Study on Methanol Oxidation at Pt and PtRu Electrodes by Combining in situ Infrared Spectroscopy and Differential Electrochemical Mass Spectrometry

Methanol oxidation reaction （MOR） at Pt and Pt electrode surface deposited with various amounts of Ru （denoted as PtxRuy, nominal coverage y is 0.17, 0.27, and 0.44 ML） in 0.1 mol/L HClO4＋0.5 mol/L MeOH has been studied under potentiostatic conditions by in situ FTIR spectroscopy in attenuated-total-reflection con guration and di erential electro-chemical mass spectrometry under controlled flow conditions. Results reveal that （i） CO is the only methanol-related adsorbate observed by IR spectroscopy at all the Pt and PtRu electrodes examined at potentials from 0.3 V to 0.6 V （vs. RHE）; （ii） at Pt0.56Ru0.44, two IR bands, one from CO adsorbed at Ru islands and the other from COL at Pt substrate are detected, while at other electrodes, only a single band for COL adsorbed at Pt is observed; （iii） MOR activity decreases in the order of Pt0.73Ru0.27〉Pt0.56Ru0.44〉Pt0.83Ru0.17〉Pt; （iv） at 0.5 V, MOR at Pt0.73Ru0.27 reaches a current e ciency of 50% for CO2 production, the turn-over frequency from CH3OH to CO2 is ca. 0.1 molecule/（site sec）. Suggestions for further improving of PtRu catalysts for MOR are provided.

In situ Fourier Transform Infrared Spectroscopy Diagnostic for Characterization and Performance Test of Catalysts

The present work establishes a systematic approach based on the application of in-situ Fourier transform infrared spectroscopy （FTIR） for the investigation of the crystal structure, thermal stability, redox behavior （temperature-programmed reduction/temperatureprogrammed re-oxidation） as well as the catalytic properties of Co3O4 thin films. The syntheses of Co3O4 were achieved by chemical vapor deposition in the temperature range of 400-500℃. The structure analysis of the as-prepared material revealed the presence of two prominent IR bands peaking at 544 cm-1 （υ1） and 650 cm-1 （υ2） respectively, which originate from the stretching vibrations of the Co-O bond, characteristic of the Co3O4 spinel. The lattice stability limit of Co3O4 was estimated to be above 650℃. The redox properties of the spinel structure were determined by integrating the area under the emission bands υ1 and υ2 as a function of the temperature. Moreover, Co3O4 has been successfully tested as a catalyst towards complete oxidation of dimethyl ether below 340 ℃. The exhaust gas analysis during the catalytic process by in situ absorption FTIR revealed that only CO2 and H2O were detected as the final products in the catalytic reaction. The redox behavior suggests that the oxidation of dimethyl ether over Co3O4 follows a Mars-van Krevelen type mechanism. The comprehensive application of in situ FTIR provides a novel diagnostic tool in characterization and performance test of catalysts.

Identification of active sites for hydrogenation over Ru/SBA-15 using in situ Fourier-transform infrared spectroscopy

The active sites for hydrogenation over Ru/SBA‐15catalysts were identified using in situ Fourier‐transform infrared spectroscopy.The amount of active sites was proportional to the interfacial circumference of the Ru particles.In contrast,the rate of hydrogen spillover from Ru to the support was inversely proportional to the size of the Ru metal particles.Consequently,a catalyst with small Ru metal particles has a high rate of hydrogen spillover but a low density of active sites,whereas one with large Ru particles has a low rate of hydrogen spillover but a high density of active sites.The formation of these active sites is probably an intermediate step in hydrogen spillover.

氢氧化钠分子结构原位漫反射一维及二维漫反射中红外光谱研究

通过原位一维漫反射中红外(MIR)光谱开展了氢氧化钠分子结构研究。实验发现,氢氧化钠分子结构主要红外吸收模式包括OH基团伸缩振动模式(νOH-NaOH-_(一维))和OH基团面内摇摆振动模式(ρOH-NaOH-_(一维))。进一步开展了氢氧化钠分子结构的原位二维漫反射MIR光谱研究。采用原位漫反射一维及二维漫反射MIR光谱开展氢氧化钠结构研究,对氯碱工业具有重要意义。

原位漫反射中红外光谱在氢氧化钠杂质分析的应用

对原位漫反射中红外光谱开展了氢氧化钠杂质研究。实验发现:氢氧化钠杂质主要包括:少量碳酸钠和水。碳酸钠分子主要的红外吸收模式包括:C=O基团伸缩振动模式(νC=O-Na_(2)CO_(3))和CO_(3)基团面内弯曲振动模式(βCO_(3)-Na_(2)CO_(3))的合频峰(νC=O-Na_(2)CO_(3)+βCO_(3)-Na_(2)CO_(3));C=O基团伸缩振动模式(νC=O-Na_(2)CO_(3));CO_(3)基团不对称伸缩振动模式(νasCO_(3)-Na_(2)CO_(3));CO_(3)基团对称伸缩振动模式(νsCO_(3)-Na_(2)CO_(3));CO_(3)基团面外弯曲振动模式(rCO_(3)-Na_(2)CO_(3))及CO_(3)基团面内弯曲振动模式(βCO_(3)-Na_(2)CO_(3));水分子主要的红外吸收模式包括:OH基团伸缩振动模式(νOH-H_(2)O)。原位漫反射中红外光谱在氢氧化钠杂质分析领域,具有重要的应用研究价值。

聚光太阳能驱动二氧化碳甲烷化实验研究

针对聚光光热驱动CO_(2)甲烷化反应过程中聚光的作用机制尚不清晰的问题,以具有优异反应活性及光热转换特性的Ni/Al_(2)O_(3)催化剂为研究对象,开展了聚光光热驱动和热驱动下的CO_(2)甲烷化实验及机理研究。通过表观活化能测试、温度梯度实验及时间分辨的原位漫反射红外光谱实验,探究了聚光在反应过程中的作用机制,揭示了光热驱动CO_(2)甲烷化的反应机理。结果表明,与纯热驱动过程相比,光热驱动在相同温度下表现出更佳的催化性能。光热驱动下w(Ni)为15%的Ni/Al_(2)O_(3)催化剂在350℃下可达到86.8%的CO_(2)转化率,达到峰值转化率所需的温度比纯热驱动过程降低了25℃。此外,光热较热驱动过程的表观活化能降低了25%,且光致温度梯度进一步促进了CO_(2)的转化。时间分辨的原位漫反射红外光谱实验结果表明,聚光改善了CO_(2)在催化剂表面的吸附,促进了关键中间体的转变,增强了CO*生成CH4的反应路径,从微观动力学上促进了CO_(2)的转化。该研究为认识聚光太阳能驱动CO_(2)甲烷化过程中聚光的作用机制提供了新的思路。

乙基纤维素分子结构三级近红外光谱组学研究

基于一维漫反射近红外(NIR)光谱及一维原位漫反射NIR光谱分别研究了乙基纤维素分子结构及平均吸收频率/吸收强度。基于二维原位漫反射NIR光谱进一步研究了乙基纤维素分子官能团变化快慢顺序。实验发现,乙基纤维素分子结构的NIR光谱吸收模式主要包括:CH3官能团中红外(MIR)不对称弯曲振动模式(δ_(asCH3-一维-MIR))的2级倍频(ν_(1-一维-NIR))、缔合O-H官能团MIR伸缩振动模式(ν_(O-H(缔合)-一维-MIR))的1级倍频(ν_(2-一维-NIR))、缔合O-H官能团MIR伸缩振动模式的2级倍频(ν_(3-一维-NIR))、C-H官能团MIR伸缩振动模式(ν_(C-H-一维-MIR))和C-C官能团MIR伸缩振动模式(ν_(C-C-一维-MIR))的合频(ν_(4-一维-NIR))、C-H官能团MIR伸缩振动模式和CH_(3)官能团MIR对称伸缩振动模式(ν_(sCH3-一维-MIR))的合频(ν_(5-一维-NIR))、CH_(3)官能团MIR不对称伸缩振动模式(ν_(asCH3-一维-MIR))和CH_(2)官能团MIR不对伸缩振动模式(ν_(asCH2-一维-MIR))的合频(ν_(6-一维-NIR))。室温下,乙基纤维素分子官能团变化快慢顺序存在着一定的差异性。变化快慢顺序为,4250 cm^(-1)(ν_(1-2-二维-NIR))>4252 cm^(-1)(ν_(1-1-二维-NIR))>4248 cm^(-1)(ν_(1-3-二维-NIR)),6988 cm^(-1)(ν_(2-1-二维-NIR))>6976 cm^(-1)(ν_(2-2-二维-NIR)),11012 cm^(-1)(ν_(3-1-二维-NIR))>10998 cm^(-1)(ν_(3-2-二维-NIR)),4016 cm^(-1)(ν_(4-1-二维-NIR))>4012 cm^(-1)(ν_(4-2-二维-NIR)),5777 cm^(-1)(ν_(5-2-二维-NIR))>5774 cm^(-1)(ν_(5-3-二维-NIR))>5782 cm^(-1)(ν_(5-1-二维-NIR)),5895 cm^(-1)(ν_(6-2-二维-NIR))>5893 cm^(-1)(ν_(6-3-二维-NIR))>5900 cm^(-1)(ν_(6-1-二维-NIR))。三级漫反射NIR光谱组学(包括一维漫反射NIR光谱、一维原位漫反射NIR光谱和二维原位漫反射NIR光谱)技术可以有效开展乙基纤维素分子结构研究。

含氟药物地塞米松棕榈酸酯分子结构三级近红外光谱研究

利用一维漫反射近红外(NIR)光谱和一维原位漫反射NIR光谱分别开展了地塞米松棕榈酸酯分子结构和平均吸收频率/吸收强度的研究。利用二维原位漫反射NIR光谱进一步开展了地塞米松棕榈酸酯分子官能团变化快慢顺序的研究。研究发现,地塞米松棕榈酸酯分子结构的NIR光谱吸收模式主要包括游离O—H官能团伸缩振动倍频模式(ν_(1-一维))、缔合O—H官能团伸缩振动倍频模式(ν_(2-一维))、CH_(2)官能团对称伸缩振动倍频模式(ν3-一维)、C=O官能团伸缩振动倍频模式(ν_(4-一维))、CH_(2)官能团不对称伸缩振动和CH_(2)官能团对称伸缩振动合频模式(ν_(5-一维))。地塞米松棕榈酸酯分子结构2级倍频模式NIR光谱吸收频率数据重现性相对较差,而1级倍频模式NIR光谱吸收频率数据重现性相对较好。室温下,地塞米松棕榈酸酯分子官能团变化快慢顺序存在着一定的差异性。一维原位漫反射NIR/二维原位漫反射NIR光谱联用技术可以有效开展地塞米松棕榈酸酯分子结构研究。

红外光谱从结构分析到原位表征在石油炼制与化工催化剂研究中的应用

石油化工工艺大部分为催化过程,所采用的催化剂主要为各类分子筛、氧化物以及负载金属的氧化物或分子筛等,红外光谱广泛应用于这些催化材料的结构表征研究。主要介绍了红外光谱的原理和仪器附件及实验技术的发展,并综述了在石油化工领域红外光谱及其原位技术国内外的应用和进展。随着原位反应池和实验技术的迅速发展,不但可以直接获取本体骨架结构和杂原子键合状态,还可以通过探针分子或反应分子的原位(in situ、operando)表征获得其表面羟基、不同金属活性中心的结构分布和表面反应物吸附选择性等信息,甚至能够捕捉到活化中间体和产物结构等信息,进而深入进行催化材料的构效分析和反应机理的研究。笔者通过文献调研和实践积累总结出红外表征的实用经验和参考数据,并结合实际工业剂研发中的应用案例来阐述红外光谱在石油化工工业的产业升级以及低碳绿色化发展中的支撑和前瞻作用。

In situ studies on ceria promoted cobalt oxide for CO oxidation

In situ studies of catalysts play valuable roles in observing phase transformation, understanding the corresponding surface chemistry and the mechanism of the reaction. In this paper, ceria promoted cobalt oxide was prepared by the calcination method and investigated for the CO oxidation. The microstructure and morphology of CeO2-Co3O4 were investigated by the Scanning Electron Microscope, High-resolution transmission electron microscopy, Raman and X-ray photoelectron spectroscopy characterization. The effect of CeO2 doping on Co3O4 for CO oxidation was characterized by in situ X-ray Diffraction (in situ XRD) and in situ diffuse reflectance infrared Fourier transform spectroscopy (in situ DRIFTS). In situ XRD was carried out under H2 atmosphere to evaluate the redox property of catalysts. The results indicated that the ceria doping can enhance the reducibility of Co2+ and promote the Co3+-Co2+-Co3+ cycle, owing to the oxygen replenish property of CeO2. Furthermore, adsorbed carbonate species on the surface of CeO2-Co3O4 were investigated by in situ-DRIFTS experiment. It was turned out that carbonate species on ceria promoted cobalt oxide catalysts showed different IR peaks compared with pure cobalt oxide. The carbonate species on ceria promoted catalyst are more active, and similar to free state carbonate species with weak bonding to catalyst surface, which can effectively inhibit catalyst inactivation. This study revealed the mechanism of ceria promoting CO oxidation over cobalt oxide, which will provide theoretical support for the design of efficient CO oxidation catalysts.

Facile synthesis of Bi_(12)O_(17)Br_2 and Bi_4O_5Br_2 nanosheets:In situ DRIFTS investigation of photocatalytic NO oxidation conversion pathway

Bi12O17Br2and Bi4O5Br2visible‐light driven photocatalysts,were respectively fabricated by hydrothermal and room‐temperature deposition methods with the use of BiBr3and NaOH as precursors.Both Bi12O17Br2and Bi4O5Br2were composed of irregular nanosheets.The Bi4O5Br2nanosheets exhibited high and stable visible‐light photocatalytic efficiency for ppb‐level NO removal.The performance of Bi4O5Br2was markedly higher than that of the Bi12O17Br2nanosheets.The hydroxyl radical(?OH)was determined to be the main reactive oxygen species for the photo‐degradation processes of both Bi12O17Br2and Bi4O5Br2.However,in situ diffuse reflectance infrared Fourier transform spectroscopy analysis revealed that Bi12O17Br2and Bi4O5Br2featured different conversion pathways for visible light driven photocatalytic NO oxidation.The excellent photocatalytic activity of Bi4O5Br2resulted from a high surface area and large pore volumes,which facilitated the transport of reactants and intermediate products,and provided more active sites for photochemical reaction.Furthermore,the Bi4O5Br2nanosheets produced more?OH and presented stronger valence band holeoxidation.In addition,the oxygen atoms of NO could insert into oxygen‐vacancies of Bi4O5Br2,whichprovided more active sites for the reaction.This work gives insight into the photocatalytic pollutant‐degradation mechanism of bismuth oxyhalide.

Surface-enhanced vibrational spectroscopies in electrocatalysis:Fundamentals,challenges,and perspectives

Electrocatalysis offers a promising approach towards chemical synthesis driven by renewable energy.Molecular level understanding of the electrochemical interface remains challenging due to its compositional and structural complexity.In situ interfacial specific characterization techniques could help uncover structure-function relationships and reaction mechanism.To this end,electrochemical surface-enhanced Raman spectroscopy(SERS)and surface-enhanced infrared absorption spectroscopy(SEIRAS)thrive as powerful techniques to provide fingerprint information of interfacial species at reaction conditions.In this review,we first introduce the fundamentals of SERS and SEIRAS,followed by discussion regarding the technical challenges and potential solutions.Finally,we highlight future directions for further development of surface-enhanced spectroscopic techniques for electrocatalytic studies.

基于原位漫反射光谱技术研究Ni/Al_(2)O_(3)催化甲烷化反应机理

研究了Ni/Al_(2)O_(3)催化剂上CO和H_(2)的暂态反应和稳态反应过程吸附态的变化。结果表明:在250℃下,Ni/Al_(2)O_(3)催化剂在吸附CO形成了线式吸附态(2065 cm^(-1))和桥式吸附态(1913 cm^(-1))。在250℃下CO和H_(2)共吸附时,CO发生了氢助解离而不是直接解离,线式吸附态(2073 cm^(-1))和桥式吸附态(1909 cm^(-1))会和催化剂表面解离吸附的氢发生反应生成羰基氢化物(2060和1895 cm^(-1)),在氢气过量的情况下又进一步生成多氢羰基氢化物(1854 cm^(-1)),而多氢羰基化合物是生成甲烷的中间产物。

近红外光谱技术在川麦冬原位检测中的应用研究

原药材检测费时费力一直是川麦冬质量分析中亟待解决的问题。该文将近红外光谱分析技术应用于川麦冬原药材的质量分析,以漫反射模式对麦冬颗粒进行无损原位检测后,采用光谱预处理方法减少因粒径造成的干扰,通过变量筛选方法提取有效信息,最终建立了快速定量分析模型。结果表明,水分、浸出物和总皂苷含量模型的验证均方根误差(RMSEP)分别为0.1655%、0.4019%、0.0784%,验证集决定系数(R_(val)^(2))分别为0.9651、0.6965、0.8036,相对分析误差(RPD)分别为4.50、2.68、2.22,3个质量指标的RPD均大于2,说明模型性能较好,能够满足川麦冬质量分析的要求。该法通过近红外光谱技术采集川麦冬颗粒的原位光谱,避免了粉碎,真正意义上实现了川麦冬无损、绿色、快速的含量分析,为川麦冬的质量分析提供了参考。

In situ Raman,FTIR,and XRD spectroscopic studies in fuel cells and rechargeable batteries

As state-of-the-art electrochemical energy conversion and storage(EECS)techniques,fuel cells and rechargeable batteries have achieved great success in the past decades.However,modern societies’ever-growing demand in energy calls for EECS devices with high efficiency and enhanced performance,which mainly rely on the rational design of catalysts,electrode materials,and electrode/electrolyte interfaces in EESC,based on in-deep and comprehensive mechanistic understanding of the relevant electrochemical redox reactions.Such an understanding can be realized by monitoring the dynamic redox reaction processes under realistic operation conditions using in situ techniques,such as in situ Raman,Fourier transform infrared(FTIR),and X-ray diffraction(XRD)spectroscopy.These techniques can provide characteristic spectroscopic information of molecules and/or crystals,which are sensitive to structure/phase changes resulted from different electrochemical working conditions,hence allowing for intermediates identification and mechanisms understanding.This review described and summarized recent progress in the in situ studies of fuel cells and rechargeable batteries via Raman,FTIR,and XRD spectroscopy.The applications of these in situ techniques on typical electrocatalytic electrooxidation reaction and oxygen reduction reaction(ORR)in fuel cells,on representative high capacity and/or resource abundance cathodes and anodes,and on the solid electrolyte interface(SEI)in rechargeable batteries are discussed.We discuss how these techniques promote the development of novel EECS systems and highlight their critical importance in future EECS research.

基于多通道原位红外光谱技术的环氧涂层恒温固化反应研究

目的拓展多通道原位红外光谱技术的应用,探究环氧树脂在固化行为中的分子结构变化以及不同固化深度下的动力学参数与恒温固化模型。方法采用多通道原位红外光谱的表征方法,对N,N,O-三缩水甘油基对氨基苯酚(环氧树脂AFG-90)与甲基纳迪克酸酐(MNA)的环氧涂层的固化过程进行30、40、50、60、70℃等5个温度下的原位红外光谱监测,基于特征官能团吸光度的变化,研究恒温固化模型。结果通过特征官能团吸光度与温度、时间的关系,计算得出AFG-90与MNA的环氧树脂固化体系在不同温度下的固化模型、达到不同固化度下的固化时间,求解得在不同固化深度下的活化能Ea主要在58~74 kJ/mol变化,且其均值为69.43 kJ/mol。结论获得了AFG-90与MNA的环氧树脂固化体系在固化过程中动力学参数和模型,同时试验结果表明,多通道原位红外光谱技术是研究高分子材料固化反应动力学的有效表征方法。

高低温环境下红外光谱原位表征系统的研制

研制的高低温环境下红外光谱原位表征系统将红外光谱同高低温原位红外体系组合起来,为高低温原位红外反应机理的深入研究提供有效信息,同时为构建高效稳定的原位红外研究提供新的技术支撑.高低温环境下红外光谱原位表征系统通过液氮制冷与加热调控,在真空或常压的状态下为光谱测量提供低温恒温环境,并可在一定的温度范围内提供可进行原位预处理或原位反应的高温环境.高低温环境下红外光谱原位表征系统可以适用于任何物质研究,尤其适用于液氮环境下气体吸附研究,比如反应中间体的过程捕捉、探针分子弱吸附方面的研究、单原子催化剂的鉴定以及探针分子吸附表征等.因而高低温环境下红外光谱原位表征系统在这些领域具有极高的通用性和实用性.

基于原位红外光谱法的β分子筛上噻吩烷基化反应机理探究

运用原位红外光谱技术系统探究了噻吩与1-己烯在Hβ分子筛上的吸附、竞争吸附和烷基化转化行为,讨论了不同酸性位在噻吩及烯烃分子发生烷基化反应过程中所扮演的角色。结果表明,1-己烯分子优先在B酸位上吸附,并容易发生质子化和二聚反应,因此与噻吩分子的吸附及质子化反应过程存在显著的竞争关系;在Hβ分子筛非骨架铝物种上吸附的噻吩分子更易于与邻近B酸中心上质子化的1-己烯分子发生烷基化反应。研究结果可为烷基化脱硫分子筛催化剂的开发提供基础理论数据支撑。

高效铜催化剂在一氧化氮电还原产氨中的应用

利用可再生能源如太阳能、海洋能等驱动产生的电能将大气污染物一氧化氮(NO)转化为具有经济价值的氨(NH _(3))有重要意义。一方面可以缓解氮氧化物过度累积所引发的氮循环失衡问题,另一方面其是一种高效生产氨的理想手段,具有广泛的应用前景。然而,目前,电化学NO还原(NOR)仍存在诸多挑战,高效产氨催化剂有待进一步发展,且对反应机理的认识不足。基于此,我们首先建立了电化学NOR的基准研究范式,以非贵金属铜为催化剂,实现了高选择性的产氨,其法拉第效率达到84.7%,并结合原位电化学红外光谱实验追踪了反应过程中间体,加深对反应机制的理解,为催化剂的理性设计提供指导。

原位DRIFTS在SCR过渡金属催化剂研究中的应用进展

概述了4类选择性催化还原(SCR)过渡金属催化剂的研发现状,归纳了原位漫反射红外傅里叶变换光谱(DRIFTS)在NH3和NO吸附转化过程研究中的应用进展,总结了SCR的反应机理及路径,并对原位DRIFTS在SCR研究中的应用前景进行了展望。指出,基于原位DRIFTS技术可遴选出影响催化剂SCR活性的要素,这些要素包括NH3和NO在催化剂上的吸附方式、物种间的活化转化、中间体及(副)产物的生消过程等,这对针对性合成具有特殊结构和形貌的高活性催化剂具有重要指导作用。