Gliding arc discharge in combination with Cu/Cu_(2)O electrocatalysis for ammonia production

Highly efficient and green ammonia production is an important demand for modern agriculture.In this study,a two-step ammonia production method is developed using a gliding arc discharge in combination with Cu/Cu_(2)O electrocatalysis.In this method,NO_(x)is provided by the gliding arc discharge and then electrolyzed by Cu/Cu_(2)O after alkaline absorption.The electrical characteristics,the optical characteristics and the NO_(x)production are investigated in discharges at different input voltage and the gas flow.The dependence of ammonia production through Cu/Cu_(2)O electrocatalysis on pH value and reduction potential are determined by colorimetric method.In our study,two discharge modes are observed.At high input voltage and low gas flow,the discharge is operated with a stable plasma channel which is called the steady arc gliding discharge mode(A-G mode).As lowering input voltage and raising gas flow,the plasma channel is destroyed and high frequency breakdown occurs instead,which is known as the breakdown gliding discharge mode(B-G mode).The optimal NO_(x)production of 7.34 mmol h^(-1)is obtained in the transition stage of the two discharge modes.The ammonia yield reaches0.402 mmol h^(-1)cm^(-2)at pH value of 12.7 and reduction potential of-1.0 V versus reversible hydrogen electrode(RHE).

Characterization and performance of Cu/ZnO/Al_2O_3 catalysts prepared via decomposition of M(Cu,Zn)-ammonia complexes under sub-atmospheric pressure for methanol synthesis from H_2 and CO_2

Methanol synthesis from hydrogenation of CO2 is investigated over Cu/ZnO/Al2O3 catalysts prepared by decomposition of M（Cu,Zn）-ammonia complexes （DMAC） at various temperatures.The catalysts were characterized in detail,including X-ray diffraction,N2 adsorption-desorption,N2O chemisorption,temperature-programmed reduction and evolved gas analyses.The influences of DMAC temperature,reaction temperature and specific Cu surface area on catalytic performance are investigated.It is considered that the aurichalcite phase in the precursor plays a key role in improving the physiochemical properties and activities of the final catalysts.The catalyst from rich-aurichalcite precursor exhibits large specific Cu surface area and high space time yield of methanol （212 g/（Lcat·h）;T=513 K,p=3MPa,SV=12000 h-1）.

Catalytic transfer hydrogenation of levulinate ester intoγ-valerolactone over ternary Cu/ZnO/Al2O3 catalyst

An effective catalytic transfer hydrogenation (CTH) process of bio-based levulinate esters into γ-valerolactone (GVL) was explored over ternary Cu/ZnO/Al2O3 catalyst which was prepared by coprecipitation method and could be sustainably used. As a result, quantitative conversion of ethyl levulinate (EL) and 99.0% yield of GVL were obtained in the CTH process using i-PrOH as hydrogen donor. The Cu/ZnO/Al2O3 catalyst with high-surface-area could be reused at least four times without the loss of catalytic activity. Furthermore, the structure and properties of Cu/ZnO/Al2O3 catalyst was characterized through XRD, BET, SEM, TEM and H2-TPR. Also, the influence of different support oxides and calcination temperatures was investigated.

Low-Temperature Denitrification Performance of Cu2O/Activated Carbon Catalysts for Selective Catalytic Reduction of NOx by CO

To improve the denitrification performance of carbon-based materials for sintering flue gas,we prepared a composite catalyst comprising coconut shell activated carbon(AC)modified by thermal oxidation air.The microstructure,the specific surface area,the pore volume,the crystal structure,and functional groups presented in the prepared Cu2O/AC catalysts were thoroughly characterized.By using scanning electron microscopy(SEM),nitrogen adsorption/desorption isotherms,Fourier-transform infrared(FTIR)spectroscopy and X-ray diffractometry(XRD),the effects of Cu2O loading and calcination temperature on Cu2O/AC catalysts were investigated at low temperature(150℃).The research shows that Cu on the Cu2O/AC catalyst is in the form of Cu2O with good crystalline performance and is spherical and uniformly dispersed on the AC surface.The loading of Cu2O increases the active sites and the specific surface area of the reaction gas contact,which is conducive to the rapid progress of the carbon monoxide selective catalytic reduction(CO-SCR)reaction.When the loading of Cu2O was 8%and the calcination temperature was 500℃,the removal rate of NOx facilitated by the Cu2O/AC catalyst reached 97.9%.These findings provide a theoretical basis for understanding the denitrification of sintering flue gas.

Cu_2O/TiO_2催化甲醛乙炔化反应的载体效应

以不同温度焙烧的TiO_2为载体,CuCl_2·2H_2O为铜源,NaOH为沉淀剂,L-抗坏血酸钠为还原剂,采用液相还原-沉积沉淀法制备了Cu_2O/TiO_2,借助X射线粉末衍射(XRD)、H_2程序升温还原(H_2-TPR)、N_2-物理吸附、透射电镜(TEM)、X射线光电子能谱(XPS)等手段,研究了TiO_2载体焙烧温度对Cu_2O/TiO_2甲醛乙炔化反应性能的影响。结果表明,低温焙烧得到的TiO_2载体以锐钛矿相存在,与Cu_2O物种间具有弱的相互作用,使得Cu_2O被过度还原为金属Cu,催化活性较低。随着载体焙烧温度的升高,TiO_2中出现金红石相,Cu_2O与载体间相互作用增强,Cu_2O高效转变为乙炔亚铜活性物种,使催化剂表现出最佳的催化性能。

纳米TiO_2/Cu_2O复合物的可见光降解活性艳红和分解水制氢的机理

采用溶胶-凝胶法和化学沉积法制备纳米TiO2/Cu2O复合粉体。可见光光催化实验结果表明:TiO2/Cu2O复合粉体具有较高的可见光降解活性和分解水制氢性能。根据TiO2和Cu2O的导带和价带位置以及TiO2、Cu2O和TiO2/Cu2O复合粉体的可见光光催化实验结果,提出TiO2/Cu2O复合粉体的可见光光催化机理:在可见光照射下,Cu2O导带上产生的电子转移到TiO2的导带上,Ti4+捕获这些电子后成为Ti3+,这些被捕获的电子具有很长的寿命,能转移到复合粉体和溶液的界面。在光降解活性艳红的过程中,这些电子与吸附氧结合后可最终形成过氧化物自由基或氢氧自由基,从而氧化有机物;而在分解水制氢过程中,这些电子与H+结合后可形成H2。光照后TiO2/Cu2O复合粉体的XPS表征显示Ti3+的存在,证明机理理论的正确性。

纳米TiO_2-Cu_2O可见光下光催化降解活性艳红及其机理研究

采用钛酸丁酯水解和肼还原醋酸铜的方法制备出TiO2-Cu2O复合氧化物,研究了TiO2-Cu2O复合光催化剂在可见光照射下光催化降解活性艳红X-3B的性能,考察了催化剂组成、催化剂投加量、溶解氧、H2O2等对光催化反应的影响,探讨了Cu2O及TiO2-Cu2O光催化降解有机污染物的机理。结果表明,由于TiO2和Cu2O之间存在协同作用,使得复合氧化物的活性比单一的Cu2O高。Cu2O光催化的氧化物种为·OH和光生空穴。光生电子(e-)还原吸附在Cu2O表面上的氧,产生超氧阴离子,然后再进一步生成·OH,光生空穴(h+)无法直接将吸附在Cu2O表面的OH-氧化成·OH。

Cu_2O/TiO_2光催化降解罗丹明B工艺条件的研究

采用负载型催化剂Cu2O/TiO2，以太阳光为光源，研究了其对可溶性染料罗丹明B的降解情况。主要考察了催化剂投加量，H202投加体积分数，溶液的酸度和反应物初始浓度等条件对罗丹明B催化降解过程的影响，从而研究催化降解的工艺条件。结果表明：Cu2O/TiO22对罗丹明B有较好的降解效果，其最佳工艺条件为：催化剂用量为1g/L，H2O2投加体积分数为1．5％，pH为5-7。此条件下，10min就能使5mg/L的罗丹明B溶液达到96％的降解率。

TiO_2/Cu_2O复合光催化剂的制备及表征

通过浸渍-还原法,在不同Cu2+/Ti 4+摩尔比下制备TiO2/Cu2O复合光催化剂,通过X射线衍射(XRD)、扫描电镜(SEM)、紫外可见漫反射(UV-DRS)等手段对TiO2/Cu2O复合光催化剂进行了表征。在可见光照射下,研究TiO2/Cu2O复合光催化剂对水中难降解有机污染物甲基橙的光催化降解效果。结果表明,氙灯照射下,TiO2/Cu2O复合光催化剂与单纯的纳米TiO2(P25)相比,光催化降解效果得到明显的提高。Cu2+/Ti 4+摩尔比1∶2时制备的TiO2/Cu2O复合光催化剂具有最好的光催化降解效果。

Cu_2O/TiO_2/Pt复合薄膜的制备及其性能

为了降解环境污染物,通过磁控溅射的方法在玻璃基底上溅射沉积Cu2O/TiO2/Pt复合薄膜。采用X射线衍射仪(XRD)、扫描电子显微镜(SEM)、紫外可见分光光谱仪(UV-vis)和光致发光光谱仪(PL)对复合薄膜的表面形貌和光学性能进行分析。通过可见光下对甲基橙溶液的光催化降解试验研究了薄膜的光催化活性。结果表明:Cu2O/TiO2/Pt复合薄膜共有3层,从下到上依次为Pt层、锐钛矿型TiO2层和Cu2O层。薄膜表面平整致密,由形状规则的球形颗粒组成。Cu2O/TiO2/Pt复合薄膜的光催化活性高于Cu2O/TiO2复合薄膜的和纯TiO2薄膜的光催化活性。光催化活性的提高是由于Pt层的存在进一步抑制了光生电子与空穴的复合,延长了光生载流子的寿命,提高了量子产率,进而有效地改善了薄膜的光催化活性。

Cu/TiO_2-NiO上光促表面催化CO_2和H_2O合成CH_3OH反应规律

采用溶胶-凝胶法制备了n(电子型)-p(空穴型)复合半导体材料0.5%Cu/TiO2-2.0%NiO(w),利用X射线衍射(XRD)、透射电镜(TEM)、红外光谱(IR)、紫外-可见光漫反射(UV-Vis)、程序升温脱附(TPD)技术对材料结构、吸光性能、化学吸附性能进行了表征,研究了该材料对CO2和H2O合成CH3OH的光促表面催化反应(PSSR)规律.结果表明,所制备材料能够明显促进目的反应,室温条件下即有CH3OH生成.在200℃下,由于光-表面-热的协同效应,CO2转化率得以提高,且CH3OH的选择性达到87.5%.根据实验结果,得出CO2在材料表面的卧式吸附态为CH3OH的前驱物,并对PSSR机理进行了讨论.

能量过滤磁控溅射技术制备Cu2O/TiO2复合薄膜及其光催化性能

目的制备具备良好光催化性能的Cu2O/TiO2叠层复合薄膜。方法利用直流磁控溅射技术(DMS)和能量过滤直流磁控溅射技术(EFMS)在玻璃基底上制备Cu2O/TiO2叠层复合薄膜,利用扫描电镜(SEM)、X射线衍射(XRD)、椭偏仪和光催化测试系统表征和分析了薄膜的表面形貌、结构、透射率和光催化性能。结果DMS技术和EFMS技术制备的TiO2和Cu2O薄膜都有良好的结晶特性,其中TiO2为单一的锐钛矿结构。相对于DMS技术制备的Cu2O薄膜,EFMS样品中的Cu2O薄膜的衍射峰较弱,而且衍射峰的宽度变宽,衍射曲线比较平滑。薄膜表面较平整,颗粒均匀,较细小,边界明显。DMS和EFMS两种技术制备的薄膜的平均晶粒直径分别为15.4 nm和10.8 nm。透射光谱测试结果表明,EFMS技术制备的复合薄膜平均透射率较大,在350~800 nm范围内,平均透射率为0.388,DMS薄膜的值为0.343。对罗丹明B(RhB)的光催化降解结果表明,EFMS技术制备的薄膜的降解速率为−0.00411,大于DMS技术制备的薄膜的降解速率-0.00334。结论EFMS技术制备的Cu2O/TiO2叠层复合薄膜对罗丹明B具有较大的光催化降解速率。

纳米TiO_2/Cu_2O光催化降解活性艳红X-3B的研究

采用溶胶-凝胶法制备了纳米TiO_2,合成了TiO_2/Cu_2O复合光催化剂,并对合成的TiO_2和TiO_2/Cu_2O进行SEM和XRD表征。在高压汞灯照射下,采用TiO_2/Cu_2O复合光催化剂对活性艳红X-3B进行光催化降解反应,考察了n(Ti^(4+))∶n(Cu^(2+))、pH、反应温度等因素的影响。结果表明,在高压汞灯照射下,与纳米TiO_2相比,TiO_2/Cu_2O的光催化降解效果得到明显提高。以0.01gTiO_2/Cu_2O复合物为光催化剂,在高压汞灯照射下,降解100mL20mg/L的活性艳红X-3B溶液,起始pH为1,水浴温度为60℃,反应60min,活性艳红X-3B最佳降解率为83.6%。

TiO_2-α-Fe_2O_3复合材料的制备及对水体中Cu(Ⅱ)离子的净化

以氯化亚铁为铁源,通过水热合成方法制备了FeOOH,再以FeOOH为基底,钛酸丁酯为钛源,通过水热合方法制备TiO_2-α-Fe_2O_3复合材料,并利用XRD和SEM对所制备的TiO_2-α-Fe_2O_3复合材料进行了表征.研究了TiO_2-α-Fe_2O_3复合材料对水体中Cu(Ⅱ)离子的吸附性能,考察了Cu(Ⅱ)离子的初始浓度、Cu(Ⅱ)离子溶液的p H值、反应时间等条件对TiO_2-α-Fe_2O_3复合材料吸附性能的影响,并阐述了TiO_2-α-Fe_2O_3复合材料对Cu Ⅱ离子的吸附机理.结果表明:TiO_2-α-Fe_2O_3复合材料是1种有效的Cu(Ⅱ)离子吸附剂,对Cu(Ⅱ)离子能快速吸附并达到吸附平衡.同时TiO_2-α-Fe_2O_3复合材料中含有具有磁性的-Fe2O3,通过外加磁场,可以达到快速回收的目的,无需高速离心分离粉末,能节约能耗,降低分离成本,因此可作为1种有前景的功能分离材料应用于重金属离子废水的处理.

光促CO_2和H_2O在Cu/TiO_2-NiO上的表面反应

采用溶胶 凝胶法制备了n p复合半导体材料Cu/TiO2 NiO ,并用TG DTA和TPR方法进行了前驱体的表征 ;利用XRD ,TEM ,UV Vis技术测试了材料的晶态结构和吸光性能 ;CO2 和H2 O的光促表面催化反应 (PSSR)实验结果表明 ,所制备的Cu/TiO2 NiO能够明显促进二者的反应 ,室温条件下有CH3OH、CH4 和CO生成 ,其中对CH3OH的选择性较高 ,材料组分配比对PSSR有显著影响 ,在质量分数为 0 5 0 %Cu/TiO2 2 0 %NiO上获得了最高CO2

纳米TiO_2负载CuMnOx对二甲苯完全燃烧的催化性能研究

以金红石型纳米TiO2为载体,采用等体积浸渍法制备了负载型CuMnOx/TiO2催化剂,研究了其对易挥发性有机物二甲苯完全燃烧反应的催化活性。结果表明,控制锰铜质量比为1∶1和锰铜负载量为20%(质量分数)时,经500℃焙烧2h制备的催化剂具有良好的催化活性,二甲苯催化燃烧的起燃温度(T10%)和完全燃烧温度(T95%)分别为155℃和270℃。由X射线衍射(XRD)分析结果得出,催化剂的主要活性相是类尖晶石Cu1.5Mn1.5O4,纳米TiO2载体对活性相有很好的分散作用,其晶粒小,使得CuMnOx/TiO2催化剂的活性高。

累托石/TiO_2/Cu_2O三元纳米复合材料的制备及其表征

采用低温液相法以醋酸铜和自制的TiO2/累托石光催化材料为原料,以葡萄糖为还原剂,在乙醇/聚乙二醇/H2O三相溶液体系中首次合成了累托石-TiO2-Cu2O三元复合光催化材料。并用扫描电镜(SEM)、X射线粉末衍射(XRD)、紫外-可见漫反射吸收(UV-Vis)技术对复合材料进行分析,结果表明该方法制备的复合材料既能实现TiO2、Cu2O的固载和复合,同时能显著增强半导体光催化剂对可见光的吸收性能。

TiO_2改性的γ-Al_2O_3负载Cu催化剂上CO_2加氢合成甲醇的研究

在固定床高压微反装置上 ,系统研究了TiO2 改性的γ -Al2 O3 负载Cu催化剂的CO ,CO2 加氢反应 .活性评价结果表明 ,TiO2 的添加极大地促进了Cu/γ Al2 O3 催化剂的CO2 加氢合成甲醇反应的活性 ,但是对CO加氢合成二甲醚有抑制作用 ,这表明CO2 。

IN-SITU HVEM STUDY ON PHASE TRANSITION OF YBa_2Cu_3O_(7-x) SUPERCONDUCTING COMPOUND IN PROCESS OF HEATING

In-situ HVEM observation on phase transition of the YBa_2Cu_3O_(7-x) superconducting compound in pro- cess of heating was carried out,and high temperature X-ray diffraction analysis in air and X-ray diffraction phase analysis for the sample treated in vacuum condition were made.The results showed that the temperature of phase transition is related to oxygen content in the sample and in general,is 100℃ to 120℃ lower in vacu- um condition than in air.At 320℃ to 350℃ twin bands begin to disappear,and some Cu_2O are formed on the surface of the sample and transit from orthorhombic YBa_2Cu_3O_(7-x) to arthorhombic Y_2BaCuO_5 compound. This transition was completed at about 500℃.Above 900℃,this compound consists of the Y_2BaCuO_5, BaCuO_2,Y_2O_3 and some other minor compounds.No phase transition was observed during cooling the sample.

紫外光还原法制备Cu_2O/TiO_2及其光催化性能

以氯化铜(CuCl2·2H2O)为铜源,TiO2纳米粒子为载体,采用紫外光还原法,60℃干燥后制备Cu2O/TiO2复合物。使用XRD、TEM、SEM以及EDS对其进行表征,并采用紫外-可见吸收光谱探究了由氯化铜到铜颗粒的还原过程。结果表明:60℃干燥紫外光还原所得产物可以得到Cu2O/TiO2复合物,TiO2表面Cu2O粒子高度分散,粒径约为3nm,尺寸均一。通过调节Cu2O负载量,探索Cu2O负载量对可见光照射降解罗丹明B的影响,结果表明:Cu2O负载量较高的Cu2O/TiO2对罗丹明B降解作用明显。