Protonic transistors from thin reflectin films | Zendy

David D. Ordinario | Zendy; Long Phan | Zendy; JonahMicah Jocson | Zendy; Tam Nguyen | Zendy; Alon A. Gorodetsky | Zendy

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Protonic transistors from thin reflectin films

Author(s) -

David D. Ordinario,

Long Phan,

JonahMicah Jocson,

Tam Nguyen,

Alon A. Gorodetsky

Publication year - 2014

Publication title -

apl materials

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 1.571

H-Index - 60

ISSN - 2166-532X

DOI - 10.1063/1.4901296

Subject(s) - transistor , materials science , bioelectronics , figure of merit , active layer , optoelectronics , ionic bonding , nanotechnology , thin film transistor , layer (electronics) , biosensor , voltage , ion , electrical engineering , chemistry , organic chemistry , engineering

Ionic transistors from organic and biological materials hold great promise for bioelectronics applications. Thus, much research effort has focused on optimizing the performance of these devices. Herein, we experimentally validate a straightforward strategy for enhancing the high to low current ratios of protein-based protonic transistors. Upon reducing the thickness of the transistors’ active layers, we increase their high to low current ratios 2-fold while leaving the other figures of merit unchanged. The measured ratio of 3.3 is comparable to the best values found for analogous devices. These findings underscore the importance of the active layer geometry for optimum protonic transistor functionality

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