Corrole,a representative branch of porphyrin,has recently gained popularity.These molecules,viewed as ring‑contracted porphyrinoids containing direct pyrrole‑pyrrole linkages due to the absence of a meso‑carbon atom,e...Corrole,a representative branch of porphyrin,has recently gained popularity.These molecules,viewed as ring‑contracted porphyrinoids containing direct pyrrole‑pyrrole linkages due to the absence of a meso‑carbon atom,exhibit significant photo‑physicochemical properties that make them attractive for various applications.Herein,this review comprehensively discusses the remarkable properties of corrole complexes,as well as related structures and chelation properties.It further explores the biological applications of corrole complexes for in vivo imaging and anticancer therapy.Additionally,it addresses common research bottlenecks and challenges,providing insights into future potential applications in disease diagnosis and treatment.Generally,this review aims to illuminate the significance of corrole complexes and their promising biological applications.展开更多
基金This work was supported by the National Key Research and Development Program of China(2021YFA1500400)the National Natural Science Foundation of China(22071226)+1 种基金the Funding of University of Science and Technology of China(KY2060000168,YD2060002013,KY2060000198)the Collaborative Innovation Program of Hefei Science Center,CAS(CX2060000017).
基金Jiangsu Specially Appointed Professor program,introduction of Talent Research Start fund of Nanjing Medical University(NMUR2019007)Shanghai Key Lab of Forensic Science,Ministry of Justice,China(Academy of Forensic Science Open Subject)(KF202006)Chunhui Project Foundation of the Education Department of China(HZKY20220178)。
文摘Corrole,a representative branch of porphyrin,has recently gained popularity.These molecules,viewed as ring‑contracted porphyrinoids containing direct pyrrole‑pyrrole linkages due to the absence of a meso‑carbon atom,exhibit significant photo‑physicochemical properties that make them attractive for various applications.Herein,this review comprehensively discusses the remarkable properties of corrole complexes,as well as related structures and chelation properties.It further explores the biological applications of corrole complexes for in vivo imaging and anticancer therapy.Additionally,it addresses common research bottlenecks and challenges,providing insights into future potential applications in disease diagnosis and treatment.Generally,this review aims to illuminate the significance of corrole complexes and their promising biological applications.