Research progress in lead-less or lead-free three-dimensional perovskite absorber materials for solar cells

The trend toward lead-free or lead-less perovskite solar cells(PSCs) has attracted increasing attention over the past few years because the toxicity of lead(Pb) is one of the substantial restrictions for large-scale applications. Researchers have investigated the viability of substituting Pb with other elements(group 14 elements, group 2 elements, transition-metal elements, and group 13 and 15 elements) in the three-dimensional(3 D) perovskites by theoretical calculations and experimental explorations. In this paper, recent research progress in Pb-less and Pb-free PSCs on the perovskite compositions, deposition methods, and device structures are summarized and the main problems that hinder the enhancement of device efficiency and stability are discussed in detail. To date, the fully Sn-based PSCs have shown a power conversion efficiency(PCE) of 8.12% and poor device stability. However, lead-less PSCs have shown higher PCE and a better stability. In addition, the introduction of double-perovskite materials also draws researchers' attention. We believe that the engineering of elemental composition, perovskite deposition methods, and interfacial modification are critical for the future development of Pb-less and Pb-free PSCs.

Defects and doping engineering towards high performance lead-free or lead-less perovskite solar cells

Up to now, perovskite solar cells(PSCs) have reached a certified 25.5% efficiency. As a promising photo-electric material, the metal halide perovskite possesses many outstanding properties such as tunable bandgap, long diffusion length, high absorption coefficient and carrier mobility. In spite of these remarkable properties, defects are inevitable during the solution processing. Therefore, many efforts have been made to reduce defects in perovskite films and thus improve the performance of devices. Among them,substitution or doping engineering is one of the most studied methods. Meanwhile, due to the poor stability of the organic-inorganic hybrid perovskite and the toxicity of Pb-based perovskite materials, all inorganic perovskite and lead-less or lead-free perovskite have emerged as promising materials. Here,we focus on the defect engineering especially substitutions on different sites in an ABX_(3) structure. The particular attention is devoted towards lead-less or lead-free perovskites, and we discuss several common elements or groups used to partially replace Pb^(2+). It is noted that proper elemental doping at different sites is an important guarantee for obtaining high-performance lead-less or lead-free PSCs.

银掺杂Bi_(0.5)(Na_(0.825)K_(0.175))_(0.5)TiO_3陶瓷的结构与性能

采用传统固相法制备了无铅压电陶瓷Bi0.5(Na0.825K0.175)0.5TiO3+x%Ag2O(BNKTA-x,质量分数x=0,0.1,0.3,0.5,0.7,1.0,1.5),利用XRD、SEM等测试技术分析表征了该体系陶瓷的结构、压电与介电性能。XRD分析表明,在1 175℃/2 h烧结条件下,当Ag的质量分数低于1.0%时,陶瓷呈单一相的钙钛矿结构。所有陶瓷晶粒大多成四方晶形,晶界明显,表面致密度高,Ag的引入促进了陶瓷晶粒的生长。另外,加入Ag后,陶瓷样品气孔率降低,当Ag的质量分数在0.3%附近时陶瓷的致密性最好。BNKTA-x体系陶瓷具有较好的电学性能:压电常数d33=147 pC/N,机电耦合系数kp=0.31,介电常数rε=1 059,介电损耗tanδ=0.029,机械品质因数Qm=247。

欠发达地区县域经济发展主导产业选择分析

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从耗散结构理论视角看欠发达地区主导产业的选择与培育问题

主导产业部门是区域经济增长的火车头,是经济发展的驱动轮。主导产业是欠发达地区区域经济向高层转换与升级的主要载体与通道,是增强区域竞争力的关键。本文基于耗散结构理论阐述区域主导产业选择的必要性,以及欠发达地区主导产业选择应关注的重点,并指出欠发达地区主导产业培育的关键所在。

欠发达地区中小城市的主导产业选择及其发展策略探讨

对六安市的资源禀赋条件及长三角产业转移的特征与趋势做了较为全面的考察，在此基础之上，运用偏离一份额分析法（SSM）对该市2005至2010年29个产业部门的份额分量、结构偏离分量及竞争力偏离分量进行了对比分析，进而对其主导产业进行了筛选．研究结果表明，六安市黑色金属矿采选业、农副食品加工业及通用设备制造业在定量分析指标上具有显著优势，同时拥有优越的资源依托条件，有利于承接长三角产业转移，最适合作为现阶段的主导产业．采用偏离一份额分析法并结合区域的资源禀赋条件及所处的宏观经济背景对欠发达地区中小城市的主导产业进行选择是可行的，有效的．可从完善产业链，维护资源优势，注重科研创新，主动承接产业转移四个方面着手促进六安市主导产业的发展．

经济欠发达地区主导产业的选择

以科学的标准正确选择主导产业 ,对于带动欠发达地区经济发展起着十分关键的作用 .结合宿迁地区的实际情况 ,对欠发达地区主导产业的确定基准、方法进行了分析、研究 。

无铅或少铅钙钛矿CH_3NH_3M_(1-x)Pb_xX_3(M=Sn,Sr;X=Cl,Br,I)太阳能电池的研究进展

本文综述了Sn^(2+)或Sr^(2+)取代的无铅或少铅钙钛矿CH3_NH_3PbX_3(X=Cl,Br,I)的结构及其主要的制备方法,评述了各种方法的优缺点。简要介绍了无铅或少铅钙钛矿材料的能隙以及材料的稳定性对太阳能电池的影响,并对其发展前景进行了展望。

对四象人辨象要点浅探

《东医寿世保元》中系统地分析了人体有机体与自然、社会之间的联系、发展、变化关系。通过肺与肝、脾与肾的生理功能特点及生理功能大小,在人体生理变化中占居主要矛盾地位,起主导作用时,把这群人可归纳为太、少、阴、阳人范畴。

新型无隔膜铈铅单液流电池的初步研究

在综合考虑现有的全铅液流电池与铈铅液流的优缺点的基础上,提出了一种无隔膜铈铅单液流电池。与现有铈铅液流电池相比,它克服了电池的交叉污染问题,无需昂贵的隔膜,节省了一套循环泵与储液罐。充电时,三价铈转化为四价铈,铅离子转化为金属铅沉积到负极上;放电时,四价铈转化为三价铈,金属铅转化成为二价铅离子溶解到酸性电解液中。在5 mA/cm2充放电电流条件下,该铈铅单液流电池放电电压为1.74 V,库伦效率为87.2%,能量效率为81.0%。

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减轻中小学生负担，是关系国家，民族兴衰的大问题。当前学生负担过重的原因，从根本上说是体制造成的。因此，目前最重要的是要彻底改革现行的教育体制，从根本上由“应试教育”转到素质教育上来，从传统的、封闭的教育转到现代的、开放式的教育上来，从仅仅局限于阶段性的教育转到终身教育上来，并在完善相应的法律制度、加大教育投资、推进全民观念更新等方面加以配套，从而为学生“减负”和健康成长创造良好条件。

康家湾铅锌金银矿选矿工艺优化研究及实践

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自动润滑装置在数控无卡轴旋切机上的应用

数控无卡轴旋切机的刀台进给系统通过丝杠螺母的传动可实现刀体座的进退,传动丝杠螺母都是依靠人工润滑,如果润滑不及时就会出现粘牙现象而导致整个设备不能工作。介绍了一种自动润滑装置,其可实现对丝杠螺母的自动润滑。