通过生命周期评估验证化学品的 "绿色性":过氧化物太阳能电池中用作反溶剂的苯甲醚案例

A. Kamal Kamali, Nilanka M. Keppetipola, Yuka Yoshihara, Ajay Kumar Jena, Satoshi Uchida, Hiroshi Segawa, Guido Sonnemann, Thierry Toupance and Ludmila Cojocaru
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摘要

技术发展越来越受到环境可持续性的驱动,"绿色 "等标签也越来越受到重视。然而,产品生命周期中复杂的相互作用使得材料和化学品对环境的影响高度依赖于具体情况,这就凸显了针对具体情况进行环境评估的必要性。苯甲醚已被普遍用作氯苯的 "绿色 "替代品,用于制造过氧化物太阳能电池(PSC)。这项工作验证了苯甲醚在制造 PSC 时的技术和环境性能。使用苯甲醚作为反溶剂,可以获得转换效率超过 22% 的 PSC。此外,在人类致癌和生态系统毒性影响类别中,用苯甲醚替代氯苯可使潜在毒性降低约 50%。不过,苯甲醚在其余 14 个影响类别中的影响都更大。这是由于苯甲醚的多步合成程序造成的气候变化影响是采用单步法合成的氯苯的两倍多。为减少排放,提出了若干建议和策略。最终证明,需要针对具体情况进行透明的环境评估,以便在研发过程中做出知情决定,从而找到环境可持续的解决方案。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

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Validating the “greenness” of chemicals via life cycle assessment: the case of anisole as an anti-solvent in perovskite solar cells†

Technological development is increasingly driven by environmental sustainability, with labels like ‘green’ gaining traction. However, the complex interactions in a product's life cycle make the environmental impact of materials and chemicals highly context-dependent, highlighting the need for context-specific environmental assessments. Anisole has been popularly used as a “green” alternative to chlorobenzene for perovskite solar cell (PSC) fabrication. This work validates the technical and environmental performance of anisole in the fabrication of PSCs. PSCs exhibiting conversion efficiencies exceeding 22% can be attained by using anisole as an antisolvent. Moreover, around 50% reduction in the potential toxicity is obtained when substituting chlorobenzene for anisole embodied in the carcinogenic human and ecosystem toxicity impact categories. Nonetheless, anisole embodies higher impact in all 14 remaining impact categories. This is due to anisole's multistep synthesis procedure that contributes to more than double the climate change impact of chlorobenzene, synthesized by a single-step method. To reduce the emissions several recommendations and strategies are proposed. Ultimately, it has been proved that context-specific and transparent environmental assessments are needed to make informed decisions in research and development leading to environmentally sustainable solutions.

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