Analytical methods development for supramolecular design in solar hydrogen production

机译：太阳能氢气生产中超分子设计的分析方法

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In the investigation of alternative energy sources, specifically, solar hydrogen production from water, the ability to perform experiments with a consistent and reproducible light source is key to meaningful photochemistry. The design, construction, and evaluation of a series of LED array photolysis systems for high throughput photochemistry have been performed. Three array systems of increasing sophistication are evaluated using calorimetric measurements and potassium tris(oxalato)ferrate(II) chemical actinometry and compared with a traditional 1000 W Xe arc lamp source. The results are analyzed using descriptive statistics and analysis of variance (ANOVA). The third generation array is modular, and controllable in design. Furthermore, the third generation array system is shown to be comparable in both precision and photonic output to a 1000 W Xe arc lamp.

机译：在对替代能源的调查中，具体而言，来自水的太阳能氢气，能够用一致和可重复的光源进行实验是有意义的光化学的关键。已经进行了用于高通量光化学的一系列LED阵列光解系统的设计，结构和评估。使用量热测量和Tris（Oxalato）铁酸盐（II）化学散曲线来评估三个阵列增加复杂性的系统，并与传统1000W XE弧灯源相比。使用描述性统计和方差分析（ANOVA）分析结果。第三代阵列是模块化的，并且在设计中可控。此外，第三代阵列系统被示出在精度和光子输出中可相当于1000W XE弧灯。

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《Conference on Solar Hydrogen and Nanotechnology》|2006年||共10页
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作者
J. R. Brown; M. Elvington; M. T. Mongelli; D. F. Zigler; K. J. Brewer;
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中图分类特种结构材料;
关键词
photochemistry; photochemical methods; water splitting; solar hydrogen; light emitting diode;

机译：光化学;光化学方法;水分裂;太阳能氢;发光二极管;

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Analytical methods development for supramolecular design in solar hydrogen production

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