Detail publikačního výsledku

Ultrathin Paper Microsupercapacitors for Electronic Skin Applications

SAY, M.; SAHALIANOV, I.; BROOKE, R.; MIGLIACCIO, L.; GLOWACKI, E.; BERGGREN, M.; DONAHUE, M.; ENGQUIST, I.

Originální název

Ultrathin Paper Microsupercapacitors for Electronic Skin Applications

Anglický název

Ultrathin Paper Microsupercapacitors for Electronic Skin Applications

Druh

Článek WoS

Originální abstrakt

Ultrathin devices are rapidly developing for skin-compatible medical applications and wearable electronics. Powering skin-interfaced electronics requires thin and lightweight energy storage devices, where solution-processing enables scalable fabrication. To attain such devices, a sequential deposition is employed to achieve all spray-coated symmetric microsupercapacitors (mu SCs) on ultrathin parylene C substrates, where both electrode and gel electrolyte are based on the cheap and abundant biopolymer, cellulose. The optimized spraying procedure allows an overall device thickness of approximate to 11 mu m to be obtained with a 40% active material volume fraction and a resulting volumetric capacitance of 7 F cm(-3). Long-term operation capability (90% of capacitance retention after 10(4) cycles) and mechanical robustness are achieved (1000 cycles, capacitance retention of 98%) under extreme bending (rolling) conditions. Finite element analysis is utilized to simulate stresses and strains in real-sized mu SCs under different bending conditions. Moreover, an organic electrochromic display is printed and powered with two serially connected mu-SCs as an example of a wearable, skin-integrated, fully organic electronic application.

Anglický abstrakt

Ultrathin devices are rapidly developing for skin-compatible medical applications and wearable electronics. Powering skin-interfaced electronics requires thin and lightweight energy storage devices, where solution-processing enables scalable fabrication. To attain such devices, a sequential deposition is employed to achieve all spray-coated symmetric microsupercapacitors (mu SCs) on ultrathin parylene C substrates, where both electrode and gel electrolyte are based on the cheap and abundant biopolymer, cellulose. The optimized spraying procedure allows an overall device thickness of approximate to 11 mu m to be obtained with a 40% active material volume fraction and a resulting volumetric capacitance of 7 F cm(-3). Long-term operation capability (90% of capacitance retention after 10(4) cycles) and mechanical robustness are achieved (1000 cycles, capacitance retention of 98%) under extreme bending (rolling) conditions. Finite element analysis is utilized to simulate stresses and strains in real-sized mu SCs under different bending conditions. Moreover, an organic electrochromic display is printed and powered with two serially connected mu-SCs as an example of a wearable, skin-integrated, fully organic electronic application.

Klíčová slova

cellulose; e-skin; microsupercapacitors; paper electrodes; spray coating

Klíčová slova v angličtině

cellulose; e-skin; microsupercapacitors; paper electrodes; spray coating

Autoři

SAY, M.; SAHALIANOV, I.; BROOKE, R.; MIGLIACCIO, L.; GLOWACKI, E.; BERGGREN, M.; DONAHUE, M.; ENGQUIST, I.

Rok RIV

2023

Vydáno

01.08.2022

Nakladatel

WILEY

Místo

HOBOKEN

ISSN

2365-709X

Periodikum

Advanced Materials Technologies

Svazek

7

Číslo

8

Stát

Spojené státy americké

Strany počet

10

URL

https://onlinelibrary.wiley.com/doi/10.1002/admt.202101420

BibTex

@article{BUT182254,
  author="Mehmet Girayhan {Say} and Ihor {Sahalianov} and Robert {Brooke} and Ludovico {Migliaccio} and Eric Daniel {Glowacki} and Magnus {Berggren} and Mary {Donahue} and Isak {Engquist}",
  title="Ultrathin Paper Microsupercapacitors for Electronic Skin Applications",
  journal="Advanced Materials Technologies",
  year="2022",
  volume="7",
  number="8",
  pages="10",
  doi="10.1002/admt.202101420",
  issn="2365-709X",
  url="https://onlinelibrary.wiley.com/doi/10.1002/admt.202101420"
}