Guo-Dong Li
Jilin University
230 Papers
1.1K Citations
Guo-Dong Li is an academic researcher from Jilin University. The author has contributed to research in topics: Catalysis & Photocatalysis. The author has an hindex of 48, co-authored 219 publications. Previous affiliations of Guo-Dong Li include Shanghai Jiao Tong University.
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Papers
Coupling Mo2C with Nitrogen‐Rich Nanocarbon Leads to Efficient Hydrogen‐Evolution Electrocatalytic Sites
TL;DR: A one-step facile synthesis of a novel precious-metal-free hydrogen-evolution nanoelectrocatalyst that is composed of ultrasmall molybdenum carbide (Mo2 C) nanoparticles embedded within nitrogen-rich carbon (NC) nanolayers that shows remarkable catalytic activity, has great durability, and gives about 100 % Faradaic yield toward the hydrogen-Evolution reaction (HER) over a wide pH range.
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Ultrafast Formation of Amorphous Bimetallic Hydroxide Films on 3D Conductive Sulfide Nanoarrays for Large-Current-Density Oxygen Evolution Electrocatalysis.
Xu Zou,Yipu Liu,Guo-Dong Li,Yuanyuan Wu,Da Peng Liu,Wang Li,Hai Wen Li,Dejun Wang,Dejun Wang,Yu Zhang,Xiaoxin Zou +10 more
TL;DR: Experimental results indicate that the effective integration of high catalytic reactivity, high structural stability, and high electronic conductivity into a single material system makes Ni-Fe-OH@Ni3 S2 /NF a remarkable catalytic ability for OER at large current densities.
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Corrosion engineering towards efficient oxygen evolution electrodes with stable catalytic activity for over 6000 hours
TL;DR: This paper develops an energy-efficient, cost-effective, scaled-up corrosion engineering method for transforming inexpensive iron substrates into highly active and ultrastable electrodes for oxygen evolution reaction, and prepares active water-splitting electrocatalysts via corrosion engineering that are stable for thousands of hours.
Overall Water Splitting Catalyzed Efficiently by an Ultrathin Nanosheet-Built, Hollow Ni3S2-Based Electrocatalyst
TL;DR: In this article, the synthesis of ultrathin nanosheet-based, hollow MoOx/Ni3S2 composite microsphere catalysts on nickel foam, using ammonium molybdate as a precursor and the triblock copolymer pluronic P123 as a structure-directing agent is reported.
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Structures, photoluminescence, up-conversion, and magnetism of 2D and 3D rare-earth coordination polymers with multicarboxylate linkages.
TL;DR: Four new rare-earth compounds have been synthesized through preheating and cooling-down crystallization and exhibit strong red luminescence upon 355-nm excitation and the magnetic properties of compounds 1, 2, and 4 have been studied through measurement of their magnetic susceptibilities.
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