Mechanisms Behind Cobalt X-ide Electrocatalysts

The unsung heroes of electrochemical reactions – electrocatalysts – can assist in optimizing factors such as the reaction’s speed, yield, and energy consumption. As such, these electrocatalysts are crucial for optimizing large-scale production in pharmaceutical, agrochemical, and petrochemical industries. Researchers at Tohoku University and Nanjing Normal University conducted a deep dive on the performance of an emerging category of electrocatalysts: cobalt oxides (henceforth referred to as Co X-ides).

The research team sought to use Co X-ides for the electrocatalytic hydrogenation of quinoline (ECHQ). This process is an attractive alternative to other methods, as it can be conducted under ambient temperatures and can result in a net zero carbon footprint. In comparison, conventional methods to hydrogenate quinoline release undesirable byproducts, and require the storage and transportation of highly flammable hydrogen – which is equal parts dangerous and costly.

Electrochemical performance of Co X-ides toward ECHQ: (a) LSV curves at scan rate of 10 mV s⁻¹ in the electrolyte of 12 mL 1.0 M KOH and 2 mL of dioxane mixture solution (with and without 0.2 mmol of 1a); (b-c) GC‒MS results; (d) ¹H NMR and (e) ¹³C NMR comparison of the product of Co₃O₄F, standard 1a and standard 2a; (f) Conversion and selectivity of Co₃O₄ under different bias potential; (g) Time-dependent evolution of 1a and its product 2a over Co₃O₄; (h) Conversion and selectivity comparison of Co X-ides; (i) Cycle-dependent performance of transforming 1a into 2a over Co₃O₄. Error bars correspond to the standard deviation of three independent measurements. ©Hao Li et al.

“Previous research on ECHQ focused more on the optimization of catalytic activity, whereas for ECHQ reaction mechanisms and reaction path explorations, we might as well be starting with a blank page,” explains Tianyi Wang from Tohoku University’s Advanced Institute for Materials Research (WPI-AIMR).

“One goal of this study was to try and find which Co X-ide was “the best” one,” says Hao Li of WPI-AIMR, “However, we also need to be able to understand why certain catalysts perform differently.”

It was found that among selected Co X-ides, Co₃O₄ was the winner. It demonstrated the best ECHQ performance with a high conversion of 98.2% and selectivity of 100% under ambient conditions. The Co₃O₄ sites present a higher proportion of 2-coordinated hydrogen-bonded water at the interface than other Co X-ides at a low negative potential, which enhances the kinetics of subsequent water dissociation to produce H*.

Mechanism exploration of ECHQ: (a) EPR spectra trapping for hydrogen radicals; (b) ¹H NMR spectra of 2a (blue) and deuterated 2a (red); In-situ Raman spectra of (c) Co₃O₄, (d) CoP and (e) Co(OH)F; (f) In-situ FTIR measurements under various times for Co₃O₄ during ECHQ; (g) Schematic diagram of ECHQ on Co₃O₄ surface. ©Hao Li et al.

In comparison, the Co₉S₈ sites displayed the lowest ECHQ performance due to the high thermodynamic barrier in the H* formation step, which suppressed subsequent hydrogenation. Co(OH)F and CoP sites also had a low conversion of quinoline, due to high desorption barriers.

This study will help significantly advance our understanding of the catalytic mechanisms in ECHQ. These findings were published in Advanced Materials on September 2, 2024.

Theoretical insights into ECHQ: 2D surface Pourbaix diagrams of vacancies-decorated (a) Co(OH)F(310), (b) Co₃O₄(311), (c) CoP(010), and (d) Co₉S₈(311); (e) The proposed possible ECHQ reaction paths via water dissociation; The energy profile diagrams of vacancies-decorated (f) Co₃O₄-O_v, (g) CoP-P_v, (h) Co(OH)F-OH_v and (i) Co₉S₈-S_v. (blue: Co, red: O, green: P, cyan: F, yellow: S). ©Hao Li et al.

Publication Details:
Title: Identifying Highly Active and Selective Cobalt X-Ides for Electrocatalytic Hydrogenation of Quinoline
Authors: Han Du, Tianyi Wang, Meng Li*, Zitong Yin, Ransheng Lv, Muzhe Zhang, Xiangrui Wu, Yawen Tang, Hao Li*, Gengtao Fu*
Journal: Advanced Materials
DOI:

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