325 results on '"Chen, Xiang Ying"'
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2. Design and theoretical study of novel deep eutectic solvents: The effects of bromine and chloride anions on solvation structure and supercapacitor performance
3. The construction of a new deep eutectic solvents system based on choline chloride and butanediol: The influence of the hydroxyl position of butanediol on the structure of deep eutectic solvent and supercapacitor performance
4. Boron/oxygen-induced surface modification of carbon material and the use of p-aminophenol as electrolyte additive: Cooperative effect for increased capacitive performance in acidic or alkaline electrolyte
5. A novel electrolyte of ternary deep eutectic solvent for wide temperature region supercapacitor with superior performance
6. Highly boosting the supercapacitor performance by polydopamine-induced surface modification of carbon materials and use of hydroquinone as an electrolyte additive
7. Sulfur modification of carbon materials as well as the redox additive of Na2S for largely improving capacitive performance of supercapacitors
8. Design and theoretical study of carbon-based supercapacitors especially exhibiting superior rate capability by the synergistic effect of nitrogen and phosphor dopants
9. Low-temperature and pressure-promoted synthesis of porous carbon modified with oxygen for supercapacitor application
10. Surface modification of carbon materials by nitrogen/phosphorus co-doping as well as redox additive of ferrous ion for cooperatively boosting the performance of supercapacitors
11. Design and synthesis of highly N, S co-doped 3D carbon materials with tunable porosity for supercapacitors
12. Boron doping and structure control of carbon materials for supercapacitor application: the effect of freeze-drying and air-drying for porosity engineering
13. Integrating surface functionalization and redox additives to improve surface reactivity for high performance supercapacitors
14. Hierarchically N/O-enriched nanoporous carbon for supercapacitor application: Simply adjusting the composition of deep eutectic solvent as well as the ratio with phenol-formaldehyde resin
15. Design and synthesis of phosphomolybdic acid/silver dual-modified microporous carbon composite for high performance supercapacitors
16. In-situ synthesis of highly nitrogen, sulfur co-doped carbon nanosheets from melamine-formaldehyde-thiourea resin with improved cycling stability and energy density for supercapacitors
17. Endowing the Operability of Supercapacitors at High Temperatures by Regulating the Solvation Structure in Dilute Hybrid Electrolyte with Trimethyl Phosphate Cosolvent.
18. Large performance improvement of carbon-based supercapacitors using dual-redox additives phosphotungstic acid and potassium ferricyanide
19. Illustrating the effect of electron withdrawing and electron donating groups adherent to p-hydroquinone on supercapacitor performance: The cases of sulfonic acid and methoxyl groups
20. Carbon nanosheets-based supercapacitors: Design of dual redox additives of 1, 4-dihydroxyanthraquinone and hydroquinone for improved performance
21. Delayed detached Eddy simulation of wing flutter boundary using high order schemes
22. Redox additives of Na2MoO4 and KI: Synergistic effect and the improved capacitive performances for carbon-based supercapacitors
23. Use of pyrocatechol violet as an effective redox additive for highly promoting the supercapacitor performances
24. Nitrogen and oxygen functionalized hollow carbon materials: The capacitive enhancement by simply incorporating novel redox additives into H2SO4 electrolyte
25. Sb2MoO6, Bi2MoO6, Sb2WO6, and Bi2WO6 flake-like crystals: Generalized hydrothermal synthesis and the applications of Bi2WO6 and Bi2MoO6 as red phosphors doped with Eu3+ ions
26. Simply incorporating an efficient redox additive into KOH electrolyte for largely improving electrochemical performances
27. Controllable synthesis of 2D amorphous carbon and partially graphitic carbon materials: Large improvement of electrochemical performance by the redox additive of sulfanilic acid azochromotrop in KOH electrolyte
28. Nitrogen-doped nanoporous carbon materials derived from folic acid: Simply introducing redox additive of p-phenylenediamine into KOH electrolyte for greatly improving the supercapacitor performance
29. Large capacitive enhancement of N-doped nanoporous carbon by the addition of novel redox additive of diphenylcarbazide
30. Notable improvement of capacitive performance of highly nanoporous carbon materials simply by a redox additive electrolyte of p-nitroaniline
31. Zinc citrate-based nanoporous carbon materials: Large capacitive enhancement using redox active electrolyte of p-phenylenediamine
32. Diphenylcarbazide-based carbon materials: Novel redox additives for simply and largely improving the electrochemical performance
33. Nitrogen and sulfur co-doped nanoporous carbon material derived from p-nitrobenzenamine within several minutes and the supercapacitor application
34. Pronounced improvement of supercapacitor capacitance by using redox active electrolyte of p-phenylenediamine
35. Efficient conversion of waste polyvinyl chloride into nanoporous carbon incorporated with MnOx exhibiting superior electrochemical performance for supercapacitor application
36. A simple Mg(OH)2-assisted template carbonization method to N-doped nanoporous carbon material from phenidone and the capacitive improvement with the addition of azobisformamide
37. N-doped nanoporous carbons for the supercapacitor application by the template carbonization of glucose: The systematic comparison of different nitridation agents
38. Thiocarbanilide-derived nanoporous carbon materials by a simple template carbonization method: The comparison of Ca(OH)2 and Mg(OH)2 template effects upon pore structures and capacitive behaviors
39. Nitrogen/manganese oxides co-doped nanoporous carbon materials: Structure characterization and electrochemical performances for supercapacitor applications
40. A simple CaCO3-assisted template carbonization method for producing nitrogen-containing nanoporous carbon spheres and its electrochemical improvement by the nitridation of azodicarbonamide
41. Mechanistic Insights into the Intermolecular Interaction and Li+ Solvation Structure in Small-Molecule Crowding Electrolytes for High-Voltage Aqueous Supercapacitors
42. Structure and electrochemical performance of nitrogen-containing nanoporous carbon from diphenylcarbazide via a template carbonization route
43. Synthesis and supercapacitor application of nanoporous carbon by the direct carbonization of aluminium salicylate coordination polymer
44. Structure and electrochemical performance of highly nanoporous carbons from benzoate–metal complexes by a template carbonization method for supercapacitor application
45. Highly nanoporous carbon derived from potassium biphthalate by a template carbonization method
46. A rational template carbonization method for producing highly porous carbon for supercapacitor application
47. Tetraphenylborate-derived hierarchically porous carbons as efficient electrode materials for supercapacitors
48. Nitrogen-doped porous carbons by conversion of azo dyes especially in the case of tartrazine
49. Nitrogen-doped porous carbon for supercapacitor with long-term electrochemical stability
50. Nitrogen/manganese oxides doped porous carbons derived from sodium butyl naphthalene sulfonate
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