Stable porphyrin Zr and Hf metal-organic frameworks featuring 2.5 nm cages: High surface areas, SCSC transformations and catalyses

Jun Zheng; Mingyan Wu; Feilong Jiang; Weiping Su; Maochun Hong

Journal ArticleOPEN ACCESS

Stable porphyrin Zr and Hf metal-organic frameworks featuring 2.5 nm cages: High surface areas, SCSC transformations and catalyses

Chemical Science (2015) 6(6) 3466-3470

DOI: 10.1039/c5sc00213c

129Citations

72Readers

Abstract

Two isostructural porphyrin Zr and Hf metal-organic frameworks (FJI-H6 and FJI-H7) are rationally synthesized, and are constructed from 2.5 nm cubic cages. Notably, they both possess high water and chemical stability and can undergo single-crystal to single-crystal transformations to embed Cu2+ ions into the open porphyrin rings. FJI-H6 has a high BET surface area of 5033 m2 g-1. Additionally, they exhibit promising catalytic abilities to convert CO2 and epoxides into cyclic carbonates at ambient conditions. This journal is

Cite

CITATION STYLE

APA

Zheng, J., Wu, M., Jiang, F., Su, W., & Hong, M. (2015). Stable porphyrin Zr and Hf metal-organic frameworks featuring 2.5 nm cages: High surface areas, SCSC transformations and catalyses. Chemical Science, 6(6), 3466–3470. https://doi.org/10.1039/c5sc00213c

Stable porphyrin Zr and Hf metal-organic frameworks featuring 2.5 nm cages: High surface areas, SCSC transformations and catalyses

Abstract

Cite

Register to see more suggestions