镍掺杂四氧化三钴纳米线阵列的制备及其超级电容特性

采用直流电化学沉积与高温氧化相结合的合成方法, 在氧化铝模板的辅助下, 成功制备了一种新颖的Ni掺杂的Co₃O₄纳米线阵列, 利用X射线衍射仪、扫描电镜和高分辨透射电镜等对所制备的纳米线阵列的物相和形貌进行了表征, 结果表明：所制备的Ni掺杂Co₃O₄纳米线形貌和尺寸均匀、垂直于基底排列, 纳米线的平均直径约为80 nm, 长度约为1.4 μm, 整个纳米线由纳米颗粒堆积而成, 其中Co : Ni的比例约为20 : 1。利用循环伏安和恒流充放电技术在2 mol/L的KOH电解液中对材料的电化学性能进行了测试, 结果显示所制备的纳米线阵列具有优异的电化学电容特性, 当电流密度为10 mA/cm²时, 纳米线阵列的面积比电容为173 mF/cm², 经过1000次充放电后, 比电容值仍能保持最初值的98%, 表现出良好的循环稳定性。优异的性能可归因于材料的比表面积较大以及镍掺杂后材料导电特性的提高。     

钴酸镍空心球的合成及其抗坏血酸电化学敏感性能

本文以氧化亚铜小球为模板,采用简单温和的化学方法成功刻蚀制备出了钴酸镍空心球。通过多种表征手段对样品的形貌及组成进行了表征,结果表明,钴酸镍为空心结构并保持了氧化亚铜的形貌,粒径约为350nm,具有多晶的特征。将该材料修饰的电极应用到抗坏血酸电化学传感器中,测试结果表明,其对抗坏血酸的检测极限为3×10-7 M(S/N=3),线性相关系数为0.9993,线性检测范围为0.1~3mM,灵敏度高达1148.7μA·mM-1·cm-2,并具有良好的选择性。     

NiCo/ PTFE 复合膜的制备及表征

以N₂H₄ 为还原剂, 采用化学镀和模板技术相结合的方法制备出NiCo/ PTFE 磁性复合膜。研究了磁性复合膜制备的适宜条件, 利用DSC、SEM、XRD、VSM 等手段对膜的结构和磁性能进行表征和测试。结果表明:在Co2+ 0. 14 mol/ L 、Ni2+ 0. 06 mol/ L 、NaOH 1. 00 mol/ L 、N₂H₄ 0. 40 mol/ L 、反应温度70 ℃、反应时间70 min条件下制备的NiCo/ PTFE 磁性复合膜具有较优良的磁性能, 其单位质量磁化率χ_m = 0116 cm3 / g , 饱和磁化强度M_s = 83. 38 Am2 / kg , 剩磁M_r = 29. 31 Am2 / kg , 矫顽力H_c = 111. 47 Oe ; PTFE 膜孔中及膜表面上原位生成与基膜无化学键作用的磁性Ni 、Co 金属粒子。复合膜具有软磁材料的内禀性能。      

Photochemical mineralization of di-n-butyl phthalate with H2O2/Fe3+

This study evaluated the performance of photo-Fenton reaction initiated by the UV irradiation with H(2)O(2)/Fe(3+), denoted as UV/H(2)O(2)/Fe(3+), to decompose di-n-butyl phthalate (DBP) in the aqueous solution. The concentration of total organic carbon (TOC) was chosen as a mineralization index of the decomposition of DBP by the UV/H(2)O(2)/Fe(3+) process. A second-order kinetic model with respect to TOC was adequately adopted to represent the mineralization of DBP by the UV/H(2)O(2)/Fe(3+) process. The experimental results of this study suggested that the dosages with 4.74 x 10(-5) mol min(-1)L(-1) H(2)O(2) and initial Fe(3+) loading concentration of 4.50 x 10(-4) mol L(-1) in the solution at pH 3.0 with 120 microW cm(-2) UV (312 nm) provided the optimal operation conditions for the mineralization of DBP (5 mg L(-1)) yielding a 92.4% mineralization efficiency at 90 min reaction time.     

Fe3O4 magnetic nanoparticles as peroxidase mimetics and their applications in H2O2 and glucose detection

Artificial enzyme mimetics are a current research interest because natural enzymes bear some serious disadvantages, such as their catalytic activity can be easily inhibited and they can be digested by proteases. A very recently study reported by Yan et al. has proven that Fe(3)O(4) magnetic nanoparticles (MNPs) exhibit an intrinsic enzyme mimetic activity similar to that found in natural peroxidases, though MNPs are usually thought to be biological and chemical inert (Gao, L. Z.; Zhuang, J.; Nie, L.; Zhang, J. B.; Zhang, Y.; Gu, N.; Wang, T. H.; Feng, J.; Yang, D. L.; Perrett, S.; Yan, X. Y. Nat. Nanotechnol. 2007, 2, 577-583). In the present work, we just make use of the novel properties of Fe(3)O(4) MNPs as peroxidase mimetics reported by Yan et al. to detect H(2)O(2). The Fe(3)O(4) MNPs were prepared via a coprecipitation method. The as-prepared Fe(3)O(4) MNPs were then used to catalyze the oxidation of a peroxidase substrate 2,2'-azino-bis(3-ethylbenzo-thiazoline-6-sulfonic acid) diammonium salt (ABTS) by H(2)O(2) to the oxidized colored product (see eq 1) which provides a colorimetric detection of H(2)O(2). As low as 3 x 10(-6) mol/L H(2)O(2) could be detected with a linear range from 5 x 10(-6) to 1 x 10(-4) mol/L via our method. More importantly, a sensitive and selective method for glucose detection was developed using glucose oxidase (GOx) and the as-prepared Fe(3)O(4) MNPs. The detection platforms for H(2)O(2) and glucose developed in the present work not only further confirmed that the Fe(3)O(4) MNPs possess intrinsic peroxidase-like activity but also showed great potential applications in varieties of simple, robust, and easy-to-make analytical approaches in the future.     

“一步法”合成NiCo_2S_4纳米阵列高性能能量存储器件电极的研究

通过简单的"一步低温原位合成"法成功制备出了以泡沫镍为基底的具有自支撑结构的分层三维网络的NiCo_2S_4纳米阵列,采用SEM、XRD对产物的微观结构进行表征,并对其进行电化学性能测试。结果表明,由于这种独特的分层网络结构,该NiCo_2S_4纳米阵列不仅能够为能量存储提供大量的电化学活性位点,而且拥有良好的电子传递性能,NiCo_2S_4@泡沫镍电极在20 m A/cm~2的电流密度下,面积比电容可达到10.15 F/cm~2,且当电流密度增大到100 m A/cm~2时,面积电容仍然为7.29 F/cm~2,显示出优异的电容保持率;当NiCo_2S_4负载量是14.8 mg时,电流密度为20 m A/cm~2,充放电5 000次,电容保持率是72.5%,显示出NiCo_2S_4@泡沫镍电极良好的循环稳定性。     

Electrochemical treatment of paper mill wastewater using three-dimensional electrodes with Ti/Co/SnO2-Sb2O5 anode

The properties of the interlayer and outer layer of Ti/Co/SnO2-Sb2O5 electrode were studied, and the electrochemical behavior was examined as well. As a result of unsatisfactory treatment using Ti/Co/SnO2-Sb2O5 electrode, electrochemical disposal of paper mill wastewater employing three-dimensional electrodes, combining active carbon granules serving as packed bed particle electrodes, with Ti/Co/SnO2-Sb2O5 anode, was performed. The outcome demonstrates that efficient degradation was achieved. The residual dimensionless chemical oxygen demand (COD) concentration reached 0.137, and color removal 75% applying 167 mA cm(-2) current density at pH 11 and 15 g l(-1) NaCl. The instant current efficiency, energy cost, electrochemical oxidation index (EOI) and kinetic constant of the reaction were calculated. At the same time, the influence of pH and current density on COD abatement and decolorization was also investigated, respectively.     

NiCo_2O_4微球的制备及其电化学性能

通过简单的水热法以及后续热处理,成功合成介孔NiCo_2O_4微球。利用FESEM、TEM、XPS和电化学工作站对样品的表面形貌、元素价态和电化学性能进行表征。结果表明:合成的NiCo_2O_4拥有丰富的多孔纳米针状结构,表现出较高的比表面积。由于这种三维多孔纳米结构,当NiCo_2O_4微球作为电极材料时,展现出优异的电容特性,在1A·g-1的电流密度下比电容高达1 554F·g-1,而且当电流密度增加到20A·g-1时,电容保持率为87.5%。另外,在5A·g-1的电流密度下,经过2 000次的充放电循环后,比电容仍能保持初始电容的90.4%。良好的电化学性能表明,NiCo_2O_4微球是一种理想的超级电容器电极材料。     

CV和Tafel曲线对稀土掺杂Ti/SnO2-Sb电极电催化性能研究

采用热分解法制备了稀土Dy、Nd、Eu及Gd掺杂Ti/SnO2-Sb电极,以苯酚为目标有机物,研究了所制备电极降解有机物的性能.在500 mg/L苯酚溶液中进行了所制备电催化电极的循环伏安(CV)特性分析,研究发现4种稀土(Dy、Nd、Eu和Gd)掺杂电极中苯酚在Nd掺杂Ti/SnO2-Sb(Ti/SnO2-Sb-Nd)电极上的直接氧化的峰电流最高,为4.46 mA/cm2.在0.5 mol/L的H2SO4溶液中进行了Tafel曲线测试,4种稀土掺杂Ti/SnO2-Sb电极的析氧电位分别为2.293、2.313、2.277、2.263 V(vs.Ag/AgCl).结果表明,所制备的4种稀土掺杂电极降解苯酚的性能与采用CV和Tafel曲线方法分析的结果一致,可以采用电化学方法评价电极的电催化氧化性能.     

Metal-organic framework derived hierarchical NiCo2O4 triangle nanosheet arrays@SiC nanowires network/carbon cloth for flexible hybrid supercapacitors

To overcome the disadvantages of traditional powder electrodes,such as the insufficient performance,the aggregation of active materials,and the complex fabrication process,rationally constructing free-standing electrode materials with hierarchical architecture is an effective and promising method,which could further improve the electrochemical properties.Herein,using metal-organic framework nanoar-rays (MOFNAs) as self-sacrificial templates and SiC nanowires (SiCNWs) network as nanoscale conductive skeletons,we successfully fabricated the hierarchical core-shell SiCNws@NiCo2O4NAs on carbon cloth (CC)substrate.Taking advantages of structural merits,such as hierarchical porous triangle-like NiCo2O4NAs,the interwoven SiCNWs network and conductive CC substrate,when evaluated as a binder-free superca-pacitor electrode,the CC/SiCNWs@NiCo2O4NAs shows a high specific capacitance of 1604.7 F g-1 (specific capacity of 222.9 mA h g-1) at 0.5 A g 1,good rate performance,and excellent cycling stability.Signifi-cantly,the hybrid supercapacitor assembled with CC/SiCNWs@NiCo2O4NAs as the cathode and MOF derived CC/SiCNWs@CNAs as the anode,could deliver a high specific density of 49.9 W h kg-1 at a specific power of 800 W kg-1,stable cycling performance,and good flexibility.Impressively,this feasible strategy for fabricating hierarchical structure displays great potential in the field of energy storage.     

Saturable absorber Co2+:MgAl2O4 crystal for Q switching of 1.34-microm Nd3+:YAlO 3 and 1.54-microm Er3+:glass Lasers

Saturable-absorber Q switching of a neodymium-doped YAlO(3) laser at 1.34 microm and an erbium-doped glass laser at 1.54 microm with a Co(2+):MgAl(2)O(4) crystal was demonstrated. Q-switched 1.34-microm pulses of 19-mJ energy and 60-ns duration and Q-switched 1.54-microm pulses of 2.7-mJ energy and 75-ns width were obtained. The ground-state absorption cross sections of the Co(2+):MgAl(2)O(4) crystal were estimated to be (2.8 +/- 0.4) x 10(-19) and (3.5 +/- 0.6) x 10(-19) cm(2) at 1.34 and 1.54 microm, respectively. The (4)T(1)((4)F)-->(4)A(2) relaxation time of the Co(2+) ion in the MgAl(2)O(4) crystal was measured to be approximately 350 ns.     

Co3O4电化学电容电极材料的制备及性能研究

利用水热法,以硝酸钴为原料,分别以碳酸氢铵、六次甲基四胺为沉淀剂,制备了Co3O4。借助X射线衍射、扫描电子显微镜手段对样品进行表征。以六次甲基四胺为沉淀剂制得的Co3O4,在6 mol.L-1KOH水溶液中,电位窗口为0～0.4V内,通过循环伏安和恒流充放电测试,显示该材料制备的电极具有良好的电容行为。充放电流在为5 mA时,单电极的比容量达到239 F.g-1,是以碳酸氢铵为沉淀剂制得的Co3O4电极的1.57倍,说明以六次甲基四胺为沉淀剂制备的Co3O4具有较好的电化学电容性能。     

Synthesis of Co3O4 nanowire arrays supported on Ni foam for removal of volatile organic compounds

Crystalline Co3O4 nanowire arrays freely supported on Ni foam are successfully synthesized using a template-free method. The effects of reaction time, concentration of reactants, and temperature on the morphology of the nanowires are studied. The results indicate that uniform Co3O4 nanowires could be synthesized at 90 degrees C, and a transformation of the samples' morphology from nanoparticles to nanowires to microrods is observed by controlling the concentration of the reactants. The well-ordered nanowires synthesized under the selected reaction conditions are composed of spinel Co3O4 with diameters of 500-580 nm and lengths of 6-8 microm. These nanowires show good catalytic activity for the ozone catalytic oxidation of toluene.     

非晶态硼化钴合金-还原石墨烯/棉织物柔性电极复合材料的制备与性能

本文采用浸渍-干燥法和化学还原法在常温常压条件下制备了非晶态硼化钴合金-还原石墨烯(CoB-RGO)/棉织物柔性复合电极。研究了不同Co2+浓度对CoB-RGO/棉织物复合电极结构形貌及电化学性能的影响。结果表明,Co2+浓度为0.14 mol/L时非晶态CoB呈相互交错开放型3D片状结构。与非晶态CoB/织物和RGO/织物复合电极相比,非晶态CoB-RGO/棉织物复合电极表现出更为理想的电化学性能。当电流密度为0.25 mA/cm2, 非晶态CoB-RGO/棉织物复合电极的比电容为218.8 F/g。此外,非晶态CoB-RGO/棉织物复合电极的电化学性能受折叠次数和折叠角度的影响较小,表明其具有良好的柔韧性。      

丝网状镍钴硫金属化合物电化学性能研究

通过简单两步水热的方法在泡沫镍基底上成功制备出丝网状三维网络结构的Ni Co2S4,研究了材料的电化学性能,结果表明,Ni Co2S4@泡沫镍电极材料具有高的面积比电容,在电流密度为10 m A/cm~2时,面积比电容可达到2.87 F/cm~2;电流密度从10 m A/cm~2增大到50 m A/cm~2,电容保持率为60.9%;在负载量为6.21 mg/cm~2时,在30 m A/cm~2的高电流密度下充放电1 000次,电容保持率仍为67.3%。     

Preparation and characterization of LiNi0.8Co0.15Al0.05O2 cathode material from (NH4)2C2O4·2H2O precipitant

Journal of Materials Science: Materials in Electronics - LiNi0.8Co0.15Al0.05O2 (NCA) cathode material was usually prepared with Ni2+, Co2+, Al3+ co-precipitation method using NaOH/NH3·H2O...     

Rate of dibutylsulfide decomposition by ozonation and the O3/H2O2 advanced oxidation process

A process of dibutylsulfide (DBS) oxidation using advanced methods of oxidation with ozone and hydrogen peroxide was studied. It was demonstrated that depending on pH value there are two mechanisms of DBS oxidation present: ionic and radical. The ionic mechanism predominates in acidic environment and the radical mechanism predominates in alkaline environment. At high pH ozone stability decreases and hydrogen peroxide has a deciding effect on DBS oxidation rate. At pH 9, and at high concentration of hydrogen peroxide (ranging from 0.1 to 1 mol/L), a clear increase in DBS decomposition rate was observed. That was caused by production of hydroperoxide radicals in reaction of hydrogen peroxide and ozone. In solutions pH value of which is close to 2, the rate of DBS oxidation by ozone alone is slower than in a O(3)/H(2)O(2) system, regardless the H(2)O(2) concentration. For higher H(2)O(2) concentrations (ranging from 0.1 to 1 mol/L), regardless the pH value of the solution, oxidation in a O(3)/H(2)O(2) system is faster, compared to a situation in which ozone is a sole oxidizer. For H(2)O(2) concentrations below 0.1 mol/L and when pH>2DBS oxidation in O(3)/H(2)O(2) system is slower compared to the situation in which ozone was the only oxidizer.     

钴镍掺杂锰酸锂的电化学性能研究

采用固相烧结法分别制备了钴掺杂和镍掺杂锰酸锂锂离子电池正极材料,同时制备了纯相锰酸锂进行比较.用电感耦合等离子发射光谱仪、X射线衍射仪、电子扫描电镜和电池性能测试系统对产物的组成、结构特征、微观表面形貌和恒流充放电性能进行了表征.结果表明:所制备的掺杂锰酸锂LiMn0.9 Ni0.1O2、LiMn0.9 Co0.1O2的结晶度高,无杂质相,材料颗粒的粒径均匀、表面光滑;首次放电比容量分别为114.7mAh/g和110.8mAh/g(0.5mA/cm,2.8~4.4V,vs.Li+/Li);50次循环后,放电比容量为107.2mAh/g和103.3mAh/g,50次循环比容量保持率分别达到94.1%和95.4%.     

电流密度对水热电化学沉积HA涂层性能的影响

在含0.15mol/L HF,2mol/L H_3PO_4的水溶液中对Ti6Al4V基体进行阳极氧化处理,然后在0.02mol/L CaCl_2,0.012mol/L K_2HPO_4·3H_2O,0.139mol/L NaCl的电解液中采用水热电化学沉积方法在预处理的Ti_6Al_4V基体表面制备羟基磷灰石(HA)涂层。采用X射线衍射仪(XRD)、扫描电子显微镜(SEM)、能谱仪(EDS)、台阶仪和万能材料试验机等研究沉积过程中电流密度大小对HA涂层物相、微观形貌、厚度、生物活性及结合强度的影响。结果表明:采用水热电化学沉积方法在不同电流密度下均制备出了HA涂层,涂层表现为分层生长,部分晶体呈花簇状。HA的厚度随电流密度的增加先增大后减小,在1.25mA/cm~2时达到最大为26.4μm,此时涂层最为致密,与基体的结合强度最高,约为20.0MPa。模拟体液(SBF)浸泡实验能较快诱导类骨磷灰石(CHA)的生成,最大直径达到7~8μm,表明涂层具有较好的生物活性。     

乙二胺改性Co3O4-NiO复合粒子的制备及其超级电容性能研究

利用简单液相共沉淀法制得中间产物Ni(OH)2-Co(OH)2,再经煅烧得到Co3O4-NiO复合粒子;用乙二胺对Co3O4-NiO复合粒子进行改性,改性后Co3O4-NiO微粒分散性提高,形貌为片状,片与片之间相互交叉形成疏松的介孔结构。电化学测试表明Co3O4-NiO电极材料在改性后表现出优良的电化学性能,在电位窗口为0～0.4V时,单电极比电容可达1202F/g,相比改性前提高了171F/g。