【摘 要】
:
Lithium-sulfur (Li-S) batteries and lithium-selenium (Li-Se) batteries,as environmental protection energy storage systems with outstanding theoretical specific
【机 构】
:
State Key Laboratory of Separation Membranes and Membrane Processes/National Center for Internationa
论文部分内容阅读
Lithium-sulfur (Li-S) batteries and lithium-selenium (Li-Se) batteries,as environmental protection energy storage systems with outstanding theoretical specific capacities and high energy densities,have become the hotspots of current researches.Besides,elemental S (Se) raw materials are widely sourced and their production costs are both low,which make them considered one of the new generations of high energy density electrochemical energy storage systems with the most potential for development.However,poor conductivity of elemental S/Se and the notorious “shuttle effect” of lithium polysulfides (polyselenides) severely hinder the commercialization of Li-S/Se batteries.Thanks to the excellent electrical conductivity and strong absorption of lithium polysulfide (polyselenide) about electronically conducting polymer,some of the above thorny problems have been effectively alleviated.The review presents the fundamental studies and current development trends of common electronically conducting polymers in various components of Li-S/Se batteries,which involves polyaniline (PANI) polypyrrole (PPy),and polythiophene (PTh) with its derivatives,e.g.polyethoxythiophene (PEDOT) and poly(3,4-ethylene dioxythiophene)-poly(styrenesulfonate) (PEDOT∶PSS).Finally,the review not only summarizes the research directions and challenges facing the application of electronically conducting polymers,but also looks forward to the development prospects of them,which will provide a way for the practical use of electronically conducting polymers in Li-S/Se batteries with outstanding electrochemical properties in the short run.
其他文献
采用醇胺法的脱碳系统用于脱除天然气中高含的CO2,系统运行中发现溶液受到明显污染,热稳定盐含量增加、金属离子超标、设备存在一定程度的腐蚀现象。采用合适的阴离子树脂对胺液进行离子交换测试,确定了热稳定盐吸附、再生的最佳工艺条件,即吸附时间为60 min,流量为2 m3/h,再生液采用5%的NaOH溶液。胺液净化后,热稳定盐脱除率达78%,胺液颜色明显改善,同时胺液中铬离子含量也有一定程度的降低。
Porous active core-shell carbon material with excellent synergistic effect has been regarded as a prospective material for supercapacitors.Herein,we report an i
Li-S batteries have been considered as one of advanced next-generation energy storage systems owing to their remarkable theoretical capacity(1672 mAh g-1)and hi
Vanadium redox flow battery (VRFB) is one of the most promising large-scale energy storage systems,which ranges from kilowatt to megawatt.Nevertheless,poor elec
Supported Pd catalysts with varied Pd loadings (x =0.5 wt%,2.0 wt%,5.0 wt%,7.5 wt%,15.0 wt%) were prepared by the incipient wetness impregnation method using a ZnAl2
Finding easy-to-operate strategy to obtain anode material with well-designed structure and excellent electrochemical performance is necessary to promote the dev
The development of promising zinc anodes mainly suffers from their low plating/stripping coulombic efficiencies when using aqueous electrolyte,which are mainly
Currently,pyrolysis as the most widely used method still has some key issues not well resolved for syn-thesis of carbon-supported single-atom catalysts(C-SACs),
针对克劳斯工业催化剂的效率问题,采用计算流体力学理论构建了不同几何结构和尺寸的克劳斯催化剂模型,通过多物理场耦合求解研究了反应温度、克劳斯反应本征速率、催化剂尺寸、孔隙率、孔径以及几何结构对其催化效率的影响。结果表明,催化剂颗粒的直径、孔径和特征尺寸是影响克劳斯工业催化剂有效因子的显著因素。减小催化剂颗粒直径,增大颗粒孔径,特别是增加大孔的直径和比例,能够显著提高催化剂有效因子。通过异形化设计增大催化剂颗粒的外表面积,即减小催化剂颗粒的特征尺寸,是提高克劳斯工业催化剂催化效率的有效途径。
Lithium-ion capacitors(LICs)are regarded as a good choice for next-generation energy storage devices,which are expected to exhibit high energy densities,high po