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1.
《电化学》2019,(5)
作者通过一个简便的方法在泡沫镍表面修饰了Pt-WO_3纳米片.作为连续导电网络,泡沫镍基地可提高WO_3电极的性能.表面修饰的铂纳米颗粒不仅可以提高表面电导率,也可提高其催化位点密度.测试结果表明Pt-WO_3修饰的泡沫镍显示出比未进行铂修饰催化剂更高的性能,其Tafel斜率为80 mV·dec~(-1),电流密度为10mA·cm~(-2)时过电位仅为72 mV.另外,Pt-WO_3修饰的泡沫镍催化剂经45小时连续测试展现出优异的稳定性和长寿命.本文研究提供了一种提高过渡金属氧化物作为析氢催化剂性能的潜在方法,为其实际应用奠定基础.  相似文献   

2.
采用两步水热法在泡沫镍基底上合成了具有纳米棒形貌的Co3O4@MnOx整体式催化剂,通过X射线衍射、X射线能谱分析、氢气-程序升温还原、X射线光电子能谱、拉曼光谱和碳烟-程序升温还原等手段对催化剂进行表征,在微型固定床反应器上评价了其催化碳烟燃烧性能,通过等温动力学实验探究了催化剂的本征活性。结果表明,Co3O4@MnOx催化剂呈现了以Co3O4为核、以MnOx为壳的核壳结构。与催化剂Co-NW相比,Co3O4@MnOx催化剂中Co3O4与MnOx之间的相互作用使其表面产生了更多高价物种Mn4+和Mn3+以及更多的表面氧空位,其氧化还原性能提高,催化剂的活性氧物种数量增加了两倍,催化性能得到改善,在NO存在的反应气氛中...  相似文献   

3.
以Fe3O4磁性纳米粒子为载体、多巴胺(DA)为功能单体、血红蛋白(Hb)为模板分子,用氯铂酸氧化DA生成聚多巴胺(PDA),同时氯铂酸还原为铂纳米粒子(PtNPs),与Hb一起负载于Fe3O4纳米粒子表面,洗脱Hb后合成了表面分子印迹磁性纳米粒子(印迹Fe3O4/PDA-PtNPs). 将印迹Fe3O4/PDA-PtNPs修饰于磁性玻碳基底表面,制得印迹Fe3O4/PDA-PtNPs修饰电极. 实验结果表明,印迹Fe3O4/PDA-PtNPs具有良好的水溶性,粒径分布均匀,生成的PtNPs具有良好的导电性和刚性. 用印迹Fe3O4/PDA-PtNPs构建的传感器对Hb具有良好的识别性,在0.14 ~ 2.7 μg·mL-1 Hb浓度范围与交流阻抗变化值呈良好的线性关系,检出限(S/N=3)为0.05 μg·mL-1.  相似文献   

4.
发展具有高催化活性和高稳定性的非Pt阳极催化剂目前仍面临着巨大的挑战. 除了设计催化剂以外,设计合适的载体对提高电催化剂性能也具有重要意义. 在这篇论文中,作者报导了一种以混合酸(HNO3+H2SO4+H3PO4+CH3COOH) 腐蚀的镍泡沫负载Pd纳米粒子作为高性能电催化剂用于碱性条件下乙醇氧化. 因具有开放孔结构、快速电解质渗透能力及快速的电荷传输性能,这些镍泡沫负载的Pd纳米粒子显示了很好的电催化活性和循环稳定性,显示了该材料在乙醇阳极氧化具有较好的应用前景.  相似文献   

5.
使用硫酸镍、硝酸铁、磷酸二氢铵和柠檬酸钠在泡沫镍为载体的基底上,采用电沉积方法制备出泡沫镍负载Ni磷化物(nickel phosphide)和泡沫镍负载Fe磷化物(iron phosphide)两种电催化剂,通过SEM测试表征催化剂的结构及形貌,并通过电化学测试催化剂的析氧和析氢及催化活性等参数。研究结果表明:在100mA/cm2电流密度下,Ni磷化物工业过电位为349mV,相较于Fe磷化物催化活性性能高了33%;Ni磷化物和Fe磷化物的催化面积(Cdl)值分别为27.01 mF/cm2和3.64 mF/cm2,Ni磷化物较Fe磷化物的活性面积提高近10倍。  相似文献   

6.
磁性普鲁士蓝纳米颗粒的合成及其化学修饰电极的制作   总被引:6,自引:0,他引:6  
李建平  袁永海 《化学学报》2006,64(3):261-265
利用FeSO4与FeCl3合成了超细磁性Fe3O4纳米颗粒, 并进一步利用该纳米颗粒与铁氰酸钾在酸性溶液(pH~2)中的化学反应成功制备了一种新型的磁性普鲁士蓝纳米颗粒; 研究了该磁性颗粒的磁学性能, 通过磁力将其修饰于固体石蜡碳糊电极表面制成了化学修饰电极, 考察了该电极对过氧化氢的电催化还原及对水合肼的电催化氧化特性. 该化学修饰电极可对过氧化氢和水合肼进行测定, 线性范围分别为过氧化氢2×10-6~5×10-3 mol/L, 水合肼7.2×10-7~3.6×10-4 mol/L. 利用磁性普鲁士蓝纳米颗粒制得的修饰电极具有催化性能高、稳定性好、表面易更新等优点.  相似文献   

7.
通过溶液浸渍蒸干过程实现了磷酸对Fe2O3纳米粒子的表面修饰, 研究了磷酸修饰对纳米Fe2O3的热稳定性及光催化活性的影响. 结果表明, 磷酸修饰显著提高了Fe2O3的热稳定性, 主要归因于磷酸修饰在样品表面抑制了粒子之间的团聚生长. 同时, 在光催化降解气相乙醛和液相苯酚的测试中, 磷酸修饰后热处理温度为600 ℃的样品表现出了最佳的可见光催化性能, 这主要归因于该样品具有高晶化度、 小粒子尺寸及大比表面积, 并且适量的修饰有利于其光催化性能的提高.  相似文献   

8.
Janus纳米粒子的结构设计和简易合成是Pickering乳液界面催化的关键. 本文通过在Pickering乳液保护法中操纵共轭亚油酸的自组装、 自交联性和弱还原性, 合成了Janus型自交联吸附胶束修饰的纳米Fe3O4 (SCA-Fe3O4), 并在其表面原位还原金后, 合成了Janus型催化剂Au-SCA-Fe3O4, 考察其同时作为乳化剂和催化剂在乳液界面催化苯甲醇氧化生成苯甲醛的性能. 结果表明, 该Janus纳米粒子的金修饰量(质量分数)仅为0.66%, 兼具乳化性、 催化性和磁响应性. Au-SCA-Fe3O4可制备外观稳定(100 μm)和热稳定(90 ℃)的苯甲醇/水型Pickering乳液, 可显著提高互不相溶反应物与催化剂间的接触面积, 使其催化活性达到均匀纳米催化剂的2倍和非乳液催化时的3倍, 其在界面的不可转动性使苯甲醛的选择性高于99.9%, 避免了苯甲醛被过度氧化成苯甲酸.  相似文献   

9.
通过电沉积方法分别在镀铂石英晶片和铂基底上制备了电活性铁氰化镍膜,并考察了膜电极在含钇离子溶液中的电控离子交换性能. 在0.1 mol·L-1的硝酸钇溶液中,使用循环伏安法及石英晶体微天平技术测试考察了铁氰化镍膜对钇离子的置入释放性能及对应的质量变化,同时比较了铁氰化镍膜电极在Y(NO3)3和Sr(NO3)2溶液中的电化学性能. 在0.1 mol·L-1 [Y(NO3)3 + Sr(NO3)2]混合溶液中,通过循环伏安法分析了薄膜对Y3+/Sr2+离子的选择性. 用扫描电子显微镜观察了铁氰化镍膜的表面形貌,并通过X射线光电子能谱仪测定了膜在氧化和还原状态下的元素组成. 结果表明,铁氰化镍膜在含Y3+溶液中具有良好的离子交换行为,其中氧化过程薄膜质量减少,对应着钇离子的释放;还原过程薄膜质量增加,对应钇离子的置入;在0.0 V或0.9 V调控膜电极的氧化还原状态实现对钇离子的有效分离.  相似文献   

10.
通过煅烧和静电自组装的方法制备了1T′ MoS2超薄纳米片和类石墨烯相氮化碳(g-C3N4)纳米片的复合材料. 该材料在光催化实验中展现出6.24 μmol?g?1?h?1的产氢速率, 优于贵金属铂修饰的g-C3N4纳米片的性能(4.64 μmol?g?1?h?1). 此外, 该复合材料在光催化降解有机染料甲基橙的实验中表现出0.19 min?1的催化速率, 而纯g-C3N4纳米片只有0.053 min?1的催化速率. 材料光催化性能的提升可归结于1T′MoS2 和g-C3N4之间的协同效应, 包括光吸收的增强以及因1T′MoS2优异电子导电性而得到的高效电荷分离.  相似文献   

11.
以尿素和钨酸铵为原料采用浸渍法制备了金属氧化物三氧化钨(WO3)与石墨相氮化碳(g-C3N4)异质结复合材料WO3/g-C3N4。采用XRD、UV-vis、SEM、PL和XPS表征手段考察了催化剂的理化性质,发现WO3与g-C3N4存在较好的相互作用和电子转移,保证了WO3/g-C3N4本身所具有较高的氧化脱硫活性。以WO3/g-C3N4作为催化剂,过氧化氢异丙苯为氧化剂,考察其光催化氧化脱硫性能,在反应温度80℃,O/S物质的量比为3.0的反应条件下,反应180 min,二苯并噻吩(DBT)转化率可以达到72.79%。通过游离基捕获实验,发现超氧自由基(·O2-)、电子(e-)、羟基自由基(·OH)起到了促进反应速率的作用,并对该体系的反应机理进行了探讨。  相似文献   

12.
采用原位自组装法分别制备纯CeO_2、WO_3和CeO_2-WO_3(CW)催化剂,并研究其NH_3选择性催化还原NO_x的催化活性。结果表明,WO_3的加入使得CW催化剂以微孔为主且具有最大的孔容和较大的比表面积,提高了其催化性能。WO_3的加入增强了Ce和W之间的相互作用,显著地提升了Ce~(3+)和O_α的含量。CW催化剂具有最多的酸性位点。因此,CW催化剂催化活性最好,在250-400℃温度下NO_x转化率为100%。  相似文献   

13.
We used the one-step hydrothennal controlled synthesis method for Co-Ni3S2 ultrathin nanosheets grown directly on nickel foam(NF).The as-synthesized Co-Ni3S2/NF showed eiilianced activities in the hydrogen evolution reaction(HER),oxygen evolution reaction(OER)and better overall water splitting(OWS)efficiency than the iin-doped Ni3S2/NF.the voltage of Co-Ni3S2/NF for OWS was only 1.58 V at the current density of 10 niA/cm^2 and with long time(>30 h)current output during the current-density(i-t)test.The good i-t pertonnance was also observed in both HER and OER processes.Additionally,the Co-Ni3S2/NF showed a large current density(>1A/cm^2)for both HER and OER.Wlien the current densities reached 100 and 1000 mA/cm^2,the required overpotentials tor Co-Ni3S2/NF were 0.35 and 0.75 V for OER and 0.30 and 0.85 V for HER.Therefore,after introducing Co,the activity of Ni3S2-based material was strongly enhanced.  相似文献   

14.
Cu/WO3-TiO2光催化剂上丙烯和二氧化碳合成MAA反应性能   总被引:1,自引:0,他引:1  
研究了Cu/WO3-TiO2对CO2和C3H6的吸附特性和光催化性能.结果表明,在Cu/WO3-TiO2催化剂表面存在金属位Cu,Lewis酸位W6+和Ti4+以及Lewis碱位W-O-Ti的桥氧和WO的端氧三类活性中心;在金属位Cu和Lewis酸位Ti4+(或W6+)的协同作用下,CO2形成活性较高的卧式吸附态Cu-(CO)-O→Ti4+(或W6+),C3H6的β-H和β-C分别吸附在Lewis碱位WO与金属位Cu上,形成Cu-(CH2)C(CH3)-H→OW吸附态;Cu/WO3-TiO2催化剂吸收阈值蓝移和光吸收量的提高均有利于其催化活性的提高,担载质量分数为10%的WO3光催化剂的催化活性优于其它含量的催化剂,光量子效率最高(19.7%);在383K,0.1MPa,空速200h-1和125W紫外灯辐照下,C3H6转化率为7.4%,甲基丙烯酸(MAA)的选择性超过95%.根据实验结果提出了光促表面催化合成反应的机理.  相似文献   

15.
采用水热法制备了CeO2-ZrO2-WO3(CZW)催化剂,考察了WO3含量对CZW催化剂上NH3选择性催化还原NOx性能的影响,并利用X射线衍射、N2吸附-脱附、H2程序升温还原、NH3和NO程序升温脱附等方法对其进行了表征。结果表明,WO3以无定形的形式存在于催化剂中,添加WO3后显著提高了催化剂的表面酸性,并且在CZW催化剂上出现了强吸附的NO物种,从而有利于提高催化剂的活性。另外,适量的WO3引入将增大催化剂的比表面积,促进催化剂的氧化还原性能,这将有利于提高SCR的催化活性。和CeO2-ZrO2催化剂相比,当WO3的含量为20%时,CZW催化剂表现出良好的抗硫性能。此外,当空速为60 000 h-1时,在200~463 ℃,该催化剂显示出了大于90% NOx转化率。  相似文献   

16.
The threat and global concern of energy crises have significantly increased over the last two decades. Because solar light and water are abundant on earth, photocatalytic hydrogen evolution through water splitting has been considered as a promising route to produce green energy. Therefore, semiconductor photocatalysts play a key role in transforming sunlight and water to hydrogen energy. To date, various photocatalysts have been studied. Among them, TiO2 has been extensively investigated because of its non-toxicity, high chemical stability, controllable morphology, and high photocatalytic activity. In particular, 1D TiO2 nanofibers (NFs) have attracted increasing attention as effective photocatalysts because of their unique 1D electron transfer pathway, high adsorption capacity, and high photoinduced electron–hole pair transfer capability. However, TiO2 NFs are considered as an inefficient photocatalyst for the hydrogen evolution reaction (HER) because of their disadvantages such as a large band gap (~3.2 eV) and fast recombination of photoinduced electron–hole pairs. Therefore, the development of a high-performance TiO2 NF photocatalyst is required for efficient solar light conversion. In recent years, several strategies have been explored to improve the photocatalytic activity of TiO2 NFs, including coupling with narrow-bandgap semiconductors (such as ZnIn2S4). Recently, microwave (MW)-assisted synthesis has been considered as an important strategy for the preparation of photocatalyst semiconductors because of its low cost, environment-friendliness, simplicity, and high reaction rate. Herein, to overcome the above-mentioned limiting properties of TiO2 NFs, we report a 2D/1D ZnIn2S4/TiO2 S-scheme heterojunction synthesized through a microwave (MW)-assisted process. Herein, the 2D/1D ZnIn2S4/TiO2 S-scheme heterojunction was constructed rapidly by using in situ 2D ZnIn2S4nanosheets decorated on 1D TiO2 NFs. The loading of ZnIn2S4 nanoplates on the TiO2 NFs could be easily controlled by adjusting the molar ratios of ZnIn2S4 precursors to TiO2 NFs. The photocatalytic activity of the as-prepared samples for water splitting under simulated solar light irradiation was assessed. The experimental results showed that the photocatalytic performance of the ZnIn2S4/TiO2 composites was significantly improved, and the obtained ZnIn2S4/TiO2 composites showed increased optical absorption. Under optimal conditions, the highest HER rate of the ZT-0.5 (molar ratio of ZnIn2S4/TiO2= 0.5) sample was 8774 μmol·g-1·h-1, which is considerably higher than those of pure TiO2 NFs (3312 μmol·g-1·h-1) and ZnIn2S4nanoplates (3114 μmol·g-1·h-1) by factors of 2.7 and 2.8, respectively. Based on the experimental data and Mott-Schottky analysis, a possible mechanism for the formation of the S-scheme heterojunction between ZnIn2S4 and TiO2 was proposed to interpret the enhanced HER activity of the ZnIn2S4/TiO2heterojunctionphotocatalysts.   相似文献   

17.
采用溶胶-凝胶法制备了不同含量钨修饰的MnOx-Fe2O3催化剂,重点考察WO3的引入对NH3-SCR反应中N2选择性的影响,通过XRD、BET、XPS、H2-TPR、Raman和In situ DRIFTS等手段对催化剂的物理化学性质进行表征。结果表明,钨的引入显著提高NH3-SCR的N2选择性,当WO3质量分数为15%时,具有最佳的NH3-SCR催化性能,且在50-250℃条件下N2O浓度始终低于0.003%。这主要是由于适量WO3的引入,导致催化剂物相由α-Fe2O3向γ-Fe2O3转变,并与锰相互作用形成新的无定型MnWO4,获得较大的比表面积;使得Mn4+/(Mn3++Mn4+)比例减少但Fe2+及表面化学吸附氧(Oα)含量增加,从而降低催化剂氧化性;增强催化剂表面的Lewis酸性位点的含量及强度,增强NH3的吸附,促进了SCR反应,同时抑制了NO2深度氧化形成硝酸盐物种,降低硝酸盐物种还原产生的副产物N2O含量,从而显著提高WO3-MnOx-Fe2O3催化剂在NH3-SCR中的N2选择性。  相似文献   

18.
以SBA-15、六角介孔二氧化硅(HMS)和SnO2为载体,通过浸渍法合成了含钨负载型催化剂,并考察了三种催化剂在环氧环己烷选择氧化制备己二酸反应中的催化性能.通过X射线衍射(XRD),透射电镜/场发射透射电镜(TEM/FETEM),紫外-可见漫反射光谱(UV-Vis DRS),拉曼(Raman)光谱,X射线光电子能谱(XPS)以及傅里叶变换红外(FTIR)光谱等手段对各种催化剂的结构进行表征.结果表明,载体与催化剂的性能有密切的关系.以SnO2为载体的WO3/SnO2催化剂活性最高,其次是WO3/HMS催化剂,WO3/SBA-15催化剂的活性最差.XRD分析显示WO3/SnO2催化剂中氧化钨物种的晶化程度最低,TEM和XPS结果表明氧化钨物种在WO3/SnO2催化剂表面高度分散并且粒径尺寸很小(约2 nm),UV-Vis DRS结果表明在WO3/SnO2催化剂中存在孤立[WO4]四面体和低聚态的钨物种,这些物种的存在可能是WO3/SnO2催化剂具有高活性的主要原因.此外,WO3/SnO2催化剂可以重复使用多次,6次反应后己二酸(AA)得率仍然保持在80%以上,说明氧化钨物种与SnO2载体间存在强烈的相互作用,从而提高了催化剂的稳定性.  相似文献   

19.
With the advancement of nanomaterials for surface-enhanced Raman scattering(SERS) detection, a deeper understanding of the chemical mechanism(CM) and further applications has been achieved. Herein, we prepared a porous tungsten trioxide(WO3) film by the pulse electrodeposition method, and constructed a WO3 film SERS aptasensor. With methylene blue(MB) as the adsorption molecule, the developed WO3 film SERS aptasensor revealed remarkable Raman activity. Through experimental data and theoretical calculations, we found that the significant SERS enhancement[enhancement factor(EF)=1.5×106] was due to the CM based on charge transfer and molecular resonance. Utilizing the Raman response of MB on the WO3 film and specific aptamers, we successfully developed the aptamer sensor by covalently attaching the MB modified aptamer to the WO3 film. The sensor realized the specific and sensitive determination of vascular endothelial growth factor(VEGF) with the detection limit down to 8.7 pg/mL. In addition, the developed aptasensor indicated the excellent selectivity among other interferences, such as metal ions, reactive oxygen species(ROS), and proteins. This WO3 film SERS aptasensor not only contributed to the study of the enhancement mechanism of semiconductor material, but also provided a powerful platform for the sensitive detection of VEGF, possessing a great potential in the real-time monitoring of biomarkers of glioblastoma in vitro.  相似文献   

20.
HeterojunctionFe_2O_3 nanoparticles(NPs), NiFe_2O_4 nanofibers(NFs), and CoFe_2O_4 NFs were synthesized by electrospinning and the subsequent thermal treatment processes. Characterization results indeed display the three-dimensional net-like textural structures of these as-electrospun spinel-type MFe_2O_4 NFs. The MFe_2O_4 NFs-based film configurations possess abundant micro/meso/macropores on their surface. These structures could afford more accessible transport channels for effective reduction of the mass transport resistance and improvement of the density of exposed catalytic active sites. All these advantages are responsible for the enhanced electro-catalytic performance of these MFe_2O_4 NFs in hydrazine oxidation. When used for hydrazine detection, CoFe_2O_4 NFs show the best catalytic efficiency.For example, the CoFe_2O_4 NFs possess a large sensitivity of 1327 mA cmà2(mmol Là1[à1in the linear range of 0.01 to 0.1 mmol Là1and 503 mA cmà2(mmol Là1)à1in the linear range of 0.1 to 11 mmol Là1, a response time of shorter than 3 s, good reproducibility and remarkable long-term stability. The superior catalytic efficiency, excellent stability, low cost, and ease of fabrication render CoFe_2O_4 NFs very promising materials in developing an electrochemical device that directly detects hydrazine.  相似文献   

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