INFLUENCE OF B ON H_2S CORROSION-RESISTANTBEHAVIOR OF Fe-BASED AMORPHOUS

Substituting boron for carbon can improve the corrosion behavior of Fe-based amorphous significantly especially in acid solution with saturated H_2S. XPS analysis proves that boron enriches in the surface layer of amorphous and reacts with hydrogen to form B_(10)H_(14) . It efficiently prevents the intrusion of hydrogen to the sample, thus the destructive effect of hydrogen can be decreased greatly.

Influence of Chromium on Mechanical Properties and CO_2/H_2S Corrosion Behavior of P110 Grade Tube Steel

Four kinds of P110 grade tube steels containing different chromium contents were designed to probe the in- fluence of Cr on the properties of tube steel. The microstrueture, mechanical properties and corrosion behavior of the four kinds of P110 grade tube steels were studied deeply and thoroughly. The analysis of the mechanical properties indicated that tensile strength and yield strength of the steel plates were improved, while transverse and longitudinal impact energy and elongation first increased and then decreased when Cr content rose. The impact energy and elonga tion reached the peak when Cr content was 1 ~. Cr precipitates were found only in 3 ~ Cr steel, with （Nb, Ti）（C, N） or Nb（C,N） as the core of precipitation and then grew up. The corrosion experiments demonstrated that the scales on the four steels had a two layer structure under the corrosion of CO2 and H2 S. The outer layer was mainly com- posed of FeS or FeS1 x and the inner layer consisted of FeCOa and Cr compounds. Cr was rich in the inner layer and the Cr content of the inner layer increased with the Cr content in matrix. The enriched Cr enhanced the compactness of the scales, further hindering the diffusion of ions from liquid to the surface of steel, thus reducing corrosion rate.

Corrosion Behavior about Tubing Steel in Environment with High H_2S and CO_2 Content

The corrosion behavior of C100 steel in simulated environments with high H2S and CO2 content was studied through high-temperature and high-pressure autoclave, and the HaS stress corrosion cracking （SSC） resistance of C100 steel was evaluated by SSC tests. Scanning electron microscopy （SEM）, transmission electron microscope （TEM） and X-ray diffraction （XRD） technique were employed to characterize the corrosion products and the metal matrix. The results indicate that all of the corrosion products in this investigation are mainly composed of different types of iron sulfide such as Fe0.95S, FeS0.9, F0.985S, Fe7S8 and FeS, and the absence of iron carbonate in the corrosion scales suggests that the corrosion process is governed by H2S corrosion. The corrosion rate decreases in the initial stage and then increases with the enhancement of the temperature. There exists a minimum corrosion rate at about 110 ℃. Under the partial pressure of H2S lower than 9 MPa, the corrosion rate decreases with the increase of P112S While over 9 MPa, a higher P112S will result in a faster corrosion process. When the applied stress is 72%, 80% and 85% of actual yield strength （AYS）, all tested specimens show no crack, which reveals a superior SSC resistance.

Predictive Model for Corrosion Rate of Oil Tubes in CO_2/H_2S Coexistent Environment Part Ⅰ: Building of Model

Based on an analysis of the existing models of CO 2 corrosion in literatures and the autoclave simulative experiments, a predictive model of corrosion rate (r corr) in CO 2/H 2S corrosion for oil tubes has been established, in which r corr is expressed as a function of pH, temperature (T), pressure of CO 2 (P CO 2) and pressure of H 2S (P H 2S). The model has been verified by experimental data obtained on N80 steel. The improved features of the predictive model include the following aspects: (1) The influence of temperature on the protectiveness of corrosion film is taken into consideration for establishment of predictive model of the r corr in CO 2/H 2S corrosion. The Equations of scale temperature and scale factor are put forward, and they fit the experimental result very well. (2) The linear relationship still exists between ln r corr and ln P CO 2 in CO 2/H 2S corrosion (as same as that in CO 2 corrosion). Therefore, a correction factor as a function of P H 2S has been introduced into the predictive model in CO 2/H 2S corrosion. (3) The model is compatible with the main existing models.

Corrosion of Y, Fe and Fe-15Y in H_2-H_2S Mixture under 10^(-3)Pa S_2 at 600～800℃

The corrosion of an Fe-based alloy containing 15 wt pct Y in H2-H2S mixtures under 10-3 Pa S2 was studied at 600~800℃ in an attempt to find materials with improved sulphidation resistance with respect to pure Fe. The presence of Y has been shown to be beneflcial, but not sufficient to the level expected. In fact, the alloy is able to form at all tested temperatures an external FeS layer, beneath which a zone containing a mixture of the two sulphides is also present. Thus,Fe can still diffuse through this region to form the outer FeS layer with non-negligible rate. The corrosion rate of Fe is considerably reduced by the Y addition. but the alloy corrodes still much more rapidly than Y. The sulphidation kinetics is generally rather irregular for both the pure metals, while the corrosion rate of the alloy decreases with time and tends to become parabolic after an initial period of 12~17 h. The sulphidation behaviour of the alloys is discussed by taking into account the presence of an intermetallic compound Fe17Y2 and the limited solubility of Y in Fe

基于CSE/H_2S体系探讨葱白提取物对H_2S催化酶及趋化因子CX3CL1的作用机制

目的研究葱白提取物对动脉粥样硬化(AS)大鼠CX3C趋化因子配体1(CX3CL1)、CX3C趋化因子受体1(CX3CR1)、胱硫醚β合成酶(CBS)、3-巯基丙酮酸硫基转移酶(3MST)表达的影响及相互作用机制。方法纯种健康雄性SD大鼠,SPF级,体重(200±20)g,共40只,随机选择10只作为正常组,另外30只制备大鼠AS模型,再随机分为模型组、葱白提取物组、辛伐他汀组,每组各10只。正常组以基础饲料喂养,模型组、葱白提取物组、辛伐他汀组均以高脂维生素D3饲料喂养。从第5周开始,葱白提取物组大鼠给予配置好的葱白提取物溶液10 mL/kg体质量灌胃,辛伐他汀组大鼠给予辛伐他汀混悬液10 mL/kg体质量灌胃;正常组和模型组均给予等容积生理盐水10 mL/kg体质量灌胃,共连续8周。在第12周时,留取大鼠血液,分离主动脉。采用生化检测、HE染色、Western blot、RT-PCR检测脂质代谢、H_(2)S催化酶、趋化因子及基质金属蛋白酶表达。结果与模型组比较,葱白提取物组及辛伐他汀组大鼠血清总胆固醇、甘油三酯、低密度脂蛋白胆固醇、载脂蛋白B浓度均降低(P<0.05),高密度脂蛋白胆固醇浓度升高(P<0.05)。与模型组比较,葱白提取物组及辛伐他汀组斑块内部的胆固醇结晶较少,管腔狭窄程度较轻。与模型组比较,葱白提取物组和辛伐他汀组CX3CL1 mRNA、CX3CR1 mRNA、MMP7 mRNA、MMP9 mRNA表达均下调。与模型组比较,葱白提取物组和辛伐他汀组大鼠主动脉组织中3MST、CBS蛋白相对表达量升高(P<0.05),而CX3CL1、CX3CR1蛋白相对表达量降低(P<0.05)。结论葱白提取物可通过调控内源性H_(2)S生成体系,抑制CX3CL1、CX3CR1表达、降低MMP7、MMP9活性,发挥抗动脉粥样硬化作用。

Double open mouse-like terpyridine parts based amphiphilic ionic molecules displaying strengthened chemical adsorption for anticorrosion of copper in sulfuric acid solution

In this study,the benign target double terpyridine parts based amphiphilic ionic molecules(AIMs 1,2)and the reference single terpyridine segment included AIMs(AIMs 3,4)were synthesized through a multi-step method,and the molecular structures were fully characterized.The excellent anticorrosion of the target AIMs for copper surface in H_(2)SO_(4) solution was demonstrated by the electrochemistry analysis,which was more superior over those of the reference AIMs.The standard adsorption free energy changes of the target AIMs calculated by the adsorption isotherms were lower than -40 kJ·mol^(-1),suggesting an intensified chemical adsorption on metal surface.The molecular modeling and molecular dynamic computation of the studied AIMs were performed,demonstrating that the target AIMs exhibited lower highest occupied molecular orbital-lowest unoccupied molecular orbital energy gaps and greater adsorption energies than the reference ones.The chemical adsorption of the AIMs on metal surface was revealed by various spectroscopic methods including scanning electron microscopy,atomic force microscopy,Fourier transform infrared spectroscopy,attenuated total reflection infrared spectroscopy,Raman and X-ray diffraction.

硫化氢气体在金属有机骨架中吸附机理的分子模拟研究

研究硫化氢(H_(2)S)气体在金属有机骨架(Metal Organic Frameworks, MOFs)材料中的吸附机理,对应用MOFs材料控制城市地下有限空间内的H_(2)S气体具有重要意义。以不同类型的MOFs材料作为研究对象,基于Materials Studio软件建立了MOFs-H_(2)S吸附体系,应用巨正则蒙特卡洛(Rand Canonical Monte Carlo, GCMC)方法及分子动力学(Molecular Dynamics, MD)理论研究了相互作用能、吸附热、金属位点、官能团等的影响,在分子层面讨论了H_(2)S气体在MOFs中的吸附特性及机理。应用等温吸附试验验证了所使用分子模型及力场的可靠性。结果表明:不同金属位点对于吸附量有较大影响,对H_(2)S气体的吸附作用由强到弱依次为Mg^(2+)、Ni^(2+)、Co^(2+)、Mn^(2+)、Zn^(2+);亲水性官能团的引入利于H_(2)S气体的吸附捕捉;UiO-66-Cu因其团簇为网状结构更利于H_(2)S气体的捕捉与吸附。同时,该研究建立了吸附热方程,提供了MOFs吸附效果评判标准,为MOFs材料应用于城市地下有限空间吸附H_(2)S气体提供了理论依据。

复合微生物除臭液制备及其安全性与除臭效果评估

为制备复合微生物除臭液并评估其除臭效果和安全性,试验通过特殊营养液、光照厌氧处理从鸡粪样品中富集和扩增培养微生物菌液,从中筛选出最优复合微生物除臭液J9和J10,测定其生长曲线,并进行除臭效果试验和小鼠急性毒性检测。结果表明:J9和J10在扩增培养第2 d进入对数期,在第5~6 d进入稳定期。与不喷洒除臭液的对照组相比,筛选出的最优复合微生物除臭液J9和J10对鸡粪产生的NH_(3)和H_(2)S的去除率可高达82.41%和76.18%,显著(P<0.05)高于不喷洒除臭液的对照组。安全评价结果显示,复合微生物除臭液对小鼠急性经口毒性LD_(50)>40 g/kg体重,属于实际无毒级物质,具有较好的安全性。说明该复合微生物除臭液在实际应用中具有高效的除臭能力和安全性,并易制备。

含H_(2)S天然气管道内腐蚀直接评价方法的改进

为了确定H_(2)S对天然气管道内腐蚀的影响,对NACE SP0110-2010标准提出的天然气管道内腐蚀直接评价方法(包括预评价、间接评价、直接评价、后评价四个环节)进行改进,即在该方法的间接评价环节引入了CO_(2)-H_(2)S腐蚀速率预测模型和积水概率参数,提高了推荐开挖点管道腐蚀程度的准确性。并以某含H_(2)S天然气管道为例,对改进后的评价方法进行了演示。结果表明:根据间接评价(多相流腐蚀模拟计算),极严重腐蚀出现在管道前500 m处,23%管段的积水概率为1;根据直接评价(现场开挖),5个开挖点处管道均属于极严重腐蚀,最大腐蚀速率为0.337 mm/a,与间接评价的预测结果一致;根据后评价确定了管道再评估时间间隔为1 a。改进后评价方法对预测多相流含H2S天然气管道内腐蚀高危点具有一定的借鉴意义。

新标09CrCuSb耐酸钢的耐50%H_(2)SO_(4)腐蚀性能

通过电化学测试和全浸腐蚀试验,研究了不同温度(25,50,60,70℃)条件下新标09CrCuSb耐酸钢在50%H_(2)SO_(4)溶液中的腐蚀行为。结果表明:随着温度从25℃升至70℃,新标09CrCuSb钢的腐蚀速率整体呈现增大趋势,在70℃时,腐蚀速率达到最高,为2.70 g/(m^(2)·h),这与随温度升高,腐蚀产物中具有保护性作用的Fe_(3)O_(4)含量减少,无保护作用的FeSO_(4)·H_(2)O含量增加以及锈层中微孔变化有关。另外,由于新标调整了09CrCuSb钢中Cu、Mo、Sn、Sb、W等元素的含量,与旧标09CrCuSb钢相比,阳极维钝电流密度J维钝降低,同等温度条件下,新标09CrCuSb钢的耐蚀性得到较大改善。

宽负荷下切圆燃煤锅炉H_(2)S分布特性的数值模拟

锅炉采用空气分级燃烧降低NO_(x)排放的同时也提高了主燃区H_(2)S体积分数。炉墙壁面过高的H_(2)S体积分数是加剧水冷壁高温腐蚀的重要因素。为保障新能源并网发电,大型燃煤机组灵活调峰的需求增加,不同负荷下的水冷壁近壁面H_(2)S分布特性值得关注。通过正交试验分析了切圆燃煤锅炉运行参数对水冷壁近壁面H_(2)S体积分数分布的影响。选取一台超临界600 MW切圆燃煤锅炉建立数值模型,设计L_(16)(4^(5))正交工况,覆盖100%BMCR、75%THA,50%THA以及35%BMCR四种负荷。建立了自定义SO_(x)生成模型以确定燃料硫的析出和转化路径,模型包含多表面反应子模型以描述焦炭与O_(2)/CO_(2)/H_(2)O等3种气体的异相反应,并确定焦炭气化反应消耗量占总消耗量的比例,进而对炉膛H_(2)S空间分布进行了模拟计算。研究表明,近壁面高体积分数H_(2)S区域主要位于投运燃烧器层中最下层燃烧器以下以及最上层燃烧器以上至SOFA层之间,烟气切圆沿炉膛高度增加逐渐增大是造成后一区域H_(2)S体积分数较高的重要原因。35%BMCR负荷下水冷壁重点区域的H_(2)S平均体积分数为364μL/L,明显低于其他负荷。锅炉运行参数对重点区域H_(2)S体积分数影响程度的排序为:锅炉负荷>一次风率>主燃区空气过量系数>假想切圆直径>燃烧器竖直摆角。

堆肥过程氨气、硫化氢协同减排研究进展

有机固体废弃物年产生量快速增长成为全球面临的巨大挑战,好氧堆肥技术是有机固体废弃物资源利用的主流技术之一,但堆肥过程中微生物剧烈活动,有机质不断分解,往往产生大量恶臭气体并释放到空气中,特别是氨气(NH_(3))和硫化氢(H_(2)S),对人畜健康和环境质量造成严重影响。本文重点总结了有机固体废弃物好氧堆肥过程中NH_(3)和H_(2)S的产生机制及转化途径,从内源参数控制(C/N、曝气量、初始含水率、初始pH)和外源物质添加(化学添加剂、物理添加剂、生物添加剂)两个方面分别介绍了NH_(3)和H_(2)S的协同减排技术,并基于研究现状对未来该领域的研究方向进行展望。已有研究表明,堆肥各参数之间相互影响、相互作用,需要协同考虑、整体优化,仅靠调控堆体内源参数发挥的作用有限,在优化内源参数的基础上,耦合外源物质添加,可进一步提高堆肥过程中NH3和H2S的减排效率,有助于推动好氧堆肥技术绿色、高效发展。

温度对UNS N08825合金在高含H_(2)S环境中耐腐蚀性能的影响

在不同温度(80,90,110,132℃)、高压、高含H2S和高含氯离子环境中对UNS N08825合金进行了72 h浸泡和电化学腐蚀试验,研究了温度对合金耐腐蚀性能的影响,分析了其影响机理。结果表明:在80℃下试验合金几乎不发生腐蚀,90,110,132℃下合金表面出现黑色腐蚀产物,并且110,132℃下的腐蚀产物增多且呈疏松多孔特征;随着温度升高,合金表面的点蚀坑数量增多且深度增加,最大点蚀速率和均匀腐蚀速率均增大;随着温度升高,试验合金的自腐蚀电位、电荷转移电阻和钝化膜电阻减小,自腐蚀电流密度增大。当温度低于90℃时,合金表面钝化膜均匀致密,点蚀敏感性低,具有较好的耐腐蚀性能;当温度不低于90℃时,元素硫的水解加剧,合金表面钝化膜发生破坏,点蚀更易发生,耐腐蚀性能变差。

CO_(2)分压对S135钢在CO_(2)/H_(2)S共存体系中腐蚀行为的影响

为了给井下油气管材的选择和腐蚀预测模型的建立提供理论依据,利用高温高压反应釜进行S135钢在CO_(2)/H_(2)S共存体系中的腐蚀模拟试验,采用失重法、恒载荷法、X射线衍射(XRD)、扫描电镜(SEM)、能谱(EDS)、三维轮廓扫描仪等手段研究了CO_(2)分压对S135钢在温度100℃、CO_(2)/H_(2)S共存体系中腐蚀行为的影响及规律。结果表明,随CO_(2)分压升高,S135钢的腐蚀速率增大,屈服强度损伤加剧,CO_(2)分压为5,10,15,20 MPa时,其屈服强度(σs)损伤率分别为1.4%、3.6%、4.5%和15.9%;抗拉强度(σb)损伤率分别为1.2%、3.4%、5.2%和15.4%。S135钢在低CO_(2)分压下发生全面腐蚀,随CO_(2)分压增大发展为以全面腐蚀为主,辅以局部腐蚀。应力腐蚀裂纹在萌生阶段以局部阳极溶解作用(点蚀)为主,随CO_(2)分压增大应力腐蚀裂纹更易生长,应力腐蚀敏感性增加,加剧了基体的腐蚀进程。

基于TDLAS的H_(2)S气体材料表面吸附特性研究

在H_(2)S气体浓度在线监测过程中,因其具有粘附性强的特点,容易发生管线吸附,从而导致测量结果存在偏差,尤其在痕量H_(2)S检测过程中表现最为明显,所以开展H_(2)S气体管线材料表面吸附特性研究尤为必要。本文基于可调谐二极管激光吸收光谱技术(TDLAS),设计并搭建了一套H_(2)S浓度在线测定系统,并对该系统进行了测量性能检验,在此基础上进行了H_(2)S在不锈钢材料表面常温吸附特性探究。实验结果表明,所搭建H_(2)S浓度在线测定系统具有稳定性强、检测限低和灵敏度高的特点,利用此系统可以实现痕量H_(2)S浓度的在线连续测定。经过一系列探究试验,证明了H_(2)S在不锈钢材料表面存在明显且稳定的吸附作用,得出了H_(2)S在不锈钢材料表面的单位面积吸附量在10^(14)(个/cm^(2))量级。实验结果可以为痕量硫化氢在线精准测量提供一定参考。

ZnFe-LDHs型固井水泥H_(2)S防腐剂制备及性能评价

我国高酸性油气田资源丰富,但在开发过程中固井水泥石将长期受到H_(2)S等酸性介质的侵蚀,严重威胁到油气井的施工和安全生产。针对此问题,采用水热共沉淀法制备了ZnFe-LDHs型H_(2)S防腐剂,并将掺有优选出的ZnFe-LDHs的水泥石置于5%浓度的Na_(2)S溶液中分别在常温及60℃下浸泡1、3、7、14、28 d,通过抗压强度测试、XRD、SEM等表征手段,分析ZnFe-LDHs对水泥石的防H_(2)S腐蚀能力和作用机理。结果表明,晶化温度为90℃下制备的Zn/Fe物质的量的比为(1~4)∶1的ZnFe-LDHs性能较好,均可提高水泥石的抗压强度,且强度随着Zn/Fe物质的量的比增加而增大,即掺加了Zn/Fe物质的量的比为4∶1的ZnFe-LDHs水泥石的作用效果最为明显,其强度增长了10.11%,而经Na2S溶液浸泡后,其早期强度降低,浸泡7 d时其强度相比于浸泡前在常温及60℃下分别增长了8.73%、4.96%,7 d后强度基本趋于稳定,这是由于ZnFe-LDHs能促进水化反应,并在浸泡后期与Na2S反应生成ZnS,提高水泥石的致密性,从而有效防止H_(2)S对水泥石的腐蚀。

金属-有机骨架材料用于去除天然气中H_2S的计算研究

众所周知,天然气作为一种利用效率高的清洁能源,其需求量正与日俱增.但天然气中包含的H2S等有害气体会危害人类健康、腐蚀设备、污染生态环境等.为解决这一问题,寻找良好的H2S吸附剂,本文采用巨正则系综蒙特卡罗(GCMC)模拟方法,针对天然气中H2S/CH4混合气分离,对33种具有代表性的稳定金属-有机骨架(MOF)材料进行H2S选择性和工作容量(变压吸附(PSA)及真空变压吸附(VSA)过程)的筛选.结果表明,ZIF-80,Zn2-bpydtc,CAU-1-(OH)2,CH3O-MOFa最适用于本体系VSA过程的气体分离;而后两者最适用于PSA过程的气体分离.通过分析高选择性和高工作容量材料的结构特征,发现改性官能基团以及小孔作用的出现是影响选择性的关键因素,其中―Cl、―OH、―OCH3基团对H2S气体的吸附作用力最强.具有高的工作容量材料的特点是选择性高,对气体吸附作用力大,吸附位置多.基于筛选出的高选择性、高工作容量的稳定MOF材料总结出的强化H2S选择性及工作容量的一般性规律,为MOF材料应用于天然气脱硫提供了理论基础.

改性Zn-MOF-74对硫化氢的吸附研究

MOF-74具有独特的金属五配位四方锥构型,在气体吸附领域具有广泛的应用前景。采用理论计算和实验相结合的方法研究了改性前后Zn-MOF-74对硫化氢(H_(2)S)的吸附。利用巨正则蒙特卡罗(GCMC)模拟和密度泛函理论(DFT)计算分析了Co和Ni金属中心改性的Zn-MOF-74对H_(2)S吸附位点的变化、与H_(2)S的相互作用以及吸附性能。结果表明:Zn-Co-MOF-74和Zn-Ni-MOF-74对H_(2)S的优先吸附位点仍在Zn原子处,并且孔腔内吸附的H_(2)S分子明显增多,O吸附位点吸附能力也有所提高。Zn-Co-MOF-74和Zn-Ni-MOF-74对H_(2)S的吸附容量明显提升,这与MOF对H_(2)S的稳定性增强有关,Zn-MOF-74与H_(2)S之间过强的相互作用会导致MOF结构坍塌,阻碍H_(2)S扩散,进而影响其吸附性能。

ZnIn_(2)S_(4)修饰TiO_(2)的分级S型异质结用于促进光催化析氢

利用半导体光催化裂解水制氢被认为是解决日益严重的环境污染和能源短缺问题的有效途径之一,然而半导体光吸收范围窄、光生载流子复合率高以及光催化剂氧化还原能力差等问题限制了该技术的发展.为克服这些难题,构建能带结构匹配的S型异质结成为提高光催化活性的有效策略.该结构能实现光生载流子的空间分离和转移,有效地抑制其复合,同时保留了光催化体系的强氧化还原能力.本文利用原位化学浴沉积法成功地将ZnIn_(2)S_(4)纳米片修饰在花状TiO_(2)微球表面,制备了具有独特分级结构的TiO_(2)/ZnIn_(2)S_(4) S型异质结光催化材料,并研究了其光催化析氢活性.Zeta电位结果表明,TiO_(2)带有正电荷,可以率先吸附溶液中的S2-并与后续加入的In3+和Zn2+原位反应生成ZnIn_(2)S_(4),进而构建稳定的TiO_(2)/ZnIn_(2)S_(4)异质结光催化剂.X射线粉末衍射、扫描电镜和透射电镜等结果证实了TiO_(2)/ZnIn_(2)S_(4)异质结光催化剂的成功制备.紫外-可见漫反射结果表明,ZnIn_(2)S_(4)的引入明显增强了TiO_(2)的光吸收能力.结合莫特-肖特基曲线、X射线光电子能价带谱和紫外光电子能谱等表征结果,确定了TiO_(2)和ZnIn_(2)S_(4)的能带结构及费米能级位置.光电流密度、电化学阻抗、表面光电压、荧光光谱和时间分辨荧光光谱等测试结果表明,TiO_(2)/ZnIn_(2)S_(4)异质结具有较好的光生载流子分离和转移效率以及更长的光生载流子寿命.线性扫描伏安和接触角测试证明了TiO_(2)/ZnIn_(2)S_(4)异质结具有更低的过电势和良好的亲水性,更有利于析氢反应发生.通过阿伦尼乌斯方程对反应温度和析氢速率之间的关系进行拟合,结果发现,TiO_(2)/ZnIn_(2)S_(4)异质结具有更低的析氢反应表观活化能,从而更有利于光催化析氢反应发生.非原位和原位X射线光电子能谱以及电子自旋共振光谱等结果表明,TiO_(2)/ZnIn_(2)S_(4)异质结遵循S型电子转移机理.在模拟太阳光照射下,最佳配比的TiO_(2)/ZnIn_(2)S_(4)异质结的光催化析氢速率达6.85 mmol g^(-1) h^(-1),分别约为纯TiO_(2)和ZnIn_(2)S_(4)的171.2倍和3.9倍.此外,经六次循环后催化材料仍保持良好的光催化析氢活性,表明具有紧密界面接触的分级结构异质结可以有效地抑制ZnIn_(2)S_(4)的光腐蚀,且保持良好的结构稳定性.综上,本文构建了TiO_(2)/ZnIn_(2)S_(4) S型异质结,有效促进了光生载流子的空间分离和转移,同时保留了其强氧化还原能力,从而提高光催化析氢活性.本研究为设计和合成高效的异质结光催化剂提供了参考.