The Al³⁺ doped modified ZnO sensor material: Fabrication, characterization and gas sensing characteristics of some environmental pollutant and greenhouse gases

Abstract: The current study examines the gas sensing properties of the fabricated material Al3+ modified ZnO. The material was fabricated by using co-precipitation technique. Here, sodium hydroxide was used as precipitating material to precipitate zinc as zinc hydroxide to convert it finally into ZnO. The insitu doping method was adapted to doped aluminum through ZnO lattice. The material was characterized by means of several characterization techniques. The X-ray diffraction (XRD) instrument utilized for structural inv… Show more

“…However, the size of the crystal decreases with an increase in the amount of Al 3+ . 37,38 Surface morphology of the thin films AFM was used to examine the pure and doped films prepared by the atomization method. Figure 2 shows the pure and Al-doped films as three-and two-dimensional (AFM) images.…”

“…The detect ions of harmful concentrations of carbon monoxide vapors using thin manufactured from pure and Al:ZnO films were based on the thickness of these films, after studying the effect of high temperatures on the electrical properties of these films. The gas response is calculated according to the following formula 38 Gas response R Ra Rg Ra 1 % /…”

Al³⁺-modified ZnO thin film sensor fabricated by the sputtering method: Characterization and a carbon monoxide gas detection study

“…However, the size of the crystal decreases with an increase in the amount of Al 3+ . 37,38 Surface morphology of the thin films AFM was used to examine the pure and doped films prepared by the atomization method. Figure 2 shows the pure and Al-doped films as three-and two-dimensional (AFM) images.…”

“…The detect ions of harmful concentrations of carbon monoxide vapors using thin manufactured from pure and Al:ZnO films were based on the thickness of these films, after studying the effect of high temperatures on the electrical properties of these films. The gas response is calculated according to the following formula 38 Gas response R Ra Rg Ra 1 % /…”

Al³⁺-modified ZnO thin film sensor fabricated by the sputtering method: Characterization and a carbon monoxide gas detection study

Hydrothermal synthesis of nanostructured titanium disulfide (TiS2) for detection of NO2 gas and its characterization study

Al3+ Impregnated Photolithograophically Fabricated Sensor Material La2-xAlxZnO4: Structural Investigation and Acute Gas Sensing Study for Hazardous Air Pollutant Gases and Humidity Assay