磷化铟
量子点
材料科学
能量转换
纳米材料
纳米技术
磷化物
光电子学
铟
能量转换效率
纳米颗粒
兴奋剂
光催化
制氢
纳米尺度
太阳能
高效能源利用
高能
清洁能源
氨
分解水
可扩展性
作者
Hongyang Zhao,Z. Tang,Shuya Cui,Lirong Yang,X.‐D. Xiang,Jing Bai,Jingying Luo,Zhuojian Li,Xin Li,Guoqi Xiang,Wuyang Ren,Xin Tong
摘要
Colloidal indium phosphide (InP) quantum dots (QDs) have emerged as a compelling class of heavy metal-free nanomaterials due to their low toxicity and size-tunable optoelectronic properties, showing great potential in solar-driven energy conversion applications. Here, a variety of synthetic techniques for preparing high-quality InP QDs, including hot-injection, heat-up, cluster-mediated growth, and cation exchange, are thoroughly reviewed. To realize enhanced photocatalytic (PC) and photoelectrochemical (PEC) performance, diverse strategies such as core/shell engineering, hybrid ligand modification and elemental doping of InP QDs are discussed in detail, which are beneficial to build various efficient QDs-based systems for hydrogen evolution, CO2 reduction, ammonia synthesis, and H2O2 production. Moreover, the main challenges and future research directions of InP QDs are briefly proposed, providing guidelines to achieve future low-cost, eco-friendly, scalable and high-efficiency QDs-based solar energy conversion technologies.
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