Add to ORKGThis study introduces the innovative method of in-situ precipitation (ISP) 3D printing technology for fabricating photocatalyst structures capable of efficiently degrading water pollutants. The technology involves using silver nitrate aqueous solution to print directly on the surface of solidified NaBr aqueous solution, resulting in the formation of regular porous silver bromide structures. The structures are then densified through drying and sintering, followed by photoreduction using ultraviolet radiation to create Ag@(silver atom cluster)AgBr photocatalyst structures. Experimental results demonstrate the effectiveness of this photocatalyst structure in degrading azo dyes (Orange II) and eliminating Escherichia coli (E. coli) under visibl...
Mineralisation of organic constituents in wastewaters emanating from petrochemical processing plants...
The agate dyeing industry has been commonly seen as a high-pollution industry. Dyeing wastewater tre...
AbstractA series of novel visible light driven all-solid-state Z-scheme BiOBr0.3I0.7/Ag/AgI photocat...
An innovative 3D printing procedure for producing a highly porous AgCl/Ag0 photocatalyst was develop...
Currently, the degradation of organic pollutants in wastewater by photocatalytic technology has attr...
This study used a three-dimensional (3D) printing process to develop the Ag/AgCl/TiO2 coupled photoc...
In recent years, additive manufacturing has become an emerging technology that offers near-complete ...
An innovative procedure of producing highly porous SiC-AgCl/Ag0 photocatalyst were developed and tes...
An innovative procedure of producing highly porous SiC-AgCl/Ag0 photocatalyst were developed and tes...
The goal of this research was to develop a safe, cost-effective, and eco-friendly technique for wast...
This work describes the fabrication of silver-patterned polymeric devices via light-based 3D printin...
Development of artificial Z-scheme hybrid with remarkably high efficiency in the visible-light is an...
Degradation of organic contaminants in wastewaters emanating from industrial processing plants could...
This work describes the fabrication of silver-patterned polymeric devices via light-based 3D printin...
The commercialization of sustainable 3D printing technology changed the face of manufacturing with i...
Mineralisation of organic constituents in wastewaters emanating from petrochemical processing plants...
The agate dyeing industry has been commonly seen as a high-pollution industry. Dyeing wastewater tre...
AbstractA series of novel visible light driven all-solid-state Z-scheme BiOBr0.3I0.7/Ag/AgI photocat...
An innovative 3D printing procedure for producing a highly porous AgCl/Ag0 photocatalyst was develop...
Currently, the degradation of organic pollutants in wastewater by photocatalytic technology has attr...
This study used a three-dimensional (3D) printing process to develop the Ag/AgCl/TiO2 coupled photoc...
In recent years, additive manufacturing has become an emerging technology that offers near-complete ...
An innovative procedure of producing highly porous SiC-AgCl/Ag0 photocatalyst were developed and tes...
An innovative procedure of producing highly porous SiC-AgCl/Ag0 photocatalyst were developed and tes...
The goal of this research was to develop a safe, cost-effective, and eco-friendly technique for wast...
This work describes the fabrication of silver-patterned polymeric devices via light-based 3D printin...
Development of artificial Z-scheme hybrid with remarkably high efficiency in the visible-light is an...
Degradation of organic contaminants in wastewaters emanating from industrial processing plants could...
This work describes the fabrication of silver-patterned polymeric devices via light-based 3D printin...
The commercialization of sustainable 3D printing technology changed the face of manufacturing with i...
Mineralisation of organic constituents in wastewaters emanating from petrochemical processing plants...
The agate dyeing industry has been commonly seen as a high-pollution industry. Dyeing wastewater tre...
AbstractA series of novel visible light driven all-solid-state Z-scheme BiOBr0.3I0.7/Ag/AgI photocat...