Nanohybrid capacitor

Naoi, K. 2010. Nanohybrid capacitor The next generation electrochemical capacitors. Fuel Cells 10 825-833. 

Fig. 4.19 Ragone plots of Nanohybrid capacitor systems ((nc-Li4Ti50i2/CNF)/AC) with two different Li4Ti50i2 loadings (50% and 70%) and conventional EDLC system (AC/AC) all in 1 M...

Fig. 4.20 Performances of lithium-ion capacitor (LlC) and nanohybrid capacitor (NHC) in Ragone plot...

Plitz I, Dupasquier A, Badway F, Gural J, Pereira N, Gmitter A, Amatucci GG (2006) Nanohybrid capacitor The next generation electrochemical capacitors. Appl Phys A 82 615... 

Hybrid Li-Ion Based Supercapacitor Systems in Organic Media, Fig. 8 The configuration of Nanohybrid capacitor (NHC) and its features... 

Fig. 11). The authors utilized the composite as the negative electrode active material and thereby succeeded in producing a novel hybrid capacitor (nanohybrid capacitor) realizing both high power and high energy density.

The concept of nanohybrid materials has been also used for preparing materials with high dielectric constant (high k materials), which are useful as capacitors and gate materials in integrated electronic circuits. Synthesis of high k materials has been shown to be of fundamental relevance for the development of new generation dynamic random access memories and micro-electromechanical systems. 

Nippon Kodoshi Corporation (NKK), headquartered in Kochi, Japan, has been established since 1941. NKK s product lines include separators for capacitors (aluminum electrolytic and conductive solid polymer capacitors), separators for electric doublelayer capacitors, separators for multiple types of batteries (alkaline, lithium-ion, and NiMH batteries), and lastly, inorganic and organic nanohybrid membranes. 

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