Ultrafine CuO/graphene oxide cellulose nanocomposites with complementary framework for polycyclic aromatic hydrocarbon pollutants removal

•Ultrafine CuO/Graphene Oxide Cellulose Nanocomposites was synthesized for contaminant removal.•The integrated-sorption and designed well-active adsorbent break the upper boundary limited in adsorption process.•The excellent selectivity (nearly 100 %) of tetracycline is performed out.•Enriched antib...

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Published inWater research (Oxford) Vol. 258; p. 121816
Main Authors Cao, Mengbo, Zhang, Hanmin, Wei, Xingyue, Tian, Yu
Format Journal Article
LanguageEnglish
Published England Elsevier Ltd 01.07.2024
Subjects
adsorbents
Adsorption
cellulose
Cellulose - chemistry
Copper - chemistry
energy
graphene
graphene oxide
Graphite - chemistry
High performance
Integrated-sorption
Kinetics
Low regeneration penalty
Mirror-like structure
nanocomposites
Nanocomposites - chemistry
oxidation
Polycyclic aromatic hydrocarbon pollutants
Polycyclic Aromatic Hydrocarbons - chemistry
purification methods
sorption
tetracycline
thermodynamics
water
Water Pollutants, Chemical - chemistry
water purification
Water Purification - methods
X-ray photoelectron spectroscopy
Integrated-sorption
High performance
Low regeneration penalty
Polycyclic aromatic hydrocarbon pollutants
Mirror-like structure
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Abstract •Ultrafine CuO/Graphene Oxide Cellulose Nanocomposites was synthesized for contaminant removal.•The integrated-sorption and designed well-active adsorbent break the upper boundary limited in adsorption process.•The excellent selectivity (nearly 100 %) of tetracycline is performed out.•Enriched antibiotics on materials facilitate the pollutant mineralization and adsorbent cycle in regeneration process. Efficient and sustainable methods for eliminating polycyclic aromatic hydrocarbon pollutants (PAHPs) are in highly desired. Proven technologies involve physical and chemical reactions that absorb PAHPs, however they encounter formidable challenges. Here, a bottom-up refining-grain strategy is proposed to rationally design ultrafine CuO/graphene oxide-cellulose nanocomposites (LCelCCu) with a mirror-like for tetracycline (TC) to substantially improve the efficient of the purification process by active integrated-sorption. The LCelCCu captures TC with a higher affinity and lower energy demand, as determined by sorption kinetic, isotherms, thermodynamics, and infrared and X-ray Photoelectron Spectroscopy. The resulting material could achieve ultra-high sorption capacity (2775.23 mg/g), kinetic (1.2499 L g−1 h−1) and high selectivity (up to 99.9 %) for TC, nearly surpassing all recent adsorbents. This study simultaneously unveils the pioneering role of simultaneous multi-site match sorption and subsequent advanced oxidation synergistically, fundamentally enhancing understanding of the structure-activity-selectivity relationship and inspires more sustainable water purification applications and broader material design considerations. [Display omitted]
AbstractList Efficient and sustainable methods for eliminating polycyclic aromatic hydrocarbon pollutants (PAHPs) are in highly desired. Proven technologies involve physical and chemical reactions that absorb PAHPs, however they encounter formidable challenges. Here, a bottom-up refining-grain strategy is proposed to rationally design ultrafine CuO/graphene oxide-cellulose nanocomposites (LCelCCu) with a mirror-like for tetracycline (TC) to substantially improve the efficient of the purification process by active integrated-sorption. The LCelCCu captures TC with a higher affinity and lower energy demand, as determined by sorption kinetic, isotherms, thermodynamics, and infrared and X-ray Photoelectron Spectroscopy. The resulting material could achieve ultra-high sorption capacity (2775.23 mg/g), kinetic (1.2499 L g⁻¹ h⁻¹) and high selectivity (up to 99.9 %) for TC, nearly surpassing all recent adsorbents. This study simultaneously unveils the pioneering role of simultaneous multi-site match sorption and subsequent advanced oxidation synergistically, fundamentally enhancing understanding of the structure-activity-selectivity relationship and inspires more sustainable water purification applications and broader material design considerations.
Efficient and sustainable methods for eliminating polycyclic aromatic hydrocarbon pollutants (PAHPs) are in highly desired. Proven technologies involve physical and chemical reactions that absorb PAHPs, however they encounter formidable challenges. Here, a bottom-up refining-grain strategy is proposed to rationally design ultrafine CuO/graphene oxide-cellulose nanocomposites (LCelCCu) with a mirror-like for tetracycline (TC) to substantially improve the efficient of the purification process by active integrated-sorption. The LCelCCu captures TC with a higher affinity and lower energy demand, as determined by sorption kinetic, isotherms, thermodynamics, and infrared and X-ray Photoelectron Spectroscopy. The resulting material could achieve ultra-high sorption capacity (2775.23 mg/g), kinetic (1.2499 L g-1 h-1) and high selectivity (up to 99.9 %) for TC, nearly surpassing all recent adsorbents. This study simultaneously unveils the pioneering role of simultaneous multi-site match sorption and subsequent advanced oxidation synergistically, fundamentally enhancing understanding of the structure-activity-selectivity relationship and inspires more sustainable water purification applications and broader material design considerations.Efficient and sustainable methods for eliminating polycyclic aromatic hydrocarbon pollutants (PAHPs) are in highly desired. Proven technologies involve physical and chemical reactions that absorb PAHPs, however they encounter formidable challenges. Here, a bottom-up refining-grain strategy is proposed to rationally design ultrafine CuO/graphene oxide-cellulose nanocomposites (LCelCCu) with a mirror-like for tetracycline (TC) to substantially improve the efficient of the purification process by active integrated-sorption. The LCelCCu captures TC with a higher affinity and lower energy demand, as determined by sorption kinetic, isotherms, thermodynamics, and infrared and X-ray Photoelectron Spectroscopy. The resulting material could achieve ultra-high sorption capacity (2775.23 mg/g), kinetic (1.2499 L g-1 h-1) and high selectivity (up to 99.9 %) for TC, nearly surpassing all recent adsorbents. This study simultaneously unveils the pioneering role of simultaneous multi-site match sorption and subsequent advanced oxidation synergistically, fundamentally enhancing understanding of the structure-activity-selectivity relationship and inspires more sustainable water purification applications and broader material design considerations.
Efficient and sustainable methods for eliminating polycyclic aromatic hydrocarbon pollutants (PAHPs) are in highly desired. Proven technologies involve physical and chemical reactions that absorb PAHPs, however they encounter formidable challenges. Here, a bottom-up refining-grain strategy is proposed to rationally design ultrafine CuO/graphene oxide-cellulose nanocomposites (LCelCCu) with a mirror-like for tetracycline (TC) to substantially improve the efficient of the purification process by active integrated-sorption. The LCelCCu captures TC with a higher affinity and lower energy demand, as determined by sorption kinetic, isotherms, thermodynamics, and infrared and X-ray Photoelectron Spectroscopy. The resulting material could achieve ultra-high sorption capacity (2775.23 mg/g), kinetic (1.2499 L g h ) and high selectivity (up to 99.9 %) for TC, nearly surpassing all recent adsorbents. This study simultaneously unveils the pioneering role of simultaneous multi-site match sorption and subsequent advanced oxidation synergistically, fundamentally enhancing understanding of the structure-activity-selectivity relationship and inspires more sustainable water purification applications and broader material design considerations.
•Ultrafine CuO/Graphene Oxide Cellulose Nanocomposites was synthesized for contaminant removal.•The integrated-sorption and designed well-active adsorbent break the upper boundary limited in adsorption process.•The excellent selectivity (nearly 100 %) of tetracycline is performed out.•Enriched antibiotics on materials facilitate the pollutant mineralization and adsorbent cycle in regeneration process. Efficient and sustainable methods for eliminating polycyclic aromatic hydrocarbon pollutants (PAHPs) are in highly desired. Proven technologies involve physical and chemical reactions that absorb PAHPs, however they encounter formidable challenges. Here, a bottom-up refining-grain strategy is proposed to rationally design ultrafine CuO/graphene oxide-cellulose nanocomposites (LCelCCu) with a mirror-like for tetracycline (TC) to substantially improve the efficient of the purification process by active integrated-sorption. The LCelCCu captures TC with a higher affinity and lower energy demand, as determined by sorption kinetic, isotherms, thermodynamics, and infrared and X-ray Photoelectron Spectroscopy. The resulting material could achieve ultra-high sorption capacity (2775.23 mg/g), kinetic (1.2499 L g−1 h−1) and high selectivity (up to 99.9 %) for TC, nearly surpassing all recent adsorbents. This study simultaneously unveils the pioneering role of simultaneous multi-site match sorption and subsequent advanced oxidation synergistically, fundamentally enhancing understanding of the structure-activity-selectivity relationship and inspires more sustainable water purification applications and broader material design considerations. [Display omitted]
ArticleNumber 121816
Author Zhang, Hanmin
Wei, Xingyue
Tian, Yu
Cao, Mengbo
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Keywords Integrated-sorption
High performance
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Polycyclic aromatic hydrocarbon pollutants
Mirror-like structure
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Snippet •Ultrafine CuO/Graphene Oxide Cellulose Nanocomposites was synthesized for contaminant removal.•The integrated-sorption and designed well-active adsorbent...
Efficient and sustainable methods for eliminating polycyclic aromatic hydrocarbon pollutants (PAHPs) are in highly desired. Proven technologies involve...
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StartPage 121816
SubjectTerms adsorbents
Adsorption
cellulose
Cellulose - chemistry
Copper - chemistry
energy
graphene
graphene oxide
Graphite - chemistry
High performance
Integrated-sorption
Kinetics
Low regeneration penalty
Mirror-like structure
nanocomposites
Nanocomposites - chemistry
oxidation
Polycyclic aromatic hydrocarbon pollutants
Polycyclic Aromatic Hydrocarbons - chemistry
purification methods
sorption
tetracycline
thermodynamics
water
Water Pollutants, Chemical - chemistry
water purification
Water Purification - methods
X-ray photoelectron spectroscopy
Title Ultrafine CuO/graphene oxide cellulose nanocomposites with complementary framework for polycyclic aromatic hydrocarbon pollutants removal
URI https://dx.doi.org/10.1016/j.watres.2024.121816
https://www.ncbi.nlm.nih.gov/pubmed/38823284
https://www.proquest.com/docview/3063461903
https://www.proquest.com/docview/3206212230
Volume 258
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