Construction of S-scheme 1D/2D rod-like g-C3N4/V2O5 heterostructure with enhanced sonophotocatalytic degradation for Tetracycline antibiotics

“…The eradication of TC pollutant from water resources is highly required, and the researchers did several works on photocatalytic TC removal. For example, Preeyanghaa and his research group reported the degradation of TC using an S-scheme 1D/2D rod-like g-C 3 N 4 /V 2 O 5 (RCN-VO) heterojunction (Preeyanghaa et al, 2022).…”

“…(a) C/C 0 plots presenting sonophotocatalytic TC degradation results using the synthesized photocatalysts, (b) PL and (c) EIS spectra of CN, VO, RCN, and RCN-Vo x photocatalysts, (d) Schematic diagram of S-scheme based sonophotocatalytic degradation mechanism of TC using 1D/2D RCN-VO photocatalyst, Reprinted with permission from Elsevier (License No. 5431281439729)(Preeyanghaa et al, 2022). (e) Photodegradation results of NOR antibiotic using fabricated photocatalysts, (f) Photodegradation results of NOR, ENR, LVF, and CIP, and (g) The proposed photodegradation mechanism of NOR using S-scheme based 15% NZCN/vis photocatalytic system, Reprinted with permission from Elsevier (License No.…”

Applications of graphitic carbon nitride-based S-scheme heterojunctions for environmental remediation and energy conversion

“…The eradication of TC pollutant from water resources is highly required, and the researchers did several works on photocatalytic TC removal. For example, Preeyanghaa and his research group reported the degradation of TC using an S-scheme 1D/2D rod-like g-C 3 N 4 /V 2 O 5 (RCN-VO) heterojunction (Preeyanghaa et al, 2022).…”

“…(a) C/C 0 plots presenting sonophotocatalytic TC degradation results using the synthesized photocatalysts, (b) PL and (c) EIS spectra of CN, VO, RCN, and RCN-Vo x photocatalysts, (d) Schematic diagram of S-scheme based sonophotocatalytic degradation mechanism of TC using 1D/2D RCN-VO photocatalyst, Reprinted with permission from Elsevier (License No. 5431281439729)(Preeyanghaa et al, 2022). (e) Photodegradation results of NOR antibiotic using fabricated photocatalysts, (f) Photodegradation results of NOR, ENR, LVF, and CIP, and (g) The proposed photodegradation mechanism of NOR using S-scheme based 15% NZCN/vis photocatalytic system, Reprinted with permission from Elsevier (License No.…”

Applications of graphitic carbon nitride-based S-scheme heterojunctions for environmental remediation and energy conversion

“…5,6 It is resistant to metabolism and decomposition because of its stable chemical structure and antibacterial properties, leading to increased antibiotic drug resistance, which has a negative effect on the ecological environment and human health. 3,7,8 To date, various methods have been used for water treatment such as adsorption, biodegradation, membrane treatment, photocatalysis (PC), 3,9 electrocatalysis (EC), 10 and PEC. [11][12][13] PEC has more significant advantages in practical applications than the other methods.…”

“…5,6 It is resistant to metabolism and decomposition because of its stable chemical structure and antibacterial properties, leading to increased antibiotic drug resistance, which has a negative effect on the ecological environment and human health. 3,7,8…”

A direct Z-scheme S-Co₃O₄/Bi₂WO₆ heterostructure for enhanced photoelectrocatalytic degradation of tetracycline under visible light

“…In order to improve the photocatalytic performance of g-C 3 N 4 , researchers have taken a variety of methods to modify it in recent years, such as construction of semiconductor heterostructures, [13][14][15][16][17][18] metal doping, [19][20][21][22] nonmetallic element doping, [23][24][25][26] multiple modification strategies combining doping and heterojunction, 27,28 donor-acceptor modulation, 29,30 regulation of morphology and structure [31][32][33] and so on. In most methods, metal elements are inevitably introduced and some preparation processes are usually complicated.…”

Surface double modification and photocatalytic performance of graphite carbon nitride