mgr Chandini Kumar

Zakład Mechaniki Materiałów (ZMM)
Pracownia Zaawansowanych Materiałów Kompozytowych (PZMK)
stanowisko: starszy laborant
pokój: 142
e-mail: ckumar

Ostatnie publikacje
1.Kumar C., Sebastian A., Markapudi P., Beguerisse Díaz M., Sundaram S., Hussain A., Manjakkal L., Opto-electrochemical variation with gel polymer electrolytes in transparent electrochemical capacitors for ionotronics, APPLIED PHYSICS LETTERS, ISSN: 0003-6951, DOI: 10.1063/5.0190801, Vol.124, No.11, pp.111603-1-111603-7, 2024

Streszczenie:

Advanced flexible ionotronic devices have found excellent applications in the next generation of electronic skin (e-skin) development for smart wearables, robotics, and prosthesis. In this work, we developed transparent ionotronic-based flexible electrochemical capacitors using gel electrolytes and indium tin oxide (ITO) based transparent flexible electrodes. Different gel electrolytes were prepared using various salts, including NaCl, KCl, and LiCl in a 1:1 ratio with a polyvinyl alcohol (PVA) solution and compared its electrochemical performances. The interaction between gel electrolytes and ITO electrodes was investigated through the development of transparent electrochemical capacitors (TEC). The stable and consistent supply of ions was provided by the gel, which is essential for the charge storage and discharge within the TEC. The total charge contribution of the developed TECs is found from the diffusion-controlled mechanism and is measured to be 4.59 mC cm−2 for a LiCl/PVA-based gel. The prepared TEC with LiCl/PVA gel electrolyte exhibited a specific capacitance of 6.61 mF cm−2 at 10 μA cm−2. The prepared electrolyte shows a transparency of 99% at 550 nm and the fabricated TEC using LiCl/PVA gel exhibited a direct bandgap of 5.34 eV. The primary benefits of such ionotronic-based TEC development point to its potential future applications in the manufacturing of transparent batteries, electrochromic energy storage devices, ionotronic-based sensors, and photoelectrochemical energy storage devices.

Afiliacje autorów:

Kumar C.-IPPT PAN
Sebastian A.-other affiliation
Markapudi P.-other affiliation
Beguerisse Díaz M.-other affiliation
Sundaram S.-other affiliation
Hussain A.-other affiliation
Manjakkal L.-other affiliation
100p.