing electrochemical techniques, in situ X-ray absorption spectroscopy, and periodic, self-consistent density functional theory calculations. This new class of electrocatalysts promises to alleviate some major problems of existing fuel cell technology by simultaneously decreasing materials cost and enhancing performance. Our studies suggest a new way of synthesizing improved ORR catalysts through the modification and control of the surface reactivity of Pt-based mixed monolayers supported on transition metals other than Pt. In addition to improving the ORR catalysts, co-depositing oxophilic metals may be a promising possibility for improving a variety of other catalysts.     

电化学方法制备高分散Pt/CMK-3及其对甲醇电化学催化性能

采用直接电化学还原法在介孔碳(CMK-3)载体上直接电沉积高分散的铂纳米颗粒,制备CMK-3复合铂纳米颗粒电极(Pt/CMK-3)。 通过透射电子显微镜分析发现,铂纳米颗粒非常均匀的分布在CMK-3上,平均粒径约5 nm。 通过循环伏安测试,分析了催化剂不同负载铂含量时氯铂酸的利用率,在理论铂质量分数为20%时,这种方法制备的Pt/CMK-3所使用的氯铂酸的利用率最高,在1 mol/L CH3OH+0.5 mol/L H2SO4溶液中循环伏安测试电流密度达到382 A/g。 在相同实验条件下,Pt/CMK-3电极对甲醇电催化活性远高于Pt/XC-72(炭黑)电极和用常规电沉积方法制备的Pt/CMK-3电极。     

Reversible redox reaction and water configuration on a positively charged platinum surface: first principles molecular dynamics simulation

The water dissociation reaction and water molecule configuration on a positively charged platinum (111) surface were investigated by means of first principles molecular dynamics under periodic boundary conditions. Water molecules on the Pt surface were mostly in the O-down orientation but some H-down structures were also found. OH(-) ion, generated by removing H from H(2)O in the bulk region, moved to the Pt surface, on which a positive charge is induced, by a Grotthuss-like proton-relay mechanism and adsorbed on it as OH(Pt). Hydrogen atom exchange between OH(Pt) and a near-by water molecule frequently occurred on the Pt surface and had a low activation energy of the same order as room temperature energy. When a positive charge (7 μC cm(-2)) was added to the Pt surface, H(3)O(+) and OH(Pt) were generated from 2H(2)O on the Pt. This may be coupled with an electron transfer to the Pt electrode [2H(2)O → H(3)O(+) + OH(Pt) + e(-)]. The opposite reaction was also observed on the same charged surface during a simulation of duration about 10 ps; it is a reversible redox reaction. When further positive charge (14 μC cm(-2)) was added, the reaction shifted to the right hand side completely. Thus, this one-electron transfer reaction, which is a part of the oxygen electrode reaction in fuel cells and water electrolysis, was confirmed to be a low activation energy process.     

Hydroxyl‐Mediated Non‐oxidative Propane Dehydrogenation over VOx/γ‐Al2O3 Catalysts with Improved Stability

Supported vanadium oxides are one of the most promising alternative catalysts for propane dehydrogenation (PDH) and efforts have been made to improve its catalytic performance. However, unlike Pt‐based catalysts, the nature of the active site and surface structure of the supported vanadium catalysts under reductive reaction conditions still remain elusive. This paper describes the surface structure and the important role of surface‐bound hydroxyl groups on VO_x / γ‐Al₂O₃ catalysts under reaction conditions employing in situ DRIFTS experiments and DFT calculations. It is shown that hydroxyl groups on the VO_x /Al₂O₃ catalyst (V?OH) are produced under H₂ pre‐reduction, and the catalytic performance for PDH is closely connected to the concentration of V?OH species on the catalyst. The hydroxyl groups are found to improve the catalyst that leads to better stability by suppressing the coke deposition.     

Pt/Pr_6O_(11)催化巴豆醛选择性加氢性能研究

采用沉积一沉淀法制备了Pt/Pr_6O_(11)催化剂,应用于巴豆醛气相选择性加氢生成巴豆醇的反应.Pt/Pr_6O_(11)催化剂经700℃还原后,巴豆醇初始选择性可以达到75%以上.H_2-TPR和In situ FTIR结果表明,还原后的Pt/Pr_6O_(11)催化剂中存在低价态的Pr~(3+),在巴豆醛加氢过程中能够给Pt提供电子,增加活化C=0键的能力,从而提高生成巴豆醇的选择性.Raman光谱实验结果表明,反应过程中Pt/Pr_6O_(11)催化剂表面有积炭产生,而积炭是造成催化剂活性和选择性下降的主要原因.     

Electrochemical Catalytic Properties of Pt/FeSnO(OH)_5 towards Methanol Oxidation

The Pt/FeSnO(OH)_5 catalyst has been prepared by depositing Pt nanoparticles on the synthesized FeSnO(OH)_5 nanoboxes and demonstrates excellent performance towards methanol oxidation reaction(MOR) in direct methanol fuel cells(DMFCs).The Pt/FeSnO(OH)_5 catalyst exhibits a higher mass activity(1182.35 mA/mgPt) compared with Pt/C(594.57 mA/mgPt) catalysts.The X-ray powder diffraction,field emission scanning electron microscope,field emission transmission electron microscopy,X-ray photoelectron spectroscopy and electrochemical experiments have been employed to explore the relationships between the crystal structure and electrochemical properties.The increased activity and resistance of CO poisoning for Pt/FeSnO(OH)_5 catalyst can be attributed to the strong interaction between the transition metal in the hydroxide and Pt and the bifunctional effect.The higher relative concentration of Pt~0 in Pt/FeSnO(OH)_5 also contributes to the MOR activity.Moreover,the charge transfer resistance of Pt/FeSnO(OH)_5 is lower than that of Pt/C.Therefore,Pt/FeSnO(OH)_5 has great application prospect as a high-performance electrocatalyst in DMFCs.     

甲醇重整反应中Pt/γ-Al2O3催化剂纳米Pt粒径与催化性能关系研究

利用硝基甲烷还原法在室温条件下得到了纳米Pt粒径可控的担载Pt/γ-Al₂O₃催化剂, 并利用甲醇重整反应为反应探针考察了Pt粒径与催化反应性能之间的关系, 发现催化反应的性能与担载贵金属颗粒粒径之间存在明显的相关性. 通过透射电镜(TEM)、X射线衍射(XRD)、程序升温还原(TPR)等测试手段对催化剂进行表征, 发现钠米Pt的粒径大小不但影响甲醇重整反应的活性, 同时也影响反应的选择性, 即催化剂的催化性能与担载贵金属粒径之间存在明显的尺度效应.     

封装型Pt/SOD分子筛的合成及表征

基于封装型贵金属分子筛的合成,充分利用其择形性和氢溢流特性构建新型加氢催化剂,选定Pt作为活性组分,方钠石作为载体,通过水热合成法直接将金属前驱体Pt(NH_3)_4Cl_2引进SOD合成母液中进行晶化,合成了不同封装量的Pt/SOD分子筛。采用苯加氢反应测试样品的催化活性,并运用XRD、SEM、TEM和H_2-TPD对样品进行表征。结果表明,合成的不同封装量的Pt/SOD样品均具有良好的催化活性,与溢流氢受体HZSM-5间均具有良好的氢溢流效应。其中,当金属前驱体Pt(NH_3)_4Cl_2的用量为(Pt(NH_3)_4Cl_2)∶(Si-Algel)比为0.030 g/g时,所合成的Pt/SOD样品最佳,催化苯加氢反应的苯转化率可达54.38%。     

Isolation of a new mixed valence Pt molecular oxide using phosphine as protecting group

A novel tetranuclear mixed valence cationic Pt molecular oxide [((Me3P)2Pt)3Pt(OH)6]4+ is obtained by reacting H2Pt(OH)6 and (Me3P)2Pt2+, whose NMR spectra suggest the existence of another species in solution that may serve as a starting point for further synthesis of Pt molecular oxides.     

高比表面积铝土矿载体的制备及在CO氧化反应中的应用

采用水热法,对天然铝土矿进行改性,获得高比表面积的铝土矿载体(Bauxite)。用等体积浸渍法制备了不同Pt含量的Pt/bauxite和1.0%Pt/Al2O3催化剂,以CO氧化为探针反应,考察了催化剂性能。采用XRF、XRD、低温N2-物理吸附、H2-TPR以及CO-TPD等对载体和催化剂样品进行表征。结果表明:Pt/bauxite催化剂具有优异的CO氧化性能,特别是当反应温度为200℃时,催化剂1.0%Pt/bauxite的CO转化率为93.4%,而1.0%Pt/Al2O3CO转化率仅为9.4%。其原因是铝土矿含有的Fe2O3是CO氧化反应的催化剂,且Fe2O3与负载的Pt之间发生了相互作用,降低了Pt和Fe2O3还原温度,提高了对CO的吸附能力且降低了CO的脱附温度,进而提高了催化剂的CO氧化反应性能。     

手性修饰的介孔树脂材料负载铂催化剂上丙酮酸乙酯的不对称氢化反应

采用氯铂酸和二氯四氨合铂为前体通过浸渍法分别制备了介孔树脂材料FDU-14负载的质量分数为5%的铂催化剂Pt/FDU-14, 并利用XRD, TEM, N₂气吸附和CO化学吸附等手段对催化剂进行了表征. 考察了经过手性分子辛可尼定修饰后的Pt/FDU-14催化剂在丙酮酸乙酯不对称氢化反应中的催化性能. 以氯铂酸为前体制备的Pt/FDU-14催化剂因其具有较小的铂粒子和较高的分散度而表现出较高的活性, 乙酸溶剂中的初始活性(TOF)可以达到21902 mol/(mol?h); 而以二氯四氨合铂为前体制备的Pt/FDU-14催化剂则具有较强的手性诱导能力, 乙酸溶剂中(R)-(+)-乳酸乙酯的光学选择性可以达到81.4% e.e.. 更重要的是, 由于FDU-14具有较强的疏水性, Pt/FDU-14催化剂在水溶剂中也表现出较高的催化性能, 并且还可以重复使用10次以上.     

Selective catalytic reduction of NO with CO on Pt/W–Ce–Zr catalysts

Various Pt catalysts (Pt/ZrO₂, Pt/CeO₂, Pt/CeZrO, Pt/WO₃/ZrO₂ and Pt/WO₃/CeZrO) were prepared and characterized, and their catalytic reduction reactions of NO by CO, with or without the presence of excess oxygen, were investigated. The results of temperature-programmed experiments showed that CO could be easily oxidized over Pt/CeO₂ and Pt/CeZrO while the introduction of WO₃ into the catalyst (Pt/WO₃/CeZrO) inhibited the reduction of catalyst surface; NO could not dissociate over those catalysts in oxidized state but after CO reduction at a low temperature, NO dissociation took place only over Pt/CeO₂ and Pt/CeZrO catalysts. For NO + CO reaction, those easily reduced catalysts Pt/CeO₂ and Pt/CeZrO exhibited better catalytic performances, and NO could be rapidly converted below 350 °C. For the reaction with the presence of excess O₂, the NO conversions were significantly inhibited, but better NO conversions were obtained over the tungstate-contained catalysts when compared with Pt/CeO₂ and Pt/CeZrO. The higher activities of Pt/W–Ce–Zr catalysts were attributed to their high acidities.