Autocatalysis and Oriented Attachment Direct the Synthesis of a Metal–Organic Framework

Autor: Dighe, Anish V., Huelsenbeck, Luke, Bhawnani, Rajan R., Verma, Prince, Stone, Kevin H., Singh, Meenesh R., Giri, Gaurav
Zdroj: JACS Au; February 2022, Vol. 2 Issue: 2 p453-462, 10p
Abstrakt: Synthesis of porous, covalent crystals such as zeolites and metal–organic frameworks (MOFs) cannot be described adequately using existing crystallization theories. Even with the development of state-of-the-art experimental and computational tools, the identification of primary mechanisms of nucleation and growth of MOFs remains elusive. Here, using time-resolved in-situ X-ray scattering coupled with a six-parameter microkinetic model consisting of ∼1 billion reactions and up to ∼100 000 metal nodes, we identify autocatalysis and oriented attachment as previously unrecognized mechanisms of nucleation and growth of the MOF UiO-66. The secondary building unit (SBU) formation follows an autocatalytic initiation reaction driven by a self-templating mechanism. The induction time of MOF nucleation is determined by the relative rate of SBU attachment (chain extension) and the initiation reaction, whereas the MOF growth is primarily driven by the oriented attachment of reactive MOF crystals. The average size and polydispersity of MOFs are controlled by surface stabilization. Finally, the microkinetic model developed here is generalizable to different MOFs and other multicomponent systems.
Databáze: Supplemental Index