Ayumi Furuse scite author profile

The influence of an applied magnetic field on the formation of carbon materials from coal tar pitch is investigated. Under an applied magnetic field, crystallites in a mesophase resembling liquid crystals are magnetically oriented during the carbonization process. Compared with that under a nonmagnetic field, carbonized coal tar pitch under a strong magnetic field of 10 T, generated by a superconducting magnet, has a highly oriented structure of carbon crystallites. The orientation of samples prepared under 2 T, which can easily be supplied by an electromagnet, was insufficient. Activation by potassium hydroxide is effective for affording a precursor for activated carbon. The activated carbon obtained under a strong magnetic field has a unique adsorption ability, which arises from its increase in relative surface area and total pore volume compared with those of an activated carbon sample prepared from a precursor produced under zero magnetic field. The precursor carbonized under a magnetic field of 10 T contains a larger number of crystallites than that carbonized under a 0-T magnetic field, which leads to high-performance activated carbon.

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The subtracting pore effect method for an accurate and reliable surface area determination of porous carbons

Wang

Vallejos-Burgos²,

Furuse

et al. 2021

Carbon

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Cu-phthalocyanine-mediated nanowindow production on single-wall carbon nanohorn

et al. 2020

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Thermally stable near UV-light transparent and conducting SWCNT/glass flexible films

Kukobat

Kamijyou

Stević

et al. 2019

Carbon

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Ayumi Furuse

Chemically and mechanically robust SWCNT based strain sensor with monotonous piezoresistive response for infrastructure monitoring

Improving the Micropore Capacity of Activated Carbon by Preparation under a High Magnetic Field of 10 T

The subtracting pore effect method for an accurate and reliable surface area determination of porous carbons

Cu-phthalocyanine-mediated nanowindow production on single-wall carbon nanohorn

Thermally stable near UV-light transparent and conducting SWCNT/glass flexible films

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