TiO₂ Nanotube-Based Sensor for the Detection of Cyanide in Water

Abstract: Cyanide is an acutely toxic compound capable of spreading to ground and surface waters more easily than other industrial contaminants. Real-time monitoring of cyanide concentrations calls for a robust and quick method for cyanide detection in water. This work focuses on the application of anodized titanium dioxide (TiO2) nanotubes as a substrate, with suitable and relatively inexpensive additives, for the sensitive and selective electrochemical detection of cyanide in water. The TiO2 nanotubes were modified by… Show more

“…[11,12] Presently, mesoporous TiO 2 , due to high specific surface area, narrow pore size distribution and good permeability finds wide range of applications in catalyst, gas separation, sensor and energy storage conversion. [13][14][15] He et al, [16] employed double-template method to prepare mesoporous TiO 2 nanotubes (m-TiO 2 -NTs) which showed 9.8 times higher photodegradation rate of Rhodamine B and 7.7 times higher photodegradation rate of dibutyl phthalate compared to that of TiO 2 -NPs. Zheng et al, [17] employed silicon template hydrothermal method to prepare rutile and anatase TiO 2 mesoporous single crystals which showed remarkable photocatalytic performance for the degradation of methyl orange.…”

“…Presently, mesoporous TiO 2 , due to high specific surface area, narrow pore size distribution and good permeability finds wide range of applications in catalyst, gas separation, sensor and energy storage conversion [13–15] . He et al ., [16] employed double‐template method to prepare mesoporous TiO 2 nanotubes (m‐TiO 2 ‐NTs) which showed 9.8 times higher photodegradation rate of Rhodamine B and 7.7 times higher photodegradation rate of dibutyl phthalate compared to that of TiO 2 ‐NPs.…”

Preparation of TiO₂/Ni‐NG Mesoporous Microspheres and Photocatalytic Hydrogen Evolution Properties

“…[11,12] Presently, mesoporous TiO 2 , due to high specific surface area, narrow pore size distribution and good permeability finds wide range of applications in catalyst, gas separation, sensor and energy storage conversion. [13][14][15] He et al, [16] employed double-template method to prepare mesoporous TiO 2 nanotubes (m-TiO 2 -NTs) which showed 9.8 times higher photodegradation rate of Rhodamine B and 7.7 times higher photodegradation rate of dibutyl phthalate compared to that of TiO 2 -NPs. Zheng et al, [17] employed silicon template hydrothermal method to prepare rutile and anatase TiO 2 mesoporous single crystals which showed remarkable photocatalytic performance for the degradation of methyl orange.…”

“…Presently, mesoporous TiO 2 , due to high specific surface area, narrow pore size distribution and good permeability finds wide range of applications in catalyst, gas separation, sensor and energy storage conversion [13–15] . He et al ., [16] employed double‐template method to prepare mesoporous TiO 2 nanotubes (m‐TiO 2 ‐NTs) which showed 9.8 times higher photodegradation rate of Rhodamine B and 7.7 times higher photodegradation rate of dibutyl phthalate compared to that of TiO 2 ‐NPs.…”

Preparation of TiO₂/Ni‐NG Mesoporous Microspheres and Photocatalytic Hydrogen Evolution Properties

Cyanide contamination of soil and water: Sources, toxicity, and potential remediation strategies