Ni2P/Cu(OH)2催化剂的制备及其全解水性能研究

通过化学处理法在泡沫铜基底表面生成Cu(OH)₂纳米线,大大增加了基底材料的表面积和导电性.采用水热法在Cu(OH)₂纳米线表面制备片状Ni-CH/Cu(OH)₂前驱体,对Ni-CH/Cu(OH)₂前驱体进行低温磷化得到多级结构Ni₂P/Cu(OH)₂催化剂.通过扫描电子显微镜(SEM)、X射线光电子能谱仪(XPS)和X射线衍射仪(XRD)对催化剂的物质结构和表面形貌进行了表征.采用线性伏安法、恒电位等技术对催化剂的电化学性能进行测试.在1.0 mol·L^-1 KOH碱性溶液中,当电流密度为10 mA·cm^-2时,Ni₂P/Cu(OH)₂的析氢反应(HER)和析氧反应(OER)过电位分别为133和333 mV,且均具有较好的稳定性.将这种多级结构Ni₂P/Cu(OH)₂催化剂分别用作阳极和阴极进行全解水电解,电流密度达到10 ...     

前驱体物相转变对浆态床合成甲醇催化剂活性的影响

采用并流共沉淀法, 通过考察老化温度, 研究CuO/ZnO/Al₂O₃催化剂前驱体晶相及组成的变化对浆态床催化合成甲醇的反应活性的影响. 结果表明, 前驱体的物相转变对浆态床合成甲醇活性影响显著, 单斜晶系锌孔雀石(Cu,Zn)₂CO₃(OH)2和斜方晶系绿铜锌矿(Cu,Zn)₅(CO₃)₂(OH)₆晶体是产生高活性催化剂的主要物相. 随着Cu²⁺/Zn²⁺进入Zn₅(CO₃)₂(OH)₆/Cu₂CO₃(OH)₂晶格, 离子同晶取代量增加, 催化剂前驱体中形成了固定铜锌比的锌孔雀石和绿铜锌矿物相. 焙烧后催化剂比表面积增大, CuO-ZnO固溶体协同作用加强, 浆态床催化合成甲醇的活性提高.     

A new 28-Ni-added poly(polyoxometalate) with B atoms: synthesis,structure and catalysis for Knoevenagel condensation

The synergistic effect of trivacant B-α-Ge W₉O₃₄fragments as structure-directing agents and inorganic B-O segments as intramolecular decoration afforded an unprecedented 28-Ni-added huge cluster K₂Na₁₄H₁₀[{Ni₆(OH)₃(H₂O)₆(Ge W₉O₃₄)}{Ni₈-(μ₆-O)(OH)₃(H₂O)(BO(OH)₂)(B₂O₃(OH)₂)(Ge W₉O<...     

AOPAN@Mg(OH)2多层次电纺纤维膜的制备及除铬性能

以含有—NH₂和C═N的偕胺肟化聚丙烯腈(AOPAN)纳米纤维膜为载体, 通过水热法在AOPAN纳米纤维膜表面原位生长片状Mg(OH)₂纳米粒子, 得到具有多层次结构的有机-无机电纺复合纳米纤维膜[AOPAN@Mg(OH)₂], 并研究了AOPAN@Mg(OH)₂的除铬性能. 研究结果表明, 当水热温度为40 ℃, 水热时间为7 h时, AOPAN纳米纤维膜表面形成了明显的多层次结构的Mg(OH)₂纳米晶体. 当溶液pH=2时, AOPAN@Mg(OH)₂复合纳米纤维膜对Cr(Ⅵ)的吸附符合Langmuir模型, 且满足二级动力学方程, 5 h后最大吸附量达到123.5 mg/g. AOPAN@Mg(OH)₂复合纳米纤维膜中含有—NH₂基团和Mg(OH)₂纳米粒子, 在酸性条件下可以质子化为带正电的—N\begin{array}{c}{H}_3^{+}\end{array}和Mg(OH)₂H⁺, 通过静电吸附更易与HCr\begin{array}{c}{O}_4^{-}\end{array}结合. 此类复合纳米纤维膜材料在水体中易取出, 并且在稀NaOH溶液中可以解吸附, 循环使用4次去除率仍可以保持在50%以上.     

阻燃超疏水棉纤维的制备及性能

将氢氧化镁(Mg(OH)₂)凝胶沉积到棉纤维上,以提高棉纤维表面粗糙度和阻燃性能,随后将含有Mg(OH)₂的棉纤维浸渍到聚二甲基硅氧烷(PDMS)溶液,获得阻燃超疏水棉织物。 并对棉纤维进行了傅里叶变换红外光谱仪(FTIR)、扫描电子显微镜(SEM)、疏水性、热稳定性、阻燃性能和耐久性测试。 结果表明,Mg(OH)₂负载到织物上,使得织物表面具有一定的微/纳米结构,形成了粗糙涂层。 当Mg(OH)₂浓度为1.0 mol/L时,Mg(OH)₂/PDMS改性的织物接触角(CA)可达158°,极限氧指数(LOI)提升至24.5%,导热系数为0.0525 W/(m·K), 具有超疏水和阻燃性能。 整理后织物经过20次洗涤,100次磨擦,极端条件处理后,CA仍大于150°,LOI值高于23%,显示了较好的耐久性。     

二维Ti2C与Ti3C2表面OH、O、F、Au的吸附活性

较高的比表面积与稳定性使得二维Ti₂C与Ti₃C₂结构在贵金属催化剂载体、锂离子电池、储氢材料等领域具有重要的应用前景. 研究Ti₂C、Ti₃C₂的表面吸附活性有助于认识其表面特征. 第一性原理计算研究显示:Ti₂C与Ti₃C₂对O、OH、F具有较强的吸附活性. 通过比较Ti₂C、Ti₃C₂、Ti(001)、TiC(001)的表面电子结构, 我们发现Ti₂C与Ti₃C₂较强的表面吸附活性来自于表面Ti 原子未极化的3d轨道. 这使得Ti₂C、Ti₃C₂表面通常覆盖有O、F、OH. 吸附了O、OH基团的Ti₂C与Ti₃C₂结构(Ti₂CO_2-2x(OH)_2x、Ti₃C₂O_2-2x(OH)_2x)对Au原子的吸附能随OH比例的增大而增大.     

水合铵硼氧酸盐及其饱和溶液的FTIR和Raman光谱研究

研究了NH₄B₅O₈·4H₂O和(NH₄)₂B₈O₁₃·6H₂O及其饱和溶液于20℃的FTIR和Raman光谱,对振动频率进行了归属.根据振动光谱特征,预测(NH₄)₂B₈O₁₃·6H₂O中所含基本结构单元为[B₇O ₁₁(OH)·B(OH)₃]^2-.首次将Raman光谱中516cm^-1处的强散射峰归属为这一多聚硼氧配阴离子的对称脉冲振动峰,并对以上2种铵硼氧酸盐饱和溶液中硼氧配阴离子的存在形式{B(OH)₃,[B₃O₃(OH)₄]^-和[B₅O₆(OH)₄]^-}和相互作用机理进行了探讨.     

磷酸铁锂废料中FePO4·2H2O提取及其杂质形成机理

采用化学共沉淀方法从磷酸铁锂废料中提取FePO₄·2H₂O,并研究了回收过程中杂质形成的机理。在热力学计算基础上绘制了298和363 K时Fe-P-Li-H₂O体系的电势(φ)-pH图,结果表明当pH≤5.0时,Fe(OH)₃相可以自发地转成FePO₄·2H₂O相,从而得到高纯的FePO₄·2H₂O。但实验结果发现当溶液中铁、磷的物质的量之比(n_Fe∶n_P)为1∶1,合成pH为1.5～2.2时得到的FePO₄·2H₂O中存在Fe(OH)₃杂质,这是因为在共沉淀过程中少量Fe³⁺以Fe(OH)₃快速沉淀,而陈化时Fe(OH)₃相转化速率慢,因此FePO₄·2H₂O中含有Fe(OH)₃     

Ru-Fe异金属化合物及其在Au表面上SAM的电化学研究

为使不对称Ru-Fe化合物能在表面上自组装形成单分子膜,对trans-RuCl(dppm)₂(C≡CFc)[Fc=C₅H₄FeC₅H₅,dppm=(C₆H₅)₂PCH₂P(C₆H₅)₂](1)进行修饰,得到Ru(dppm)₂(C≡CFc)(C≡CPhOCH₃)(2),[Ru(dppm)₂(C≡CFc)(N≡CCH₂CH₂NH₂)][PF₆](3)和[Ru(dppm)₂(C≡CFc)(N≡CCH₂CH₂NHC(O)·(CH₂)₁₀SH)][PF₆](4),并详细研究了该系列化合物的电化学性质.循环伏安结果显示出Ru周围配体得失电子能力的差别,直接影响了Ru中心的氧化-还原性,但这种影响并没有通过共轭的炔键传递到二茂铁中的Fe中心.化合物4可以在Au表面上自组装形成稳定、有序的单分子膜.还利用循环伏安法研究了单分子膜的形成过程及其表面覆盖率.     

La(OH)3负载锌铝水滑石的制备及其应用在锌镍二次电池中的性能

采用共沉淀法将氢氧化镧(La(OH)₃)负载在锌铝水滑石(Zn-Al LDHs)的表面,扫描电镜(SEM)、X射线衍射(XRD)表明La(OH)₃成功负载在锌铝水滑石表面,并且负载后的锌铝水滑石仍然为六边形片状晶体,且粒径均匀、分散性好。La(OH)₃质量其具有较好的可逆性、更大的正腐蚀电位及较小的电池内阻。5%La(OH)₃@Zn-Al LDHs在经过80次循环后,其循环保持率为94.84%。     

稀土氧化物对二次锌电极性能的影响

应用阴极极化法在锌电极上覆盖一层稀土氢氧化物膜La(OH)3或Ce(OH)3,并用循环伏安、动电位极化、定电位阴极极化实验研究其电化学性能.结果表明,La(OH)3或Ce(OH)3膜能抑制锌酸根离子的迁移,提高析氢过电位,降低腐蚀电流密度并能抑制枝晶生长.SEM观测显示,稀土氧化物La2O3或CeO2改变了锌沉积形态,进而提高了锌酸钙电极的充放电循环性能.     

Combination of Lindqvist-type Tungstovanadates and Transition Metal Clusters under Hydrothermal Conditions

<正>Two novel organic-inorganic heteropolyoxometalate compounds [{Cu(1,10- phen)OH}_2]_2[V_2W_4O_19]·6H_2O (1) and [Co(1,10-phen)_3]_2[V_2W_4O_(19)]·5H_2O (2) (1,10-phen = 1,10- phenanthroline) were hydrothermally synthesized and characterized by elemental analysis, IR spectra and single-crystal X-ray diffraction. Compound 1 contains a di-V substituted classical Lindqvist-type polyanion [V_2W_4O_(19)]~(4-), two dinuclear copper cations [{Cu(1,10-phen)OH}_2]~(2+) and six water molecules of crystallization. Two dinuclear copper cations [{Cu(1,10-phen)OH}_2]~(2+) consist of four transition metal coordination cations {Cu(1,10-phen)}~(2+), bridged by four hydroxyl groups. Meanwhile, both two dinuclear cations are grafted on the Lindqvist polyanion [V_2W_4O_(19)]~(4-) through two terminal oxygen (O(9)) and two μ_2-oxygen (O(6)) atoms. Such an unusual linking fashion is unique in the polyoxometalate chemistry. The basic framework of 2 is similar to that of 1 and contains one Lindqvist-type polyanion [V_2W_4O_(19)]~(4-), two six-coordinated cobalt cations [Co(1,10-phen)_3]~(2+) and five free water molecules.     

电沉积-烧结法制备Y2O3:Eu 荧光薄膜的研究

平板显示是显示技术发展的方向,发光材料的薄膜化是显示技术发展的重要研究对象.本研究采用电沉积-烧结方法制备出了氧化钇铕红色荧光薄膜.在0.1 mol/L硝酸钇溶液中加入4%(摩尔分数)0.1 mol/L硝酸铕掺杂,用三电极体系进行阴极电沉积,工作电极的电位为-1.2 V(相对于Ag/AgCl电极),温度65℃,沉积时间为400 s,500℃灼烧2 h,制备出的发光薄膜与高温固相法制备的薄膜对比,其发射光谱的峰位相同.XRD检测显示经不同温度灼烧后,随温度的升高,氧化钇晶相逐渐完整.经SEM扫描,薄膜沉积均匀平整.     

Oxidative energy storage ability of a TiO2-Ni(OH)2 bilayer photocatalyst

A TiO2-coated indium tin oxide electrode was further coated with Ni(OH)2 by electrodeposition to obtain a TiO2-Ni(OH)2 bilayer film. Upon irradiation of the bilayer film with UV light in a pH 10 buffer, the Ni(OH)2 layer was oxidized, and it turned from colorless to brown; oxidative energy was stored in the layer. The potential of the oxidative energy thus stored was about +0.7 V versus Ag|AgCl. The stored energy could be reversibly taken out of the film by chemical and electrochemical means. The photooxidized Ni(OH)2 was rereduced by alcohols, aldehydes, phenol, I-, H2O2, formate, and acetone.     

Free-standing nitrogen doped graphene/Co(OH)_2 composite films with superior catalytic activity for aprotic lithium-oxygen batteries

The recent boom in large-scale energy storage system promotes the development of lithium-oxygen batteries because of their high theo retical energy density.However,their applications are still limited by the sluggish kinetic,insoluble discharge product deposition and the undesired parasitic reaction.Herein,the free-standing nitrogen doped reduced graphene oxide/Co(OH)_2(NRGO/Co(OH)_2) composite films were prepared by a facile hydrothermal method,The NRGO/Co(OH)_2 composite films display interconnected three-dimensional conductive network,which can not only promote the diffusion of O_2 and the transport of electrolyte ions,but also provide abundant storage space for discharge products.Moreover,the introduction of nitrogen-containing functional groups results in improved conductivity and electron adsorption ability,which can facilitate electron transport and enhance the surface catalytic activity.Combining with excellent catalytic performance,the lithium-oxygen batteries with NRGO/Co(OH)_2 composite film cathodes deliver low charge overpotential and excellent cycling performance.     

Tracking the atomic pathways of Pt3Ni-Ni(OH)2 core-shell structures at the gas-liquid interface by in-situ liquid cell TEM

Using the in-situ liquid cell transmission electron microscopy, the three-stage growth of Pt_3Ni-Ni(OH)_2 core-shell structures at the gas-liquid interfaces was clearly observed, which consists of(1) a thermodynamically driven Pt_3Ni alloy core by the monomer attachment,(2) a nickel(Ni) shell formation due to the depletion of the Pt salt precursor, and(3) the oxidation and of the Ni shell into Ni(OH)_2 flakes. We also further observed the nucleation and growth of the Ni(OH)_2 flakes on an existing layer either at the middle part or at the step edge. More interestingly, the dynamic transformation among a Pt_3Ni alloy, Ni clusters and Ni(OH)_2 flakes was also imaged even at a high electron dose rate.     

β-环糊精调控水溶液中Cu~(2+)的辐射还原

在β-环糊精(β-CD)水溶液的安全吸收剂量范围内,利用β-CD来调控Cu2+的辐射还原.随着β-CD的加入,硝酸铜的辐射还原产物从Cu2O逐渐转变为Cu.当β-CD浓度增大至8.0mmol·L-1时,辐射还原产物主要为Cu纳米粒子.在辐照过程中,Cu2+的还原没有经历Cu2O的中间过程.这是由于β-CD对·OH的清除减少了·OH与水化电子(ea-q)的反应,增大了ea-q的产额,从而有利于Cu的生成.另外,β-CD通过羟基在Cu纳米粒子表面的吸附可增强Cu纳米粒子在水溶液中的稳定性.用紫外-可见(UV-Vis)吸收光谱、粉末X射线衍射(XRD)和选区电子衍射(SAED)对Cu2+辐射还原产物进行了表征.     

Photoluminescence Properties of Two-dimensional Planar Layer and Three-dimensional Island Layer for ZnO Films Grown Using MOCVD

IntroductionOver the past few years, wide band gap semicon-ductors have attracted considerable attention because oftheir high commercial demand for the preparation ofblue and UV light emitters. The most promising amongall the known materials used for this…     

Formation and characterization of Cu<Subscript>x</Subscript>S layers on polyethylene film using the solutions of sulfur in carbon disulfide

Results of the formation of copper sulfide layers using the solutions of elemental sulfur in carbon disulfide as precursor for sulfurization are presented. Low density polyethylene film can be effectively sulfurized in the solutions of rhombic (α) sulfur in carbon disulfide. The concentration of sulfur in polyethylene increases with the increase of the temperature and concentration of sulfur solution in carbon disulfide and it little depends on the duration of sulfurization. Electrically conductive copper sulfide layers on polyethylene film were formed when sulfurized polyethylene was treated with the solution of copper (II/I) salts. Cu_xS layer with the lowest sheet resistance (11.2 Ω cm⁻²) was formed when sulfurized polyethylene was treated with copper salts solution at 80°C. All samples with formed Cu_xS layers were characterized by X-ray photoelectron spectroscopy. XPS analysis of obtained layers showed that on the layer’s surface and in the etched surface various compounds of copper, sulfur and oxygen are present: Cu₂S, CuS, CuO, S₈, CuSO₄, Cu(OH)₂ and water. The biggest amounts of CuSO₄ and Cu(OH)₂ are present on the layer’s surface. Significantly more copper sulfides are found in the etched layers.     

Copper Carboxylate-phosphonates: Syntheses,Crystal Structures and Magnetic Properties

Two novel copper carboxyly-phosphonates, namely, Cu_(2.5)(5-pnc)(SO_4)_(0.5)(OH)(H_2O)_(0.5)(1) and Cu_(0.5)(5-pncH_2)(H_2O)_(1.5)(2)(5-pncH_3 = 5-phosphono-1-naphthalenecarboxylic acid), have been synthesized and characterized by X-ray diffraction, infrared spectroscopy, elemental analysis, and thermogravimetric analysis. In compound 1, each {PO_3C} tetrahedron is corner-shared with two {Cu(1)O_4}, two {Cu(2)O_5} and one {Cu(3)O_5},thus forming a one-dimensional inorganic chain along the c axis containing 8-membered rings of [Cu_3O_4S] and 19-membered cages of [Cu_5O_(10)P_4]. The inorganic chains are further connected by a 5-pnc~(3-) ligand to generate a three-dimensional framework. Compound 2 exhibits a one-dimensional structure, in which the inorganic chains of [Cu-O-Cu]_n are connected by the organic ligands through hydrogen bonding interactions, forming an infinite two-dimensional layer. Magnetic measurements of 1 indicate that dominant antiferromagnetic interactions are mediated between the Cu~(2+) centers.