Zinc metal has a severe dendrite issue caused by the uneven Zn plating/stripping during continual cycles, which hinders the practical application of ZIBs. The surficial atomic structure of zinc anode plays a decisive role in solving dendrites and improving the electrochemical performance. According to the density functional theory results, Zn (100) plane possesses a much stronger adsorption energy of zinc atom compared with the (002), thus zinc atom preferentially nucleates on the (100) surface. It subsequently continues to grow vertically on (100). Herein, the zinc anode is designed with hexagonal‐hole patterns (h‐Zn) through a phosphoric acid etching reaction. An abundance of Zn (100) crystal planes are exposed perpendicularly to the anode surface, while the (002) surfaces are at the bottom of these hexagonal holes. Zinc prefers to deposit in hexagonal holes at the (100) surfaces, favoring the restraining of the surficial dendrite growth and accelerating the Zn deposition kinetics. Thus, the symmetric cell using h‐Zn exhibits a long cycling lifespan for over 1200 h and extremely low polarization voltage of ≈80 mV at 5 mA cm–2 and 1 mAh cm–2. This work provides an insight into the surficial structure design and crystal plane regulation to fabricate brilliant zinc metal anodes.
Photocatalytic hydrogenation provides an effective alternative way for the synthesis of industrial chemicals to meet the economic and environment expectations. Especially, over the past few years, metal-organic frameworks (MOFs), featured with tunable structure, porosity, and crystallinity, have been significantly developed as many high-performance catalysts in the field of photocatalysis. In this review, the background and development of photocatalytic hydrogenation are systemically summarized. In particular, the comparison between photocatalysis and thermal catalysis, and the fundamental understanding of photohydrogenation, including reaction pathways, reducing species, regulation of selectivity, and critical parameters of light, are proposed. Moreover, this review highlights the advantages of MOFs-based photocatalysts in the area of photohydrogenation. Typical effective strategies for modifying MOFs-based composites to produce their advantages are concluded. The recent progress in the application of various types of MOFs-based photocatalysts for photohydrogenation of unsaturated organic chemicals and carbon dioxide (CO 2 ) is summarized and discussed in detail. Finally, a brief conclusion and personal perspective on current challenges and future developments of photocatalytic hydrogenation processes and MOFs-based photocatalysts are also highlighted.
Phosphorus has been considered as a promising anode for lithium-ion batteries because of its high specific capacity of 2596 mA h g−1 and safe lithiation voltage of 0.7 V. However,...
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