19 results on '"Xue, Hongyao"'
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2. Magnetic field modulation of high spin hexa-coordinated iron sites to enhance catalytic activity
3. Manganese doping motivated cobalt site and unique hexagonal morphology to boost electrochemical water electrolysis
4. Unleashing the charge compensation effect for enhanced electrochemical water-splitting using low-valent magnesium-inserted CoP
5. Experimental study on the characteristics of loop heat pipe with modified carbon fiber felt wick
6. Experimental study on the influence of surface modification methods of carbon fiber felt on the operation and heat transfer characteristics of loop heat pipes
7. Stimulate the hidden catalysis potential and exposure of nickel site in NiSe@CNTs result in ultra-high HER/OER activity and stability
8. Phosphorus-doped MoS2 with sulfur vacancy defects for enhanced electrochemical water splitting
9. Controllable oxygen vacancies and morphology engineering: Ultra-high HER/OER activity under base–acid conditions and outstanding antibacterial properties
10. 3D urchin like V-doped CoP in situ grown on nickel foam as bifunctional electrocatalyst for efficient overall water-splitting
11. Co–Pyridinic-N Bond Constructed at the Interface of CoxP and N-Doped Carbon to Effectively Facilitate Oxygen Reduction
12. Co–Pyridinic‑N Bond Constructed at the Interface of CoxP and N‑Doped Carbon to Effectively Facilitate Oxygen Reduction.
13. Phosphorus-doped MoS2 with sulfur vacancy defects for enhanced electrochemical water splitting
14. Phosphorus-doped MoS2 with sulfur vacancy defects for enhanced electrochemical water splitting.
15. Engineering ultrahigh-specific-capacity α-Fe2O3 nanoparticles and Ni(OH)2/Co0.85Se nanostructures separately anchored on N-doped graphene nanotubes toward alkaline rechargeable battery
16. Scalable and energy-efficient synthesis of CoxP for overall water splitting in alkaline media by high energy ball milling
17. Phosphorus-doped MoS2with sulfur vacancy defects for enhanced electrochemical water splitting
18. One-step synthesis of flower-like Bi2O3/Bi2Se3 nanoarchitectures and NiCoSe2/Ni0.85Se nanoparticles with appealing rate capability for the construction of high-energy and long-cycle-life asymmetric aqueous batteries
19. One-step synthesis of flower-like Bi2O3/Bi2Se3 nanoarchitectures and NiCoSe2/Ni0.85Se nanoparticles with appealing rate capability for the construction of high-energy and long-cycle-life asymmetric aqueous batteries
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