Alan G MacDiarmid Nanotech Institute, University of Texas at Dallas, Richardson, TX 75080-3021, USA.
Nanotechnology. 2012 Mar 2;23(8):085201. doi: 10.1088/0957-4484/23/8/085201. Epub 2012 Feb 1.
We demonstrated the replacement of the Pt catalyst normally used in the counter electrode of a dye-sensitized solar cell (DSSC) by a nanocomposite of dry spun carbon multi-walled nanotube (MWNT) sheets with graphene flakes (Gr-F). The effectiveness of this counter electrode on the reduction of the triiodide in the iodide/triiodide redox (I(-)/I(3)(-)) redox reaction was studied in parallel with the use of the dry spun carbon MWNT sheets alone and graphene flakes used independent of each other. This nanocomposite deposited onto fluorinated tin-oxide-coated glass showed improved catalytic behavior and power conversion efficiency (7.55%) beyond the use of the MWNTs alone (6.62%) or graphene alone (4.65%) for the triiodide reduction reaction in DSSC. We also compare the use of the carbon MWNT/Gr-F composite counter electrode with a DSSC using the standard Pt counter electrode (8.8%). The details of increased performance of graphene/MWNT composite electrodes as studied are discussed in terms of increased catalytic activity permitted by sharp atomic edges that arise from the structure of graphene flakes or the defect sites in the carbon MWNT and increased electrical conductivity between the carbon MWNT bundles by the graphene flakes.
我们用干纺碳多壁纳米管(MWNT)片与石墨烯片(Gr-F)的纳米复合材料替代了染料敏化太阳能电池(DSSC)中通常使用的对电极中的 Pt 催化剂。我们研究了这种对电极在还原碘化物/三碘化物氧化还原(I(-)/I(3)(-))氧化还原反应中的三碘化物的有效性,同时还分别使用了干纺碳 MWNT 片和独立使用的石墨烯片。将这种纳米复合材料沉积在涂有氟掺杂氧化锡的玻璃上,与单独使用 MWNTs(6.62%)或石墨烯(4.65%)相比,在 DSSC 中用于三碘化物还原反应时显示出改进的催化行为和功率转换效率(7.55%)。我们还将使用碳 MWNT/Gr-F 复合对电极的 DSSC 与使用标准 Pt 对电极的 DSSC(8.8%)进行了比较。我们根据石墨烯片的结构或碳 MWNT 中的缺陷位点导致的尖锐原子边缘所允许的催化活性的增加以及石墨烯片之间的碳 MWNT 束的导电性的增加,讨论了研究中石墨烯/MWNT 复合电极性能提高的细节。
