Cu(i)-containing MOF as an efficient catalyst for the reactions of carbon dioxide and propargylic alcohols to form carbonates at room temperature

Abstract: In this work, a novel Cu(I)-containing metal organic framework named [CuI]-Cu-BTC was easily synthesized via incorporating the Cu(I) active sites onto the surface of Cu-BTC by in-situ templated electrosynthesis using...

“…Between 330-600 °C, the weight loss corresponds to the decomposition of the organic ligands and metal organic frameworks. 32,33 The weight loss above 600 °C corresponds to further decomposition of residual organic components. The TGA data provides valuable insights into the thermal stability of the catalyst, a crucial factor in catalyst design and performance.…”

In situ construction of halogen MOF bifunctional catalysts for synergistic removal of NO and Hg⁰

“…Between 330-600 °C, the weight loss corresponds to the decomposition of the organic ligands and metal organic frameworks. 32,33 The weight loss above 600 °C corresponds to further decomposition of residual organic components. The TGA data provides valuable insights into the thermal stability of the catalyst, a crucial factor in catalyst design and performance.…”

In situ construction of halogen MOF bifunctional catalysts for synergistic removal of NO and Hg⁰

Construction of covalent organic framework functionalized with carbene dual active sites for enhancing CO2 carboxylation conversion