Metal substrate mounted flexible dye sensitised semiconductor solar cells

金属基板安装柔性染料敏化半导体太阳能电池

• 批准号: EP/E035175/1
• 负责人: James Durrant
• 金额: $ 64.75万
• 依托单位: Imperial College London
• 依托单位国家: 英国
• 项目类别: Research Grant
• 财政年份: 2007
• 资助国家: 英国
• 起止时间: 2007 至 无数据
• 项目状态: 已结题
• 来源: https://gtr.ukri.org/projects?ref=EP%2FE035175%2F1
• 关键词: Metal; substrate; mounted; flexible; dye

More solar energy falls on the Earth's surface every day than the whole of humankind would consume in 27 years (i.e. 10,000 times our needs). To harness this potential and provide a reliable and economic carbon free source of electricity is however a non trivial problem. Dye sensitised semiconductor cells (DSSCs) based on sensitised nanocrystalline titania sandwiched between transparent conducting oxide glass have been developed with efficiencies of up to 11%.The current barriers to DSSCs are cost, manufacturability and durability. Low cost photovoltaic (PV) coatings in the modern built environment promise great financial/environmental benefits, potentially competing with mainstream energy sources. Our novel approach will study dye-sensitised titania photovoltaics in polymer coatings on strip steel, providing a large area solar collector. Our aim is breakthrough low cost PV surfaces, using cost effective materials and rapid/continuous coil coating manufacturing. Corus Colors coil coating facilities produce 1,000,000 T/yr of painted steel products; ? of which ends up on roofs. This equates to approximately 100 million m2 of organic coated strip steel (OCS) roofs. The average amount of UK solar irradiation is 900 kW.hr/m2/yr. If the light-to-electricity efficiency of the PV coating is 6%, 100 million m2 of PV coated roofs with an integrated photovoltaic capacity would produce 5400 GW.hr of electricity. This equates to 600 MW of conventional power capacity or over 2400 MW of a renewable source such as onshore wind power. Considering that this amount of roofing is added to the UK annually, the opportunity for large scale PV energy production is very significant. The continuous fabrication of DSSC's on strip steel raises significant new scientific challenges. These are broadly in four key areas: (1) developing strongly adherent and active sensitised nanostructured titania layers on metal substrates suitable for high speed application, (2) developing a suitable electrolyte which eliminates volatile components and associated sealing issues, (3) optimising collection efficiency and counter electrode design and (4) durability and compatibility of materials to ensure a reasonable operational life in external exposure, including in particular the development of suitable barrier layers to prevent corrosion of the steel substrate. The project brings together leading researchers in the field of dye sensitised solar cells (Imperial) and photoelectrochemistry (Bath), materials deposition and surface chemistry (Bangor) and steel coating development (Swansea). Critical to the success of this ambitious programme is the support of the World's second largest producer of coil coated materials, Corus Colors. The assembled partnership has the capability to deliver a unique solution to cost-effective passive generation of electricity from the walls and roofs of buildings and provide novel mechanistic insights into the fundamental photoelectrochemistry of metal mounted DSSCs.

每天落在地球表面的太阳能福尔斯比全人类27年消耗的还要多（即我们需求的10，000倍）。然而，利用这种潜力并提供可靠且经济的无碳电力来源是一个不小的问题。染料敏化半导体电池（DSSC）是将敏化的纳米二氧化钛夹在透明导电氧化物玻璃中制成的，其效率可达11%，目前DSSC的主要障碍是成本、可制造性和耐久性。现代建筑环境中的低成本光伏（PV）涂层有望带来巨大的经济/环境效益，可能与主流能源竞争。我们的新方法将研究在带钢上的聚合物涂层中的染料敏化二氧化钛光催化剂，提供大面积的太阳能集热器。我们的目标是突破性的低成本光伏表面，使用具有成本效益的材料和快速/连续的卷材涂层制造。Corus Colors卷材涂料工厂每年生产100万吨涂漆钢产品;？最后都在屋顶上这相当于约1亿平方米的有机涂层带钢（OCS）屋顶。英国的平均太阳辐射量为900 kW.hr/m2/yr。如果PV涂层的光电效率为6%，则1亿m2具有集成光伏容量的PV涂层屋顶将产生5400GW.hr电力。这相当于600兆瓦的传统电力容量或超过2400兆瓦的可再生能源，如陆上风力发电。考虑到英国每年都要增加这么多的屋顶，大规模光伏发电的机会非常重要。在带钢上连续制造DSSC提出了重大的新的科学挑战。这些措施大致涉及四个关键领域：（1）在适合高速应用的金属基底上开发强粘附和活性敏化的纳米结构二氧化钛层，（2）开发消除挥发性组分和相关密封问题的合适电解质，（3）优化收集效率和反电极设计，以及（4）材料的耐久性和兼容性，以确保在外部暴露下的合理使用寿命，特别是包括开发合适的阻挡层，以防止钢基材的腐蚀。该项目汇集了染料敏化太阳能电池（帝国）和光电化学（浴），材料沉积和表面化学（班戈尔）和钢铁涂层开发（斯旺西）领域的领先研究人员。这一雄心勃勃的计划取得成功的关键是世界第二大卷材涂层材料生产商Corus Colors的支持。组装的合作伙伴关系有能力提供一个独特的解决方案，从建筑物的墙壁和屋顶进行具有成本效益的被动发电，并为金属安装DSSC的基本光电化学提供新的机械见解。

项目成果

Electron Injection Efficiency and Diffusion Length in Dye-Sensitized Solar Cells Derived from Incident Photon Conversion Efficiency Measurements

• DOI: 10.1021/jp809046j
• 发表时间: 2009-01-22
• 期刊: Journal of Physical Chemistry C
• 影响因子: 3.7
• 作者: Barnes, Piers R. F.;Anderson, Assaf Y.;O'Regan, Brian C.
• 通讯作者: O'Regan, Brian C.

Factors controlling charge recombination under dark and light conditions in dye sensitised solar cells.

• DOI: 10.1039/c0cp01855d
• 发表时间: 2011-02
• 期刊: Physical chemistry chemical physics : PCCP
• 作者: Piers R. F. Barnes;Assaf Y Anderson;Mindaugas Juozapavicius;Lingxuan Liu;Xiaoe Li;E. Palomares;Amparo Fo

Simultaneous Transient Absorption and Transient Electrical Measurements on Operating Dye-Sensitized Solar Cells: Elucidating the Intermediates in Iodide Oxidation

• DOI: 10.1021/jp910221j
• 发表时间: 2010-02-04
• 期刊: JOURNAL OF PHYSICAL CHEMISTRY C
• 影响因子: 3.7
• 作者: Anderson, Assaf Y.;Barnes, Piers R. F.;O'Regan, Brian C.
• 通讯作者: O'Regan, Brian C.

Zn(II) versus Ru(II) phthalocyanine-sensitised solar cells. A comparison between singlet and triplet electron injectors

• DOI: 10.1039/c0ee00083c
• 发表时间: 2010-01-01
• 期刊: ENERGY & ENVIRONMENTAL SCIENCE
• 影响因子: 32.5
• 作者: Listorti, Andrea;Lopez-Duarte, Ismael;Durrant, James R.
• 通讯作者: Durrant, James R.

Quantifying Regeneration in Dye-Sensitized Solar Cells

• DOI: 10.1021/jp1101048
• 发表时间: 2011-02-10
• 期刊: JOURNAL OF PHYSICAL CHEMISTRY C
• 影响因子: 3.7
• 作者: Anderson, Assaf Y.;Barnes, Piers R. F.;O'Regan, Brian C.
• 通讯作者: O'Regan, Brian C.