纳米技术
仿生学
材料科学
能量转换
纳米材料
超分子化学
能量收集
超分子聚合物
高效能源利用
可持续能源
能量转移
基石
钥匙(锁)
太阳能转换
太阳能
领域(数学)
表面改性
光能
聚合物
灵活性(工程)
计算机科学
设计要素和原则
仿生材料
生化工程
人工光合作用
能量(信号处理)
可持续设计
工作(物理)
作者
Qiaona Zhang,Tangxin Xiao,Yuehua Chen,Yu Liu,L C WANG
标识
DOI:10.1039/9781837677658-00381
摘要
The use of light energy is a cornerstone of sustainable energy solutions, inspiring extensive research into artificial light-harvesting systems (LHSs) that mimic natural photosynthesis. Among various approaches, supramolecular polymer (SP) materials have emerged as a versatile platform for constructing efficient LHSs due to their dynamic, self-assembling nature and tunable optical properties. This chapter comprehensively explores the design principles, synthesis, and functionalization of SPs tailored for light-harvesting applications. We analyze key strategies for enhancing light absorption, energy transfer efficiency, and photostability within these materials. Additionally, the integration of SPs with other nanomaterials to create hybrid systems is discussed, highlighting the potential for multifunctional LHSs. Despite significant advancements, challenges remain in achieving optimal performance and scalability. Future research directions include the development of novel supramolecular motifs, exploration of bio-inspired architectures, and the pursuit of environmentally benign synthesis methods to propel the field toward practical applications in solar energy conversion and beyond.
科研通智能强力驱动
Strongly Powered by AbleSci AI