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Title Formation and stabilization of colloidal ultra-small palladium nanoparticles on diamine-modified Cr-MIL-101: Synergic boost to hydrogen production from formic acid
Type JournalPaper
Keywords Metal-organic frameworksOpen metal site MOFsPd@Cr-MOFsFormic acid dehydrogenation
Abstract Ultra-small nano-sized palladium particles were successfully stabilized within the pores of diamine groups grafted open metal site metal-organic frameworks of Cr-MIL-101; coordinated diamine groups of ethylene diamine (ED) and propyl diamine (PD) on the active site of chromium units of Cr-MIL-101. The physiochemical properties of the Pd@Cr-MOFs were investigated using FTIR, XRD, SEM/EDX mapping, TEM, BET, and AAS. The Cr-MIL-101 stabilized ultra-small Pd nanoparticles, Pd@(ethylene diamine)/Cr-MIL-101, and Pd@(propyl diamine)/Cr-MIL-101, displayed catalytic activity for clean dehydrogenation of formic acid and generation of hydrogen at room temperature. The resultant Pd@ED/Cr-MIL-101 catalyst indicates high catalytic activity with turnover frequency (TOF) of 583 h−1 at 328 K, which is superior to most of the reported catalysts, including Pd@PD/Cr-MIL-101 with TOF 532 h−1. Our studies open up a new method to the design of an ultra-small metal nanoparticle for the catalytic dehydrogenation of HCOOH.
Researchers Mohammadreza Shokouhimehr (Not In First Six Researchers), Rajender Varma (Not In First Six Researchers), Samad Khaksar (Not In First Six Researchers), Hassan Karimi-Maleh (Not In First Six Researchers), Kaiqiang Zhang (Not In First Six Researchers), Amir Hasanzadeh (Not In First Six Researchers), Aziz Eftekhari (Fifth Researcher), Xiao Liu (Fourth Researcher), (Third Researcher), Sadegh Rostamnia (Second Researcher), Hassan Alamgholiloo (First Researcher)