Suwanboon et al.22 Suwanboon S, Amornpitoksuk P, Randorn C. Effect of tartaric acid as a structure-directing agent ZnO morphologies and their physical and photocatalytic properties. Ceram Int. 2019;45:2111-6.
|
ZnO |
MB |
UV black light (18 W) |
180 |
100 |
|
|
MB |
Visible light |
180 |
98 |
Akika et al.44 Akika FZ, Benamira M, Lahmar H, Tibera A, Chabi R, Avramova I, et al. Structural and optical properties of Cu-substitution of NiAl2O4 and their photocatalytic activity towards Congo red under solar light irradiation. J Photochem Photobiol Chem. 2018;364:542-50.
|
Ni0.2Cu0.8Al2O4
|
Congo red (CR) |
Solar light (750 W/m2) |
180 |
90.6 |
Chaudhary55 Chaudhary A, Mohammad A, Mobin SM. Facile synthesis of phase pure ZnAl2O4 nanoparticles for effective photocatalytic degradation of organic dyes. Mater Sci Eng B. 2018;227:136-44.
|
ZnAl2O4
|
CR |
Mercury lamp (500 W) |
80 |
97.2 |
|
|
Methyl orange (MO) |
Mercury lamp (500 W) |
80 |
96.9 |
|
|
MB |
Mercury lamp (500 W) |
80 |
90.2 |
Zhang et al.66 Zhang L, Yan J, Zhou M, Yang Y, Liu YN. Fabrication and photocatalytic properties of spheres-in-spheres ZnO/ZnAl2O4 composite hollow microspheres. Appl Surf Sci. 2013;268:237-45.
|
25%ZnO/ZnAl2O4
|
MO |
Xenon lamp (150 W) |
60 |
98.7 |
Sumathi et al.77 Sumathi S, Kavipriya A. Structural, optical and photocatalytic activity of cerium doped zinc aluminate. Solid State Sci. 2017;65:52-60.
|
ZnAl1.98Ce0.02O4
|
MB |
UV light (32 W) |
25 |
99.3 |
|
|
|
Tungsten lamp (500 W) |
240 |
45.6 |
Suwanboon et al.88 Suwanboon S, Amornpitoksuk P, Bangrak P, Randorn C. Physical and chemical properties of multifunctional ZnO nanostructures prepared by precipitation and hydrothermal methods. Ceram Int. 2014;40:975-83.
|
ZnO |
MB |
UV black light (15 W) |
90 |
100 |
Suwanboon et al.99 Suwanboon S, Amornpitoksuk P, Bangrak P, Muensit N. Optical, photocatalytic and bactericidal properties of Zn1-xLaxO and Zn1-xMgxO nanostructures prepared by a sol-gel method. Ceram Int. 2013;39:5597-608.
|
Zn0.95La0.05O |
MB |
UV black light (18 W) |
150 |
98 |
|
Zn0.95Mg0.05O |
MB |
UV black light (18 W) |
120 |
100 |
Khan et al.1010 Khan MM, Ansari SA, Pradhan D, Han DH, Lee J, Cho MH. Defect-induced band gap narrowed CeO2 nanostructures for visible light activities. Ind Eng Chem Res. 2014;53:9754-63.
|
p-CeO2
|
MB |
Tungsten lamp (400 W) |
360 |
30 |
Klubnuan et al.1111 Klubnuan S, Suwanboon S, Amornpitoksuk P. Effects of optical band gap energy, band tail energy and particle shape on photocatalytic activities of different ZnO nanostructures prepared by a hydrothermal method. Opt Mater. 2016;53:134-41.
|
ZnO |
MB |
UV black light (18 W) |
75 |
100 |
Lv et al.1212 Lv Z, Zhong Q, Ou M. Utilizing peroxide as precursor for the synthesis of CeO2/ZnO composite oxide with enhanced photocatalytic activity. Appl Surf Sci. 2016;376:91-6.
|
1%CeO2/ZnO |
MB |
Mercury lamp (500 W) |
110 |
100 |
Zhang et al.1313 Zhang L, Dai CH, Zhang XX, Liu YN, Yan JH. Synthesis and highly efficient photocatalytic activity of mixed oxides derived from ZnNiAl layered double hydroxides. Trans Nonferrous Met Soc China. 2016;26:2380-9.
|
ZnO/NiO/ZnAl2O4
|
MO |
Xenon lamp (150 W) |
60 |
97.3 |
Balamurugan et al.1414 Balamurugan S, Balu AR, Srivind J, Usharani K, Narasimman V, Suganya M, et al. CdO-Al2O3-A composite material with enhanced photocatalytic activity against the degradation of MY dye. Vacuum. 2019;159:9-16.
|
CdO/Al2O3
|
Metanil yellow (MY) |
Visible light |
75 |
82.1 |
Chen et al.1515 Chen Y, Zhang L, Ning L, Zhang C, Zhao H, Liu B, et al. Superior photocatalytic activity of porous wurtzite ZnO nanosheets with exposed {001} facets and a charge separation model between polar (001) and (00-1) surfaces. Chem Eng J. 2015;264:557-64.
|
ZnO/Zn foil |
MO |
Mercury lamp (300 W) |
240 |
100 |
Kirankumar et al.1616 Kirankumar VS, Sumathi S. Catalytic activity of bismuth doped zinc aluminate nanoparticles towards environmental remediation. Mater Res Bull. 2017;93:74-82.
|
ZnAl1.99Bi0.01O4
|
MB |
Xenon lamp (250 W) |
240 |
100 |
Saleh et al.1717 Saleh TA, Gupta VK. Photo-catalyzed degradation of hazardous dye methyl orange by use of a composite catalyst consisting of multi-walled carbon nanotubes and titanium dioxide. J Colloid Interface Sci. 2012;371:101-6.
|
MWCNT/TiO2
|
MO |
UV lamp (40 W) |
100 |
93 |
Saravanan et al.1818 Saravanan R, Sacari E, Gracia F, Khan MM, Mosquera E, Gupta VK. Conducting PANI stimulated ZnO system for visible light photocatalytic degradation of coloured dyes. J Mol Liq. 2016;211:1029-33.
|
PANI/ZnO |
MO |
Projection lamp (250 W) |
180 |
98.3 |
|
|
MB |
Projection lamp (250 W) |
180 |
99.2 |
Saravanan et al.1919 Saravanan R, Karthikeyan S, Gupta VK, Sekaran G, Narayanan V, Stephen A. Enhanced photocatalytic activity of ZnO/CuO nanocomposite for the degradation of textile dye on visible light illumination. Mater Sci Eng C. 2013;33:91-8.
|
95%ZnO/5%CuO |
MO |
Projection lamp (250 W) |
120 |
97.2 |
|
|
MB |
Projection lamp (250 W) |
120 |
87.7 |
Saravanan et al.2020 Saravanan R, Gupta VK, Prakash T, Narayanan V, Stephen A. Synthesis, characterization and photocatalytic activity of novel Hg doped ZnO nanorods prepared by thermal decomposition method. J Mol Liq. 2013;178:88-93.
|
Hg:ZnO |
MO |
Projection lamp (250 W) |
120 |
90 |
|
|
MB |
Projection lamp (250 W) |
60 |
100 |
Saleh et al.2121 Saleh TA, Gupta VK. Functionalization of tungsten oxide into MWCNT and its application for sunlight-induced degradation of rhodamine B. J Colloid Interface Sci. 2011;362:337-44.
|
MWCNT/WO3
|
Rhodamine B (RhB) |
Solar |
150 |
100 |
Saravanan et al.2222 Saravanan R, Khan MM, Gupta VK, Mosquera E, Gracia F, Narayanan V, et al. ZnO/Ag/CdO nanocomposite for visible light-induced photocatalytic degradation of industrial textile effluents. J Colloid Interface Sci. 2015;452:126-33.
|
ZnO/Ag/CdO |
MB |
Projection lamp (250 W) |
90 |
98.3 |
Saravanan et al.2323 Saravanan R, Khan MM, Gupta VK, Mosquera E, Gracia F, Narayanan V, et al. ZnO/Ag/Mn2O3 nanocomposite for visible light-induced industrial textile effluent degradation, uric acid and ascorbic acid sensing and antimicrobial activity. RSC Advances. 2015;5:34645-51.
|
ZnO/Ag/Mn2O3
|
Textile effluent |
Visible light |
180 |
98 |
Zhao et al.2424 Zhao X, Yang H, Cui Z, Yi Z, Yu H. Synergistically enhanced photocatalytic performance of Bi4Ti3O12 nanosheets by Au and Ag nanoparticles. J Mater Sci Mater Electron. 2019;30:13785-96.
|
Au-Ag@Bi4Ti3O12
|
RhB |
Xenon lamp |
120 |
95.5 |
|
|
RhB |
Mercury lamp |
120 |
99.9 |
|
|
RhB |
Halogen-tungsten lamp |
120 |
49.6 |
Yan et al.2525 Yan Y, Yang H, Yi Z, Xian T. NaBH4-reduction induced evolution of Bi nanoparticles from BiOCl nanoplates and construction of promising Bi@BiOCl hybrid photocatalysts. Catalysts. 2019;9:795.
|
Bi@BiOCl |
RhB |
Xenon lamp |
30 |
91.1 |