负载Pd基碳二选择加氢催化剂上乙炔加氢反应的原位红外光谱研究

以乙烯和乙炔为探针分子, 采用原位红外光谱技术研究了Pd-Ag/Al₂O₃和Pd/Al₂O₃催化剂上乙炔加氢反应, 通过乙炔吸附, 乙炔和氢的共吸附和交替吸附表征了催化剂表面吸附物种的变化. 结果表明, 在Pd-Ag/Al₂O₃催化体系中, 乙炔在Pd-Ag/Al₂O₃和Pd/Al₂O₃催化剂有着不同的吸附性能, 另外, 加氢反应会导致在催化剂表面形成由长分子链的烷烃组成的碳氢化合物层, 该吸附层与绿油有着相似的红外光谱特征, 最关键的是乙炔和氢的吸附顺序和碳氢化合物层的生成量之间存在着一定的关系, 这将直接影响催化剂的加氢性能.     

CO分子在不同类型Al2O3表面的吸附构型和电子结构

采用基于赝势平面波基组的密度泛函理论方法对CO分子在α-Al₂O₃（0001）以及γ-Al₂O₃的（100）、（110C）、（110D）表面上的吸附构型和电子结构进行系统研究.计算结果表明,CO倾向于选取C端吸附在表层Al原子上,并主要通过其5σ轨道与表面发生作用,吸附后部分电子从CO转移到底物,导致各Al₂O₃表面功函均发生不同程度的下降,与气相相比,吸附后CO分子的C-O伸缩振动频率均发生蓝移.通过对比CO在各表面上的吸附情况,可以看出CO可作为检测Al₂O₂不同类型表面活性中心的有效探针分子.     

CO在Pt/A12O3和Ru/A12O3上的红外光谱及金属和载体的相互作用

本文通过对Pt/Al_2O_3和Ru/Al_2O_3上CO吸附态的红外光谱研究结果的对比分析,并根据金属—载体催化剂中金属中心的性质主要取决于同它紧邻的金属和载体中心的相互作用这个基本原理,对Pt/Al_2O_3和Ru/Al_2O_3上CO吸附态的红外光谱的主要实验结果(如金属平均晶粒大小对线式吸附态谱带位置的影响、孪生CO吸附态的出现和共吸附水对CO吸附态的作用等)进行了合理的关联和解释。     

ZnCr2O4表面CO加氢反应活性位点的探测(英文)

CO加氢转化为高附加值化学品是煤、天然气和生物质等清洁利用的核心过程之一.近年来,氧化物催化剂越来越多地被用于加氢反应,其中ZnCrO_x催化剂广泛应用于Cl分子催化加氢反应,并且是氧化物分子筛(OXZEO)合成气转化催化剂的主要活性组分之一.由于复合氧化物表面结构的复杂性,在CO加氢反应中,ZnCrO_x上的活性位点和活化过程尚存在争议.本文采用原位傅里叶变换红外光谱(FT-IR)和X射线光电子能谱(XPS)研究了不同条件预处理的ZnCr₂O₄尖晶石催化剂在CO/H₂中的原位吸附和反应过程.XPS结果表明,相较氧化的ZnCr₂O₄,使用H₂还原的ZnCr₂O₄中Cr⁶⁺的含量会下降,同时带来更多的表面氧空位或羟基物种.Cr⁶⁺的还原也能由FT-IR谱中位于1013 cm^-1铬酸盐的Cr=O振动峰的消失来证明...     

Pd/Al2O3催化剂制备的研究

乙酸、丙酸、正丁酸、百二酸、马来酸、柠檬酸和H₂PdCl₄在γ-Al₂O₃上的吸附符合Langmuir等温吸附规律。H₂PdCl₄在Al₂O₃上的平衡吸附量受溶液pH值的影响,在pH1.9-3.2范围内,pH值愈高,平衡吸附量愈大。多元有机酸对H₂PdCl₄在Al₂O₃上吸附的抑制作用比一元酸大,这一性质决定了由H₂PdCl₄溶液浸渍Al₂O₃时用多元酸(除马来酸外)作竞争吸附剂,可使Pd在Al₂O₃球上呈蛋白型和蛋黄型分布。     

Co-Mo/γ-Al2O3催化剂的原位红外光谱表征研究

采用CO和NO作为探针分子,应用原位红外光谱法(in-situ FT-IR)和程序升温还原(H₂-TPR)对Mo/γ-Al₂O₃和Co-Mo/γ-Al₂O₃加氢催化剂进行表征,并对催化剂进行了加氢脱硫(HDS)活性评价。实验结果表明,在Co-Mo/γ-Al₂O₃催化剂表面存在三个吸附位;在Mo/γ-Al₂O₃催化剂中加入助剂钴对钼吸附位起到显著的改性作用,并且引入新的活性中心,提高了催化剂的催化活性;随着钼含量的增加,活性中心数目逐渐增多;用CO-NO共吸附原位红外光谱研究了Co-Mo/γ-Al₂O₃催化剂表面活性中心的信息,证明不同的Mo中心分别吸附CO和NO,并将它们区分开来,解决了不同活性中心的光谱互相重叠的问题。     

过渡金属修饰Fe2O3/Al2O3氧载体的Redox性能研究

采用冷冻干燥法分别制备了经Cu、Co、Mn、Ni修饰的Fe₂O₃/Al₂O₃氧载体。利用化学吸附仪,通过程序升温还原(H₂-TPR)和程序升温氧化(TPO)来研究经不同过渡金属修饰的Fe₂O₃/Al₂O₃与H₂和O₂的反应性能。实验发现,在Fe₂O₃/Al₂O₃中加入Cu、Co、Ni以后,氧载体与H₂的反应性都有提高,但是当在Fe₂O₃/Al₂O₃中加入Mn以后,氧载体的反应性和载氧能力反而下降。经Cu修饰的Fe₂O₃/Al₂O₃与H₂的反应性最高,且具有很好的反应稳定性,适合用于化学链燃烧。     

La1-xCexFe1-y-nCoyRunO3三效催化剂的结构表征及催化性能

用溶胶-凝胶法合成了La_1-xCe_xFe_1-y-nCo_yRu_nO₃(x,y=0.1～0.5,n=0.01～0.1)系列催化剂,XRD对晶体结构的表征发现,掺入Ru后基本结构未改变,但2θ值减小,晶胞参数变大.红外光谱分析表明,Ru改性的催化剂对应的特征峰位和峰形基本相似,但随着Ru掺杂量的增加,600cm^-1附近的谱带向高波数方向移动,n=0.01的样品,ν₁和ν₂向低波数方向移动,n=0.05样品的ν₁带出现最大吸收峰.XPS研究表明,掺杂Ru后Fe的外层电荷密度增大,并以多种价态存在;随着掺杂量的增加,表层中的Ce由与氧结合转变为与多羟基结合,其它氧种含量增加,催化活性增强.O₂-TPD结果表明,掺杂Ru使催化剂表面的吸附氧和晶格氧脱附温度降低,A离子空位增加.H₂-TPR研究表明,掺杂Ru使A离子空位增加,晶格氧活动性增强,催化活性提高;La_0.8Ce_0.2Fe_0.7Co_0.2Ru_0.1O₃的催化性能最佳.     

氧化镧催化甲烷氧化偶联反应的晶粒尺寸效应的研究

采用水热合成法,制备了不同晶粒尺寸的La₂O₃催化剂。运用XRD、原位拉曼光谱、原位红外漫反射光谱、H₂-TPR和O₂-TPD等表征手段研究了不同晶粒尺寸La₂O₃催化剂的OCM反应性能和催化剂之间的构效关系。结果表明,La₂O₃催化剂的La-O键会随着温度的升高出现明显的伸长,从而影响La₂O₃对O₂的吸附和动态储存。当晶粒尺寸增大至57.4 nm时,La₂O₃催化剂的储氧能力开始下降,同时伴随着表面氧物种,特别是超氧物种在催化剂表面富集,导致CH₄和产物的过度氧化,降低OCM反应的选择性。晶粒尺寸为52.3 nm的L-La₂O₃催化剂在750℃时,表面氧物种含量适宜,储氧能力强。在CH₄/O₂...     

经过吸附处理的Ti-Si沸石的IR和UV-Vis光谱研究

用IR和UV-Vis光谱对Ti-Si沸石吸附H₂O、H₂O₂、烯丙基氯后的变化情况进行了研究。观察到H₂O₂的吸附将引起Ti-Si沸石IR光谱中960cm^-1谱带的减弱,同时一个弱带在880cm^-1处形成;而在UV-Vis光谱中,吸附H₂O₂将导致一个新的电子跃迁带在425nm处形成。这时若吸附烯丙基氯,则可发现880cm^-1的弱带及UV-Vis425nm的宽带会进一步减弱,同时一个新的IR带重又出现在980cm^-1处。吸附H₂O₂后导致的IR880cm^-1弱带的出现及UV-Vis425nm宽带的出现均证实此时在沸石表面形成了过氧钛物种。推测骨架晶格钛可能在H₂O₂参加的氧化反应中起活性中心作用。     

Specific features of the formation of co-adsorption layers on metal surfaces with the participation of simple molecules: NH<Subscript>3</Subscript> + CO on Pt(111)

The co-adsorption of ammonia and carbon monoxide on the Pt(111) surface was studied at temperatures <300 K using high-resolution electron energy loss spectroscopy (HREELS). The state of ammonia and carbon monoxide molecules in the co-adsorption layer was established to differ significantly from their state in individual adsorption layers. The adsorption of CO on a clean surface occurs with the primary filling of single-bound terminal sites, whereas the bridging sites are filled preferably by CO molecules in the presence of NH_3,ads. The symmetry axis of ammonia molecules adsorbed on the clean surface is parallel to the normal to the surface, whereas in the co-adsorption layers the interaction with CO_ads molecules results in the deviation of the symmetry axis toward the surface. Presumably, the observed changes in the state of adsorbed molecules are due to the donor-acceptor interaction inducing the electron density transfer from ammonia molecules across the metal surface to CO molecules.     

An investigation of the mode of sorption of inositol hexaphosphate to goethite

Adsorption of inositol hexaphosphate (IP(6)) on goethite has been studied as a function of pH and concentration, and by use of Attenuated Total Reflectance-Fourier Transform Infrared Spectroscopy (ATR-FTIR). While adsorption was highest at low pH, a significant amount remained adsorbed above pH 10 where, in the absence of IP(6), the surface is expected to have a net negative charge. The adsorption isotherm at pH 5.5 indicated strong binding to the surface with each adsorbed species occupying about 2.5 nm(2). ATR-FTIR spectra of IP(6) solutions in the pH range from 2 to 12 were fitted with a single set of IR bands which were assigned primarily by analogy with phosphate spectra. From its variation in intensity with pH the band at 1040 cm(-1) was assigned to the effect of hydrogen bonding on the PO vibration. No additional bands were required to fit the spectra of IP(6) adsorbed to goethite, indicating that adsorption occurs by outer-sphere complexation in this system. At all pH values studied the band associated with hydrogen bonding was more intense for the adsorbed species than in solution at the corresponding pH indicating that hydrogen bonding plays an important role in binding IP(6) to goethite.     

Adsorption and co-adsorption of ethylene and carbon monoxide on silica-supported monodisperse Pt nanoparticles: volumetric adsorption and infrared spectroscopy studies

The adsorption of carbon monoxide and ethylene, and their sequential adsorption, was studied over a series of Pt/SBA-15 catalysts with monodisperse particle sizes ranging from 1.7 to 7.1 nm by diffuse-reflectance infrared spectroscopy and chemisorption. Gas adsorption was dependent on the Pt particle size, temperature, and sequence of gas exposure. Adsorption of CO at room temperature on Pt/SBA-15 gives rise to a spectroscopic feature assigned to the C-O stretch: nu(CO) = 2075 cm-1 (1.9 nm); 2079 cm-1 (2.9 nm); 2082 cm-1 (3.6 nm); and 2090 cm-1 (7.1 nm). The intensity of the signal decreased in a sigmoidal fashion with increasing temperature, thereby providing semiquantitative surface coverage information. Adsorption of ethylene on Pt/SBA-15 gave rise to spectroscopic features at approximately 1340, approximately 1420, and approximately 1500 cm-1 assigned to ethylidyne, di-sigma-bonded ethylene, and pi-bonded ethylene, respectively. The ratio of these surface species is highly dependent on the Pt particle size. At room temperature, Pt particles stabilize ethylidyne as well as di-sigma- and pi-bonded ethylene; however, ethylidyne predominated on the surfaces of larger particles. Ethylidyne was the only identifiable species at 403 K, with its formation being more facile on larger particles. Co-adsorption experiments reveal that the composition of the surface layer is dependent on the order of exposure to gases. Exposure of a C2H4-covered Pt surface to CO resulted in an approximately 50% decrease in chemisorbed CO compared to a fresh Pt surface. The nu(CO) appeared at 2050 cm-1 on Pt/SBA-15 pretreated with C2H4 at room temperature. The di-sigma-bonded and pi-bonded species are the most susceptible to displacement from the surface by CO. The formation of ethylidyne appeared to be less sensitive to the presence of adsorbed carbon monoxide, especially on larger particles. Upon exposure of C2H4 to a CO-covered Pt surface, little irreversible uptake occurred due to nearly 100% site blocking. These results demonstrate that carbon monoxide competes directly with ethylene for surface sites, which will have direct implications on the poisoning of the heterogeneously catalyzed conversion of hydrocarbons.     

Vibrational spectroscopy of adsorbed species on nickel by neutron inelastic scattering

In a test of the utility of neutron inelastic spectroscopy (NIS) for studying molecular vibrations in surface reactions, we have examined the adsorption, co-adsorption, and reaction of hydrogen and carbon monoxide on Raney nickel catalysts.     

溶胶-凝胶法制备的铑基CO加氢制C2含氧化合物催化剂

用XRD,FT-IR,吸附CO的程序升温脱附(TPD),吸附CO的程序升温表面加氢反应(TPSR)等技术,并结合高压下CO加氢反应研究了用溶胶-凝胶法制备的铑基催化剂.结果表明,用溶胶-凝胶方法制备的催化剂中,Rh以极高的分散状态(主要以单原子形式)存在.与文献报道的浸渍法催化剂不同,CeO2的加入使甲醇选择性显著提高,但降低了催化剂的活性.CeO2对Rh的促进作用可能主要是CeO2与Rh产生了电子效应,即CeO2向Rh转移了电子.     

Role of axially coordinated surface sites for electrochemically controlled carbon monoxide adsorption on single crystal copper electrodes

The adsorption of CO on low index copper single crystals in electrochemical environments has been investigated. The results, analysed through a combination of in situ infrared spectroscopy, DFT and cyclic voltammetry, reveal a unique adsorption behaviour when compared to previous studies on copper and the more widely studied noble metal surfaces. By employing small, weakly specifically adsorbed electrolytes, it is shown that carbon monoxide is adsorbed over a much wider electrode potential range than previously reported. The electrochemical Stark shift (δν/δE) observed is similar for the three Cu(hkl) surfaces examined despite different surface coverages. Most notably, however, is an electrochemical feature observed at ca. -1.0 V (vs. Ag/AgCl) on the (110) surface. It is proposed that this voltammetric feature arises from the reduction/oxidation of Cu(δ+) surface sites involved in the binding of carbon monoxide with the participation of the electrolyte anion. This provides additional specific sites for CO adsorption. DFT calculations support the proposed presence of low-coordination copper sites stabilised by electrolyte anions. An experimental electron transfer rate constant of 4.2 s(-1) to the Cu(δ+) surface sites formed was found. These new observations concerning the surface electrochemistry of CO on Cu indicate that the electrocatalytic behaviour of Cu electrodes in processes such as CO(2) reduction need to be re-evaluated to take account of the rich adsorption behaviour of CO, including the co-adsorption of the electrolyte anion to these sites.     

高岭石/甲酰胺插层的Raman和DRIFT光谱

用Raman和漫反射红外光谱研究高岭石/甲酰胺插层反应机理及插层作用对高岭石微结构的影响.     

Electrochemical infrared characterization of CO comains on ruthenium-decorated platinum nanoparticles

Spectra obtained by electrochemical infrared reflection absorption spectroscopy (EC-IRAS) for carbon monoxide (CO) adlayers formed by partial CO dosing on various ruthenium-decorated platinum nanoparticle films are reported. The need to achieve a well distributed rather than aggregated metal nanoparticle array is demonstrated, given that such nanoparticle aggregates induce complex dielectric behavior. The strategy here is to use an "organic glue matrix" (short chain SAMs) between the nanoparticles and the gold substrates. The observed promotion in CO electrooxidation by the existence of a Ru island on Pt nanoparticles, of interest to fuel-cell catalysis, showed a strong relationship with Ru surface concentrations, consistent with previous studies on single crystal or polycrystalline bimetallic surfaces. Two distinctive CO infrared bands, one for the Pt-CO and one for Ru-CO domain were found after the dipole coupling of CO within the two CO domains was minimized. Interestingly, those two CO bands showed independent electrooxidation behavior with electrode potential changes. Also, it is shown that the electrooxidation of CO on large Ru islands is less facile than on small Ru islands. In addition, the activity of commercial Pt/Ru alloy nanoparticles to CO stripping was tested and IRAS spectra were reported as a comparison to our Ru-decorated Pt nanoparticles.     

可逆与不可逆吸附氢在合成甲醇反应中的作用

在自行设计和建立的加压动态分析装置上研究了合成甲醇催化剂上氢的吸附和反应行为。结果表明:在反应条件下催化剂上吸附的氢可分为可逆吸附氢和不可逆吸附氢;不可逆吸附氢又可分为能被CO顶替出来的和不能被CO顶替出来的两部分;能被CO顶替出来的不可逆吸附氢对CO的吸附起促进作用,不能被CO顶替出来的不可逆吸附氢是合成甲醇催化剂必不可少的“组分”或称“促进剂”;同时甲醇的生成是可逆吸附氢与一氧化碳作用的结果。     

Reactions on alkali-modified low-index stepped copper surfaces

Interest in CO, CO₂ and H adsorption on alkali-promoted Cu surfaces stems from the promoting role of alkali metals in heterogeneous catalysis. Adsorption of an alkali metal on a Cu surface causes a substantial decrease in the work function. The change in the electronic structure of the surface has strong consequences for the adsorption and reactive properties of the Cu surfaces. Another important factor for the reaction yields is the corrugation of the surface. The influence of these two parameters, the alkali metal coverage and the corrugation, on the dissociation of CO and the reactions between low-molecular gases like H, CO and CO₂ has been investigated on a series of low-index and stepped Cu surfaces. Particularly the synthesis of formate HCOO⁻ from coadsorption of H and CO₂ has been studied. The experimental evidence for these findings is synchrotron radiation based measurements of valence band energy distributions, and work function measurements. It is demonstrated in this report that CO dissociates on the potassium-modified stepped surface, Cu(1 1 2), at 125 K. The dissociation process is conditioned by the presence of steps and the alkali metal coverage. Carbonate is formed via the process CO + CO →CO₂ + C and reaction with oxygen. Adsorption of atomic hydrogen in the presence of K gives rise to two H-1s-induced states in the valence band. The influence of temperature on the binding energies and the population of these states have been studied. Formate is synthesized when the alkali/Cu surface, precovered with hydrogen, is exposed to CO₂.