Capacitance Effects of a Hydrophobic-Coated Ion Gel Dielectric on AC Electrowetting

Abstract: We present experimental studies of alternating current (AC) electrowetting dominantly influenced by several unique characteristics of an ion gel dielectric in its capacitance. At a high-frequency region above 1 kHz, the droplet undergoes the contact angle modification. Due to its high-capacitance characteristic, the ion gel allows the contact angle change as large as Δθ = 26.4°, more than 2-fold improvement, compared to conventional dielectrics when f = 1 kHz. At the frequency range from 1 to 15 kHz, the capac… Show more

“…For reliability, the results were performed in triplicate. [36,37] EE% ¼ total amount of drug À free drug ð Þ =ðtotal amount of drugÞ The in-vitro release was done using a dialysis membrane bag method based on the Fick phenomenon. 5 mg of the curcumin-loaded nanocomposites was homogenized with 1.25 ml PBS, kept in the dialysis bag, and placed in 30 ml of the same medium.…”

Synthesis of dual physical self‐healing starch‐based hydrogels for repairing tissue defects

“…For reliability, the results were performed in triplicate. [36,37] EE% ¼ total amount of drug À free drug ð Þ =ðtotal amount of drugÞ The in-vitro release was done using a dialysis membrane bag method based on the Fick phenomenon. 5 mg of the curcumin-loaded nanocomposites was homogenized with 1.25 ml PBS, kept in the dialysis bag, and placed in 30 ml of the same medium.…”

Synthesis of dual physical self‐healing starch‐based hydrogels for repairing tissue defects

“…[15][16][17] One drawback associated with such droplet-based microfluidic systems is the difficulty in handling individual droplets driven by a continuous oil flow confined along microfluidic channels. [18][19][20] To overcome this challenging issue, various active-type droplet manipulation mechanisms have been extensively developed, such as dielectrophoresis (DEP), [21][22][23] electrowetting on dielectric (EWOD), [24][25][26][27] thermocapillary force, [28][29][30] and magnetic force. [31][32][33] Among these techniques, EWOD technology has been widely developed for active droplet control.…”

A review of optoelectrowetting (OEW): from fundamentals to lab-on-a-smartphone (LOS) applications to environmental sensors