Keyword search (4,163 papers available)

"Liu W" Authored Publications:

Title Authors PubMed ID
1 Capacitive bimetallic redox cycles and ligand-to-metal charge transfer to Boost denitrification with Ni sup II /sup /Fe sup II /sup -Gallic acid phenolic networks Yu S; Jin Y; Guo T; Li H; Liu W; Chen Z; Wang X; Guo J; 41707775
ENCS
2 Symptom burden, healthcare utilization, and risky behaviors in survivors of the childhood cancer survivor study (CCSS): an observation cohort study Webster R; Srivastava DK; Xie L; Darji H; Liu W; McGrady ME; Brinkman TM; Alberts NM; Ness KK; Fuemmeler B; Kunin-Batson AS; Huang IC; Armstrong GT; Howell RM; Green DM; Yasui Y; Krull KR; 41340862
PSYCHOLOGY
3 First report of synthetic antioxidants in baby wipes: Insights into occurrence, sources, and infant exposure Wang X; Liu W; Wang J; Johannessen C; Zhang X; Xia K; Wu X; Liu Q; 41259909
CHEMBIOCHEM
4 Engineered iron-sulfur carriers for efficient mixotrophic and sulfur autotrophic denitrification in low carbon to nitrogen ratio municipal wastewater: Mechanisms of biofilm enhancement and electron transfer promotion Yu S; Zhang X; Guo T; Li H; Liu W; Chen Z; Wang X; Ren B; Guo J; 40712941
ENCS
5 Elucidating the size distribution of p‑Phenylenediamine-Derived quinones in atmospheric particles Xia K; Qin M; Han M; Zhang X; Wu X; Liu M; Liu S; Wang X; Liu W; Xie Z; Yuan R; Liu Q; 39978217
CHEMBIOCHEM
6 Study on the mechanism of regulating micromolar Fe utilization and promoting denitrification by guanosine monophosphate (GMP) based multi-signal functional material Hematin@Fe/GMP Hao Y; Guo T; Li H; Liu W; Chen Z; Wang X; Guo J; 39657473
ENCS
7 Amorphous Cu/Fe nanoparticles with tandem intracellular and extracellular electron capacity for enhancing denitrification performance and recovery of co-contaminant suppressed denitrification Fu J; Guo T; Li H; Liu W; Chen Z; Wang X; Guo J; 39542060
ENCS
8 Supporting parent capacity to manage pain in young children with cancer at home: Co-design and usability testing of the PainCaRe app Jibb LA; Liu W; Stinson JN; Nathan PC; Chartrand J; Alberts NM; Hashemi E; Masama T; Pease HG; Torres LB; Cortes HG; Kuczynski S; Liu S; La H; Fortier MA; 39473834
CONCORDIA
9 Fe/GMP functional nanomaterial enhancing the denitrification efficiency by bi-signal regulation: Electron transfer and microbial community Hao Y; Guo T; Li H; Liu W; Chen Z; Zhang W; Wang X; Guo J; 39326537
ENCS
10 Glycemic extremes are related to cognitive dysfunction in children with type 1 diabetes: A meta-analysis He J; Ryder AG; Li S; Liu W; Zhu X; 29573221
PSYCHOLOGY
11 Deep model integrated with data correlation analysis for multiple intermittent faults diagnosis. Yang J, Xie G, Yang Y, Zhang Y, Liu W 31174854
ENCS

 

Title:Capacitive bimetallic redox cycles and ligand-to-metal charge transfer to Boost denitrification with Ni sup II /sup /Fe sup II /sup -Gallic acid phenolic networks
Authors:Yu SJin YGuo TLi HLiu WChen ZWang XGuo J
Link:https://pubmed.ncbi.nlm.nih.gov/41707775/
DOI:10.1016/j.biortech.2026.134237
Publication:Bioresource technology
Keywords:Bimetallicphenolic networksElectron transferMetabolic activityMetagenomic sequencingNO(3)(-) reduction
PMID:41707775 Category: Date Added:2026-02-19
Dept Affiliation: ENCS
1 School of Environmental and Municipal Engineering, Tianjin Key Laboratory of Aquatic Science and Technology, Tianjin Chengjian University, Jinjing Road 26, Tianjin 300384, China.
2 School of Civil Engineering and Architecture, Taizhou University, Taizhou 318000, China.
3 Department of Building, Civil, and Environmental Engineering, Concordia University, 1455 de Maisonneuve Blvd. W. Montreal, Quebec, Canada.
4 School of Civil Engineering and Architecture, Taizhou University, Taizhou 318000, China. Electronic address: wangxiaoping624@163.com.
5 School of Civil Engineering and Architecture, Taizhou University, Taizhou 318000, China. Electronic address: jianbguo@163.com.

Description:

Biological denitrification is limited by slow nitrate (NO3-) reduction due to low electron transfer efficiency, unsatisfactory community functional efficiency and insufficient metabolic activity of microbial communities. To overcome these challenges, Ni2+ and Fe2+ were incorporated with gallic acid (GA) to form bimetallic polyphenol networks (NiFeGA BPNs) with low-cost and high-biocompatibility. NiFeGA BPNs exhibited capacitive Ni(II)/Fe(II) redox cycles and excellent ligand-to-metal charge transfer capabilities to enable complete degradation of 200 mg/L NO3- within 8 h. All these improvements could be ascribed to that NiFeGA BPNs significantly improved electron transfer efficiency and stimulated microbial metabolic activity, which were proved by extracellular polymeric substances electrochemical analysis and electron transport chain inhibitors experiments. More importantly, metagenomic sequencing analysis confirmed that NiFeGA BPNs improved community structure by directionally enriching Pseudomonas. Consequently, NiFeGA BPNs significantly improving denitrification, which provides both theoretical guidance and technical frameworks for the continuous and efficient treatment of nitrate in wastewater.





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