Chon Hei Lam scite author profile

To achieve practically high electrocatalytic performance for the oxygen evolution reaction (OER), the active surface area should be maximized without severely compromising electron and mass transport throughout the catalyst electrode. Though the importance of electron and mass transport has been studied using low surface area catalysts under low current densities (∼tens of mA/cm2), the transport properties of large surface area catalysts under high operating current densities (∼500 mA/cm2) for practical OER catalysis have rarely been explored. Herein, three-dimensional (3D) hierarchically porous anodized nickel foams (ANFs) with large and variable surface areas were synthesized via electrochemical anodization of 3D nickel foam and applied as OER electrocatalysts in Fe-free and unpurified KOH electrolytes. Using Fe-free and in situ Fe-doped ANF that were prepared in Fe-free and unpurified electrolytes, respectively, we investigated the interdependent effects of active surface area and transport properties on OER activity under practically high current densities. While activity increased linearly with active surface area for Fe-free ANF, the activity of Fe-doped ANF showed a nonlinear increase with active surface area due to lower electrocatalytic activity enhancement. Detailed investigations on the possible factors (Fe incorporation, mass transport, and electron transport) identified that electron transport limitations played the major role in restricting the activity enhancement with increasing active surface area for Fe-doped ANF, although Fe-doped ANF has electron transport properties better than those of Fe-free ANF. This study exemplifies the growing significance of electron transport properties in large surface area catalysts, especially those with superb intrinsic catalytic activity and high operating current density.

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Polymorphism/pseudopolymorphism of metal–organic frameworks composed of zinc(ii) and 2-methylimidazole: synthesis, stability, and application in gas storage

Lam

Chang

et al. 2016

RSC Adv.

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Epitaxial, electro‐optically active barium titanate thin films on silicon by chemical solution deposition

et al. 2019

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Recent progress in the integration of BaTiO3 thin films with silicon has shown great promise for the development of on‐chip photonic devices. However, the highest performing thin films in the literature are deposited by costly and/or complex vacuum techniques. In this study, epitaxial BaTiO3 thin films are deposited on thin SrTiO3 template layers on Si(001) from an alkoxide‐based chemical solution under atmospheric conditions and yield an effective Pockels coefficient of 27 ± 4 pm/V for an ~85 nm film. Film crystallinity, microstructure, and defect nature are examined by X‐ray diffraction and high‐resolution transmission and scanning electron microscopy techniques and discussed within the context of the growth method as well as the observed electro‐optical response.

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High-throughput fabrication of zeolite thin films via ultrasonic nozzle spray deposition

Lam

Hsu

Chi

et al. 2018

Microporous and Mesoporous Materials

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High-permeance metal–organic framework-based membrane adsorber for the removal of dye molecules in aqueous phase

Chi

Lam

et al. 2017

Environ. Sci.: Nano

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Chon Hei Lam

Anodized Nickel Foam for Oxygen Evolution Reaction in Fe-Free and Unpurified Alkaline Electrolytes at High Current Densities

Polymorphism/pseudopolymorphism of metal–organic frameworks composed of zinc(ii) and 2-methylimidazole: synthesis, stability, and application in gas storage

Epitaxial, electro‐optically active barium titanate thin films on silicon by chemical solution deposition

High-throughput fabrication of zeolite thin films via ultrasonic nozzle spray deposition

High-permeance metal–organic framework-based membrane adsorber for the removal of dye molecules in aqueous phase

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