Integrated sensitive on-chip ion field effect transistors based on wrinkled ingaas nanomembranes

Self-organized wrinkling of pre-strained nanomembranes into nanochannels is used to fabricate a fully integrated nanofluidic device for the development of ion field effect transistors (IFETs). Constrained by the structure and shape of the membrane, the deterministic wrinkling process leads to a versatile variation of channel types such as straight two-way channels, three-way branched channels, or even four-way intersection channels. The fabrication of straight channels is well controllable and offers the opportunity to integrate multiple IFET devices into a single chip. Thus, several IFETs are fabricated on a single chip using a III-V semiconductor substrate to control the ion separation and to measure the ion current of a diluted potassium chloride electrolyte solution.

Keywords

Chlorine compounds, Electrolytes, III-V semiconductors, Ions, Nanostructures, Potash, Potassium chloride, Substrates, Chlorine compounds, Ions, Nanostructures, Transistors, Chloride electrolytes, Fully integrated, Ion separation, Nano channels, Nano-fluidic devices, Nanomembranes, Semiconductor substrate, Straight channel, Fully integrated, II-IV semiconductors, Ion currents, Ion separation, Nano channels, Nano-fluidic devices, Nanomembranes, On chips, Potassium chloride, Single chips, Straight channel, Field effect transistors, Field effect transistors

URI

https://doi.org/10.34657/4386
https://oa.tib.eu/renate/handle/123456789/5757

Citation

Harazim, S. M., Feng, P., Sanchez, S., Deneke, C., Mei, Y., & Schmidt, O. G. (2011). Integrated sensitive on-chip ion field effect transistors based on wrinkled ingaas nanomembranes. 6(1). https://doi.org//10.1186/1556-276X-6-215

Collections

Ingenieurwissenschaften

License

CC BY 2.0 Unported

https://creativecommons.org/licenses/by/2.0/

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