Charge Transfer during the Aluminum–Water Reaction Studied with Schottky Nanodiode Sensors | Zendy

Ievgen I. Nedrygailov | Zendy; Yeob Heo | Zendy; Heeyoung Kim | Zendy; Jeong Young Park | Zendy

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Charge Transfer during the Aluminum–Water Reaction Studied with Schottky Nanodiode Sensors

Author(s) -

Ievgen I. Nedrygailov,

Yeob Heo,

Heeyoung Kim,

Jeong Young Park

Publication year - 2019

Publication title -

acs omega

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 0.779

H-Index - 40

ISSN - 2470-1343

DOI - 10.1021/acsomega.9b03397

Subject(s) - schottky diode , aluminium , substrate (aquarium) , materials science , semiconductor , schottky barrier , diode , hydrogen , chemical reaction , analytical chemistry (journal) , optoelectronics , chemistry , metallurgy , oceanography , organic chemistry , geology , biochemistry , chromatography

The aluminum-water reaction is a promising source for hydrogen production. However, experimental studies of this reaction are difficult because of the highly concentrated alkaline solution used to activate the surface of aluminum. Here, we show that the reaction kinetics can be monitored in real time by a Schottky diode sensor, consisting of an ultrathin aluminum film deposited on a semiconductor substrate. Charge resulting from the corrosion of the aluminum film causes an electrical signal in the sensor, which is proportional to the rate of the chemical process. We discuss the possible mechanisms for the reaction-induced charge generation and transfer, as well as the use of Schottky diode based sensors for operando studies of the aluminum-water reaction and similar reactions on metals in concentrated alkaline solutions.

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