Nanodevices for generating power from molecules and batteryless sensing

摘要

A nanoconverter or nanosensor is disclosed capable of directly generating electricity through physisorption interactions with molecules that are dipole containing organic species in a molecule interaction zone. High surface-to-volume ratio semiconductor nanowires or nanotubes (such as ZnO, silicon, carbon, etc.) are grown either aligned or randomly-aligned on a substrate. Epoxy or other nonconductive polymers are used to seal portions of the nanowires or nanotubes to create molecule noninteraction zones. By correlating certain molecule species to voltages generated, a nanosensor may quickly identify which species is detected. Nanoconverters in a series parallel arrangement may be constructed in planar, stacked, or rolled arrays to supply power to nano- and micro-devices without use of external batteries. In some cases breath, from human or other life forms, contain sufficient molecules to power a nanoconverter. A membrane permeable to certain molecules around the molecule interaction zone increases specific molecule nanosensor selectivity response.

主权项

1. A nanoconverter array, comprising:
(i) a nanoconverter, comprising:
(a) a nanostructure with first and second ends;(b) an electrode electrically connected to the nanostructure proximal to a molecule interaction zone at the first end of the nanostructure;(c) a sealant matrix that surrounds at least a portion of the nanostructure, wherein the surrounded portion of the nanostructure forms a molecule noninteraction zone; and(d) an electrode electrically connected to the nanostructure proximal to the molecule noninteraction zone at the second end of the nanostructure;(e) wherein the nanostructure generates a voltage and a current when the molecule interaction zone interacts with a molecule; and (ii) an array of one or more said nanoconverters; (iii) wherein the nanoconverters are arranged to generate a specified current output and voltage output when supplied with the molecule.