摘要 |
#CMT# #/CMT# The method involves providing an overlay substrate (8), and a collector (10) formed of nano/microparticles, and an electrode formed of nano/microparticles. The collector and the electrode are formed by spraying a suspension (20) comprising nano/microparticles e.g. nanowires, suspended in a liquid on the overlay substrate. A set of suspensions is sprayed simultaneously on the substrate. The collector is allowed to include a mixture of carbon nanoparticles. #CMT# : #/CMT# An independent claim is also included for a collector-electrode assembly. #CMT#USE : #/CMT# Method for manufacturing a collector-electrode assembly that is utilized in a supercapacitor (claimed) or electric-double layer capacitor. #CMT#ADVANTAGE : #/CMT# The collector and the electrode are formed by spraying the suspension comprising nano/microparticles suspended in the liquid on the substrate, thus allowing manufacturing of the collector-electrode assembly in a simple manner at low cost and in a large scale in industries. The method allows the supercapacitor to have improved energy storage performances and satisfactory energy restoration functionality. #CMT#DESCRIPTION OF DRAWINGS : #/CMT# The drawing shows a perspective view illustrating a step in a method for manufacturing a collector-electrode assembly. 8 : Overlay substrate 10 : Collector 14 : Spraying device 16, 18 : Spray nozzles 20 : Nano/microparticles suspension #CMT#INORGANIC CHEMISTRY : #/CMT# The nano/microparticles are manufactured from molybdenum sulfide, titanium sulfide, molybdenum selenide, molybdenum telluride, tantalum selenide, niobium selenide, nickel telluride, boron nitride and bismuth telluride. #CMT#ORGANIC CHEMISTRY : #/CMT# The suspension includes methanol, ethanol, ethylene chloride, dichlorobenzidine, methylpyrridone or dimethylformamide, hexamethylphosphoramide, cyclopentanone, tetramethylene sulfoxide, caprolactone, 1,2-dichlorobenzene, 1,2-dimethylbenzene, bromobenzene and toluene. |