Grzegorz Lota scite author profile

This paper is focused on neutral aqueous medium, i.e. lithium, sodium and potassium sulfate solutions in a wide range of concentrations (0.1-2.5 mol L À1 ) as promising electrolytes for electrochemical capacitors because they are cheap, non-corrosive and allow applying diverse current collectors. These properties make the capacitor assembling process much easier and cheaper. Additionally, such electrolytes are electrochemically stable and environmentally friendly. Electrochemical investigations carried out especially for 1 mol L À1 Li 2 SO 4 aqueous solution confirmed the possibility of efficient capacitor work in a wider voltage range, i.e. even at 2.2 V without any significant capacitance fade during 15 000 cycles. The physicochemical properties of ions (i.e. solvation, diffusion or mobility) and their influence on the capacitor electrochemical behaviour are considered.

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Carbon nanotubes and their composites in electrochemical applications

Lota

Fic

Frąckowiak

2011

Energy Environ. Sci.

557

331

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This paper presents various applications of carbon nanotubes as components of electrode materials for such electrochemical use as electrochemical capacitors, fuel cells, hydrogen electrosorption and accumulators. Generally, carbon nanotubes give exceptional improvement of electrode performance due to their mesoporous and well conducting networks. The cell resistance is drastically reduced and the transport of ions is greatly enhanced. In addition to their good conductivity, carbon nanotubes can be flexible and stretchable which is crucial for cyclability of electrodes, especially if volumetric changes of electrode material occur during operation. Consequently, they serve as excellent support for conducting polymers (e.g. polyaniline, polypyrrole) and metal oxides (e.g. MnO 2 ) giving attractive capacitor electrodes. The presence of nanotubes in carbon precursor rich in heteroatoms, e.g. nitrogen from melamine or oxygen, also supplies an interesting carbonized composite with a good charge propagation for supercapacitor use. Furthermore, carbon nanotubes have been tested for hydrogen electrosorption giving a very moderate hydrogen capacity (0.27 wt.%). However, modification of nanotubes can enhance hydrogen storage. On the other hand, carbon nanotubes can serve as an excellent additive to many electrode materials for improvement of conductivity and cell performance. They could be a good support of the catalytic particles for fuel cell application as well.

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Templated mesoporous carbons for supercapacitor application

Fuertes

Lota

Centeno

et al. 2005

Electrochimica Acta

413

210

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Mesoporous carbons prepared by an inverse replica technique have been used as electrodes for electrochemical capacitors. Such well sized carbons were prepared from mesostructured SBA-16 silica materials that served as templates whereas polyfurfuryl alcohol was the carbon precursor. Two highly mesoporous carbons characterized by 3 and 8 nm average pore diameter were tested in various electrolytic solutions (acidic, alkaline and aprotic).It can be concluded that templated mesoporous carbons with tailored pore size distribution are very promising materials to be used as electrodes in supercapacitors.The design of their pore size allows suiting the dimensions of electrolyte ions and efficient charging of the electrical double layer is achieved especially at high current load. Definitively better capacitance performance has been found for carbon with 3 nm pores range, however, cycling performance depends not only on the pore size.

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Effect of nitrogen in carbon electrode on the supercapacitor performance

Lota

Grzyb

Machnikowska

et al. 2005

Chemical Physics Letters

341

227

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Optimisation of supercapacitors using carbons with controlled nanotexture and nitrogen content

Frąckowiak

Lota

Machnikowski

et al. 2006

Electrochimica Acta

320

213

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Grzegorz Lota

Novel insight into neutral medium as electrolyte for high-voltage supercapacitors

Carbon nanotubes and their composites in electrochemical applications

Templated mesoporous carbons for supercapacitor application

Effect of nitrogen in carbon electrode on the supercapacitor performance

Optimisation of supercapacitors using carbons with controlled nanotexture and nitrogen content

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