Lithographically Integrated Microsupercapacitors for Compact, High Performance, and Designable Energy Circuits | Zendy

Laszczyk Karolina U. | Zendy; Kobashi Kazufumi | Zendy; Sakurai Shunsuke | Zendy; Sekiguchi Atsuko | Zendy; Futaba Don N. | Zendy; Yamada Takeo | Zendy; Hata Kenji | Zendy

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Lithographically Integrated Microsupercapacitors for Compact, High Performance, and Designable Energy Circuits

Author(s) -

Laszczyk Karolina U.,

Kobashi Kazufumi,

Sakurai Shunsuke,

Sekiguchi Atsuko,

Futaba Don N.,

Yamada Takeo,

Hata Kenji

Publication year - 2015

Publication title -

advanced energy materials

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 10.08

H-Index - 220

eISSN - 1614-6840

pISSN - 1614-6832

DOI - 10.1002/aenm.201500741

Subject(s) - materials science , capacitor , wafer , capacitance , constant voltage , optoelectronics , voltage , electronic circuit , time constant , electrolyte , constant (computer programming) , electrical engineering , electrode , computer science , physics , engineering , quantum mechanics , programming language

A wafer‐scale integrated energy device circuit (IEDC) consisting of electrochemically isolated microsupercapacitor cells that could be connected in parallel and in series, as well as in arbitrarily arrangements. Such an IEDC possesses the same capacitance, operational voltage, and order relaxation time constant, although it is 1/1000th‐times smaller than an equivalent Al electrolytic capacitor.

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