Highly porous carbon nitride by supramolecular preassembly of monomers for photocatalytic removal of sulfamethazine under visible light driven

“…Moreover, the carbon‐rich g‐C 3 N 4 nanosheet showed great cycling stability and had the ability to maintain high hydrogen production even after 12 cycling runs. Zhou and co‐workers reported a highly porous carbon nitride with increased performance in the removal of sulfamethazine, which is a commonly used antibiotic in the veterinary industry, under visible light owing to the large surface area resulting from the porous structure . Moreover, Rahman et al.…”

“…Zhou and co-workersr eported ah ighly porous carbon nitride with increased performance in the removal of sulfamethazine, which is ac ommonly used antibiotic in the veterinary industry, under visible light owing to the large surface area resulting from the porous structure. [22] Moreover,Rahman et al designed ag -C 3 N 4 nanosheet that not only possessed al arge surface area butt hat also counteracted the blueshift in its optical absorption, ac ommon issue that limits photon harvesting of g-C 3 N 4 nanosheets. [23] The as-synthesized g-C 3 N 4 nanosheet displayed an arrow band gap of 2.45 eV and achieved an apparent quantum efficiency of 16 %atl = 420 nm.…”

Hydrothermally Induced Oxygen Doping of Graphitic Carbon Nitride with a Highly Ordered Architecture and Enhanced Photocatalytic Activity

“…Moreover, the carbon‐rich g‐C 3 N 4 nanosheet showed great cycling stability and had the ability to maintain high hydrogen production even after 12 cycling runs. Zhou and co‐workers reported a highly porous carbon nitride with increased performance in the removal of sulfamethazine, which is a commonly used antibiotic in the veterinary industry, under visible light owing to the large surface area resulting from the porous structure . Moreover, Rahman et al.…”

“…Zhou and co-workersr eported ah ighly porous carbon nitride with increased performance in the removal of sulfamethazine, which is ac ommonly used antibiotic in the veterinary industry, under visible light owing to the large surface area resulting from the porous structure. [22] Moreover,Rahman et al designed ag -C 3 N 4 nanosheet that not only possessed al arge surface area butt hat also counteracted the blueshift in its optical absorption, ac ommon issue that limits photon harvesting of g-C 3 N 4 nanosheets. [23] The as-synthesized g-C 3 N 4 nanosheet displayed an arrow band gap of 2.45 eV and achieved an apparent quantum efficiency of 16 %atl = 420 nm.…”

Hydrothermally Induced Oxygen Doping of Graphitic Carbon Nitride with a Highly Ordered Architecture and Enhanced Photocatalytic Activity

“…Only a very few of the body's metabolism can be decomposed into non‐biological active ingredients and nearly 90% of the SAs will be in the form of a prototype or an active intermediate form through the body . Although there are a lot of reports on the removal of SAs , the popularization of these technologies is still limited. The presence of SAs residues can produce several undesirable effects like the development of microorganism resistance, as a result, the possible harmful effects on the treatment of bacterial infections .…”

Pipette‐tip solid‐phase extraction using cetyltrimethylammonium bromide enhanced molybdenum disulfide nanosheets as an efficient adsorbent for the extraction of sulfonamides in environmental water samples

“…have fabricated mesoporous carbon nitride‐modified GCE for sensitive and selective analysis of phenol and catechol; Guo and co‐authors have constructed OMC‐based electrochemical sensors for selective and sensitive detection of melamine carbon nanotube, and carbon nitride, the advantages of OMC‐based materials are the high surface area, unique porous structure and regulatable chemical properties. It is obviously seen that OMCs exhibit good sensing performances for electrochemical sensing applications due to combined unique mesoporous structure and excellent properties of carbon materials.…”

“…[21,22] For example, Zhou et al have constructed OMC modified glassy carbon electrodes (GCEs) for detection of L-cysteine, [23] and epinephrine; [24] Slowing and coauthors have prepared semigraphitic sulfur-doped OMC for electrochemical detection of chloramphenicol; [25] Rofouei et al have fabricated electrochemical carvedilol sensor using OMC as sensing material; [26] Zhou et al have fabricated mesoporous carbon nitride-modified GCE for sensitive and selective analysis of phenol and catechol; [27] Guo and co-authors have constructed OMC-based electrochemical sensors for selective and sensitive detection of melamine. [28] Compared to other carbon-based materials including graphene, [29,30] carbon nanotube, [31,32] and carbon nitride, [33][34][35][36] the advantages of OMC-based materials are the high surface area, unique porous structure and regulatable chemical properties. It is obviously seen that OMCs exhibit good sensing performances for electrochemical sensing applications due to combined unique mesoporous structure and excellent properties of carbon materials.…”

Highly Sensitive and Selective Dopamine Detection Utilizing Nitrogen‐Doped Mesoporous Carbon Prepared by a Molten Glucose‐Assisted Hard‐Template Approach