Sijie Xie scite author profile

Cobalt phosphides electrocatalysts have great potential for water splitting, but the unclear active sides hinder the further development of cobalt phosphides. Wherein, three different cobalt phosphides with the same hollow structure morphology (CoP‐HS, CoP2‐HS, CoP3‐HS) based on the same sacrificial template of ZIF‐67 are prepared. Surprisingly, these cobalt phosphides exhibit similar OER performances but quite different HER performances. The identical OER performance of these CoPx‐HS in alkaline solution is attributed to the similar surface reconstruction to CoOOH. CoP‐HS exhibits the best catalytic activity for HER among these CoPx‐HS in both acidic and alkaline media, originating from the adjusted electronic density of phosphorus to affect absorption–desorption process on H. Moreover, the calculated ΔGH* based on P‐sites of CoP‐HS follows a quite similar trend with the normalized overpotential and Tafel slope, indicating the important role of P‐sites for the HER process. Moreover, CoP‐HS displays good performance (cell voltage of 1.67 V at a current density of 50 mA cm−2) and high stability in 1 M KOH. For the first time, this work detailly presents the critical role of phosphorus in cobalt‐based phosphides for water splitting, which provides the guidance for future investigations on transition metal phosphides from material design to mechanism understanding.

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Oxygen‐Deficient Blue TiO₂ for Ultrastable and Fast Lithium Storage

Hao

Chen

Dai

et al. 2020

Advanced Energy Materials

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Developing a titanium dioxide (TiO2)‐based anode with superior high‐rate capability and long‐term cycling stability is important for efficient energy storage. Herein, a simple one‐step approach for fabricating blue TiO2 nanoparticles with oxygen vacancies is reported. Oxygen vacancies can enlarge lattice spaces, lower charge transfer resistance, and provide more active sites in TiO2 lattices. As a result, this blue TiO2 electrode exhibits a highly reversible capacity of 50 mAh g−1 at 100 C (16 800 mA g−1) even after 10 000 cycles, which is attributable to the combination of surface capacitive process and remarkable diffusion‐controlled insertion revealed by the kinetic analysis. The strategy of employing oxygen‐deficient nanoparticles may be extended to the design of other robust semiconductor materials as electrodes for energy storage.

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Energy storage smart window with transparent-to-dark electrochromic behavior and improved pseudocapacitive performance

Xie

Chen

et al. 2019

Chemical Engineering Journal

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Sijie Xie

Single-crystal nickel-rich layered-oxide battery cathode materials: synthesis, electrochemistry, and intra-granular fracture

Critical Role of Phosphorus in Hollow Structures Cobalt‐Based Phosphides as Bifunctional Catalysts for Water Splitting

Oxygen‐Deficient Blue TiO₂ for Ultrastable and Fast Lithium Storage

Energy storage smart window with transparent-to-dark electrochromic behavior and improved pseudocapacitive performance

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Sijie Xie

Single-crystal nickel-rich layered-oxide battery cathode materials: synthesis, electrochemistry, and intra-granular fracture

Critical Role of Phosphorus in Hollow Structures Cobalt‐Based Phosphides as Bifunctional Catalysts for Water Splitting

Oxygen‐Deficient Blue TiO2 for Ultrastable and Fast Lithium Storage

Energy storage smart window with transparent-to-dark electrochromic behavior and improved pseudocapacitive performance

Contact Info

Product

Resources

About

Oxygen‐Deficient Blue TiO₂ for Ultrastable and Fast Lithium Storage