Low-crystalline CoCu–MgAl oxide nano sheet heterostructures immobilized by crab shell-derived phosphorus-doped carbon for hydrazine dehydrogenation

Samikannu Prabu, Kung Yuh Chiang

Research output: Contribution to journalArticlepeer-review

Abstract

Background: : Hydrogen production and transportation can be made safe and efficient through hydrazine dehydrogenation heterogeneous catalysis. Methods: : The phosphate mediation synthesized CoCu@MgAl2O4 Nano sheets (0.89 nm in diameter) are anchored to crab shell-derived carbon (CSDC). Bimetallic CoCu2+ must be strongly absorbed and dispersed in the phosphate-modified CSDC to produce highly dispersed ultrafine NPs. The phosphate group successfully dispersed the ultrafine CoCu NPs with a size of 1.24 nm on MgAl2O4/(P)CSDC. The optimized Co0.7Cu0.3@MgAl2O4/(P)CSDC system has exceptional catalytic activity for hydrazine dehydrogenation, with a TOF value of 11,070 h−1 at 298 K and 100% H2 selectivity. Significant findings: : The introduction of the phosphate group favors the production of ultrafine and well-dispersed bimetallic CoCu NPs and also influences the electronic structure of metal catalytic sites. This implies that the prepared catalyst could improve the catalytic performance for catalyzing hydrazine dehydrogenation. This research might lead to an effective system for developing high-performance bimetallic Nano systems for future catalytic applications.

Original languageEnglish
Article number104938
JournalJournal of the Taiwan Institute of Chemical Engineers
DOIs
StateAccepted/In press - 2023

Keywords

  • Hydrazine monohydrate, dehydrogenation
  • Phosphorous doped crab shell-derived carbon ((P)CSDC)
  • Small CoCu NPs
  • Ultrathin Mg/Al oxide Nano sheets

Fingerprint

Dive into the research topics of 'Low-crystalline CoCu–MgAl oxide nano sheet heterostructures immobilized by crab shell-derived phosphorus-doped carbon for hydrazine dehydrogenation'. Together they form a unique fingerprint.

Cite this