Inicio
Explorar
nav.journalClub
Tendencias
Más
synapse
⌘+K
Idioma
Español
Español
Biomimetic self-sustained ion oscillation in miscibility gap and chemical inductance impact in potassium sensing | Synapse
March 3, 2026
Biomimetic self-sustained ion oscillation in miscibility gap and chemical inductance impact in potassium sensing
ML
Marini L
RM
Roop L. Mahajan
AT&T (United States)
CP
Chithra Lekha P
Ver todo
Puntos clave
Ion oscillation enhances potassium sensing in this biomimetic system, showing its potential effectiveness.
Key evidence indicates significant dependence on the miscibility gap and chemical inductance factors.
Assessment using biomimetic design principles highlights the unique advantages of self-sustained systems in sensing applications.
This approach may enable advancements in reliable potassium sensing, although further investigation is needed for practical applications.
Mark Helpful
Me gusta
Save
Guardar
Relay
Compartir
Mark Helpful
Me gusta
Save
Guardar
Relay
Compartir
Cite This Study
Copy
L et al. (Sat,) studied this question.
synapsesocial.com/papers/69a75a26c6e9836116a1fb37
https://doi.org/https://doi.org/10.1016/j.bios.2026.118413