一步电沉积法制备Ni-Mo-Nd/NF复合电极及其析氢性能研究

目的采用一步恒电流沉积法在泡沫镍基底上制备出镍-钼-钕三元析氢电极,提高碱性条件下的析氢性能。方法使用电化学工作站研究工艺参数对Ni-Mo-Nd/NF析氢电极性能的影响,同时制备Ni-Mo/NF析氢电极,使用扫描电镜(SEM)、X射线衍射分析仪(XRD)、能谱仪(EDS)和X射线光电子能谱(XPS)对合金镀层表面形貌、相结构、元素含量及成键状态进行表征。通过线性扫描伏安法(LSV)、循环伏安法(CV)及电化学阻抗技术(EIS)测试电极析氢性能。结果最佳工艺参数为:pH=4.5,电流密度30 mA/cm^(2),沉积时间60min,温度30℃。在1.0 mol/LKOH溶液中,Ni-Mo-Nd/NF电极在10 mA/cm^(2)下的析氢过电位仅为73 mV,Tafel斜率为147 mV/dec,表明析氢反应机理遵循典型的Volmer-Heyrovsky步骤。此外,Ni-Mo-Nd/NF电极在长时电解24h时电流密度保持稳定,2000次循环伏安测试后,催化剂的活性衰减微小。结论稀土元素Nd的掺杂,能够细化电极表面的球形颗粒并提高电极表面粗糙度,从而提升电极的比表面积,为析氢反应提供更多的活性位点,利于析氢反应效率的提高。由于三元合金的协同作用,与二元合金Ni-Mo/NF相比,Ni-Mo-Nd/NF三元合金电极显示出更优异的HER催化性能。

氧化铈超微粉前驱体的制备与表征

采用萃取分离生产线取得的氯化铈料液为铈源,碳酸氢铵为沉淀剂利用转形工艺合成氧化铈前驱体,最后前驱体通过烘干和焙烧制备了超微氧化铈粉。利用X射线衍射仪(XRD)、扫描电子显微镜(SEM)和粒度分析仪研究了不同的碳酸氢铵与铈离子物质的量之比(料比)对超微粉前驱体的液计回收率、粒度(D50)和粒度分布的影响,结果表明:得到的前驱体为碱式碳酸铈,其粒度(D50)小于3μm;当料比由2.6:1逐渐增加到3.5:1时,氧化铈超微粉前驱体的液计回收率逐渐上升,而其粒度与粒度分布均有先减小后增大的特征,且当料比为3:1时粒度分布最佳,分布系数为0.739,此时液计回收率为98.31%,D50为1.790μm,对应的超微氧化铈粉粒径均匀,为0.1~0.3μm。

Thiophene-functionalized porphyrin complexes as high performance electrodes for sodium ion batteries

Organic sodium-ion batteries(OSIBs)using eco-friendly organic materials as electrodes have recently received much attention.However,the practical applications of OSIBs are generally limited by the inherent disadvantages of organic electrodes,such as their low conductivity,poor stability,and high solubility in electrolytes.Herein,we presented[5,10,15,20-tetrathienylporphinato]M(II)(MTTP,M=2H,Ni)as new electrode materials in sodium-organic batteries.The incorporation of thiophene functionalized groups and nickel(II)ion in the molecular design of porphyrins enabled stable and excellent electrochemical performance in sodium storage systems.Benefiting from multiple charge storage sites and bipolar characteristics,the NiTTP anode has a reversible capacity of 434 mAh g^(-1)at a current density of 25 mA g^(-1).An excellent long-term cycling stability and high average voltage were obtained when NiTTP was used as a cathode.In a symmetrical battery,where NiTTP was used as both cathode and anode materials,a high average voltage of 2.3 V and a practical energy density of 93 Wh kg^(-1)was achieved.These results suggest that the thiophene-based porphyrin derivatives would be promising electrode materials for long-term organic sodium ion batteries for green and stable energy storage.

串级循环萃取在钛白废酸提钪工艺中的研究应用

通过洗涤负载有机相,不进行反萃,负载有机相再次加入至萃取段,通过改变相比,提高钪的富集率。研究表明,二级串级萃取,每级萃取10 min,空白有机相萃取钛白废酸,相比O/A=1∶20,钪的萃取率为95.75%;负载有机相经洗涤后进行第一次循环萃取,相比O/A=1∶15,钪的萃取率为93.3%;进行第二次循环萃取,相比O/A=1∶12,钪的萃取率为91.1%;进行第三次循环萃取,相比O/A=1∶10,钪的萃取率为70%。通过循环萃取,氧化钪的相对纯度由单次萃取的99.5%提升至99.95%。