摘要黄铁矿型纳米二硫化亚铁是光伏产业中极具潜力的一种材料，由于其较高的能量存储能力，而成为一种非常有前景的高性能电池阴极材料。同时，FeS2具有较窄的禁带宽度（Eg=0.95eV）而被广泛应用于太阳能光催化领域。然而，通过FeS2纳米颗粒的合成、形貌控制以及掺杂改性等，来提高其催化及电化学性能一直是一项非常困难的课题。本文探究了一系列黄铁矿型二硫化物的软化学合成方法，以回流法为主要合成方法，重点研究温度、回流时间对黄铁矿型FeS2的结晶度、形貌、颗粒大小的影响。探索了高分散的氧化石墨改性的FeS2复合材料的制备。对相关产物进行了XRD、SEM、TEM的表征，并测试了相关产物的光催化性能。目前的结果将对高性能电池阴极材料的发展具有指导意义。31368
关键词  黄铁矿  软化学  光催化   形貌
毕业论文设计说明书外文摘要
Title  The synthesis of pyrite disulphides by soft-chemical and   its porperties of photocatalysis and electrochemistry      
Abstract
Pyrite FeS2 is considered to be one of few potentially transformative nanomaterials for photovoltaics capable of bridging the cost/performance gap of solar batteries. It also holds promise for energy storage application as the material for high-performance cathodes. At the same time, FeS2 has a narrow band gap(Eg=0.95eV), which has wide application in the field of solar photocatalytic. However, the synthesis of controllable FeS2 nanostructures and persity of their geometries has been hardly studied. In this study, a series of pyrite transition metal disulphides were explored by the soft-chemical method, especially for reflux method. Temperature and reaction time as emphasis parameters were discussed to control the crystallinity, morphology and particle size of FeS2.And we explore the preparation of high dispersion of graphene oxide modified FeS2 composites. The crystallinity, morphology and particle size of the materials were characterized by XRD, SEM and TEM respectively, and the photocatalytic performance of the related products were carried out by photocatalytic degradation of MB and RhB. The results presented here will make significant contributions toward the development of high-performance cathodes.
Keywords  pyrite  soft-chemistry  photocatalysis   morphology
目   次
1  引言    1
1.1  背景介绍    1
1.2  黄铁矿型硫化物的研究状况    2
1.3  石墨烯的研究状况    4
1.4  二氧化钛的研究状况    5
2  实验部分    6
2.1  试剂及仪器    6
2.2  黄铁矿型纳米颗粒的制备    7
2.2.1  FeS2纳米颗粒的制备    7
2.2.2  CoS2纳米颗粒的制备    7
2.2.3  NiS2纳米颗粒的制备    7
2.3  SnS2纳米颗粒的制备    7
2.4  FeS2复合材料的制备    8
2.4.1  基于P25的FeS2复合材料的制备    8
2.4.2  基于氧化石墨的FeS2复合材料的制备    8
2.5  光催化性能研究    8
2.5.1  RhB溶液的配制    9
2.5.2  二硫化物光催化性能测试    9
2.5.3  复合物光催化性能测试    9
3  结果与讨论    10
3.1  黄铁矿型纳米FeS2的合成研究    10
3.1.1  温度对FeS2结晶度的影响    10
3.1.2  时间对于FeS2结晶度的影响    11
3.1.3  煅烧处理对于FeS2结晶度的影响    13 黄铁矿型（FeS2）硫化物的软化学制备及其催化和电化学性能研究及机理分析:http://www.751com.cn/huaxue/lunwen_27507.html