15 results on '"Ghulam, Abbas"'
Search Results
2. Peroxymonosulfate-based photocatalytic oxidation of tetracycline by Fe2(MoO4)3/Cd0.5Ni0.5S heterostructure; DFT simulation
- Author
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Ashraf, Ghulam Abbas, primary, Rasool, Raqiqa Tur, additional, Pasha, Mohsin, additional, Rasool, Rafiqat Ul, additional, Chen, Junyu, additional, Khosa, Azhar Abbas, additional, Mahmood, Sajid, additional, Hassan, Muhammad, additional, and Guo, Hai, additional
- Published
- 2022
- Full Text
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3. Hybridization of long short-term memory with Sparrow Search Optimization model for water quality index prediction
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Paul, Vince, primary, Ramesh, R., additional, Sreeja, P., additional, Jarin, T., additional, Sujith Kumar, P.S., additional, Ansar, Sabah, additional, Ashraf, Ghulam Abbas, additional, Pandey, Sadanand, additional, and Said, Zafar, additional
- Published
- 2022
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4. Characterization of a newly isolated self-flocculating microalga Bracteacoccus pseudominor BERC09 and its evaluation as a candidate for a multiproduct algal biorefinery
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Malik, Sana, primary, Ashraf, Muhammad Umer Farooq, additional, Shahid, Ayesha, additional, Javed, Muhammad Rizwan, additional, Khan, Aqib Zafar, additional, Usman, Muhammad, additional, Manivannan, Arthi, additional, Mehmood, Muhammad Aamer, additional, and Ashraf, Ghulam Abbas, additional
- Published
- 2022
- Full Text
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5. Peroxymonosulfate-based photocatalytic oxidation of tetracycline by Fe
- Author
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Ghulam Abbas, Ashraf, Raqiqa Tur, Rasool, Mohsin, Pasha, Rafiqat Ul, Rasool, Junyu, Chen, Azhar Abbas, Khosa, Sajid, Mahmood, Muhammad, Hassan, and Hai, Guo
- Subjects
Light ,Water ,Tetracycline ,Catalysis ,Cadmium ,Anti-Bacterial Agents - Abstract
The current research is meant to develop novel semiconductor photocatalysts, for the decomposition of tetracycline (TC) as a model organic contaminant in the aquatic environment. The fabrication of Fe
- Published
- 2022
6. Hybridization of long short-term memory with Sparrow Search Optimization model for water quality index prediction
- Author
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Vince Paul, R. Ramesh, P. Sreeja, T. Jarin, P.S. Sujith Kumar, Sabah Ansar, Ghulam Abbas Ashraf, Sadanand Pandey, and Zafar Said
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Environmental Engineering ,Health, Toxicology and Mutagenesis ,Public Health, Environmental and Occupational Health ,General Medicine ,General Chemistry ,Pollution ,Memory, Short-Term ,Water Quality ,Environmental Chemistry ,Animals ,Environmental Pollutants ,Pesticides ,Fertilizers ,Ecosystem ,Sparrows - Abstract
Water quality (WQ) analysis is a critical stage in water resource management and should be handled immediately in order to control pollutants that could have a negative influence on the ecosystem. The dramatic increase in population, the use of fertilizers and pesticides, and the industrial revolution have resulted in severe effects on the WQ environment. As a result, the prediction of WQ greatly helped to monitor water pollution. Accurate prediction of WQ is the foundation of managing water environments and is of high importance for protecting water environment. WQ data presents in the form of multi-variate time-sequence dataset. It is clear that the accuracy of predicting WQ will be enhanced when the multi-variate relation and time sequence dataset of WQ are fully utilized. This article presents the Water Quality Prediction utilising Sparrow Search Optimization with Hybrid Long Short-Term Memory (WQP-SSHLSTM) model. The presented WQP-SSHLSTM model intends to examine the data and classify WQ into distinct classes. To achieve this, the presented WQP-SSHLSTM model undergoes data scaling process to scale the input data into uniform format. Followed by, a hybrid long short-term memory-deep belief network (LSTM-DBN) technique is employed for the recognition and classification of WQ. Moreover, Sparrow search optimization algorithm (SSOA) is utilized as a hyperparameter optimizer of the proposed DBN-LSTM model. For demonstrating the enhanced outcomes of the presented WQP-SSHLSTM model, a sequence of experiments has been performed and the outcomes are reviewed under distinct prospects. The WQP-SSHLSTM model has achieved 99.84 percent accuracy, which is the maximum attainable. The simulation outcomes ensured the enhanced outcomes of the WQP-SSHLSTM model on recent methods.
- Published
- 2022
7. Characterization of a newly isolated self-flocculating microalga Bracteacoccus pseudominor BERC09 and its evaluation as a candidate for a multiproduct algal biorefinery
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Sana Malik, Muhammad Umer Farooq Ashraf, Ayesha Shahid, Muhammad Rizwan Javed, Aqib Zafar Khan, Muhammad Usman, Arthi Manivannan, Muhammad Aamer Mehmood, and Ghulam Abbas Ashraf
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Environmental Engineering ,Nitrogen ,Health, Toxicology and Mutagenesis ,Public Health, Environmental and Occupational Health ,General Medicine ,General Chemistry ,Carotenoids ,Lipids ,Pollution ,Chlorophyceae ,Microalgae ,Environmental Chemistry ,Biomass ,Phylogeny - Abstract
Microalgae have the highest capability to fix the atmospheric carbon and wastewater-derived nutrients to produce high-value bioproducts including lipids and carotenoids. However, their lower titers and single-product-oriented biomass processing have made the overall process expensive. Hence, increased metabolite titer and processing of the biomass for more than one product are required to ensure the commercial robustness of the algal biorefinery. In this study, a newly isolated algal strain was identified as Bracteacoccus pseudominor BERC09 through phylogenetic analysis based on the 18S rRNA gene sequence. Basic characterization of the strain revealed its promising potential to produce carotenoids and lipids. The lipids and carotenoid biosynthesis pathways of BERC09 were further triggered by manipulating the abiotic factors including nitrogen sources (NaNO
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- 2022
8. Aggregation enhances the activity and growth rate of anammox bacteria and its mechanisms
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Ru Wang, Liangwei Deng, Lan Wang, Wen-yan Wang, Zhi-guo Zhao, Ghulam Abbas, and Gang Wang
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Environmental Engineering ,Nitrogen ,Health, Toxicology and Mutagenesis ,Sodium ,Biomass ,chemistry.chemical_element ,Polysaccharide ,Anaerobic Ammonia Oxidation ,chemistry.chemical_compound ,Bioreactors ,Extracellular polymeric substance ,Environmental Chemistry ,Anaerobiosis ,Food science ,chemistry.chemical_classification ,Bacteria ,Sewage ,biology ,Norspermidine ,Public Health, Environmental and Occupational Health ,Biofilm ,General Medicine ,General Chemistry ,biology.organism_classification ,Pollution ,chemistry ,Anammox ,Oxidation-Reduction - Abstract
The aggregation of anaerobic ammonium oxidation (anammox) bacteria is important for the start-up and biomass retention of anammox processes. However, it is unclear whether it is beneficial to the activity, growth and reproduction of anammox bacteria. In this study, four reactor systems were developed to explore the effects of aggregation on anammox activity, growth and reproduction, after excluding the contribution of aggregation to sludge settling and retention. Results demonstrated that (i) compared with free-living planktonic bacteria, the aggregated bacteria had a higher volumetric nitrogen removal rate (0.75 kg-N/(m³·d)) and specific nitrogen removal activity (1.097 kg-N/VSS/d). And after 67 days cultivation, it had the higher sludge concentration and relative abundance (92.4%); (ii) compared with acidic polysaccharides and α- d -glucopyranose polysaccharides, β- d -glucopyranose polysaccharide play more essential roles of anammox aggregation; (iii) norspermidine triggered the secretion of α- d -glucopyranose polysaccharides to combat the toxicity, and inhibited biomass growth rate; (iv) immobilization in polyvinyl alcohol (10%) or sodium alginate (2%) gel beads was better than sodium alginate-chitosan gel beads and norspermidine (biofilm inhibitor) for the cultivation of free-living planktonic anammox bacteria. This is the first comparative study of three methods for cultivating free-living anammox bacteria. In conclusion, we found that the aggregation of anammox sludge not only facilitates biomass retention but also enhances the bioactivity, relative abundance, growth, and reproduction rate of anammox bacteria. The work is helpful to understand the formation of anammox granular sludge and contribute to the fast start-up and stable operation in anammox application.
- Published
- 2022
9. Iron oxide nanoparticles doped biochar ameliorates trace elements induced phytotoxicity in tomato by modulation of physiological and biochemical responses: Implications for human health risk
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Muhammad Asif Naeem, Muhammad Abdullah, Muhammad Imran, Muhammad Shahid, Ghulam Abbas, Muhammad Amjad, null Natasha, Ghulam Mustafa Shah, Waqas-ud-Din Khan, Saud Alamri, and Abdullah A. Al-Amri
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Environmental Engineering ,Health, Toxicology and Mutagenesis ,Public Health, Environmental and Occupational Health ,Hydrogen Peroxide ,General Medicine ,General Chemistry ,Pollution ,Trace Elements ,Soil ,Solanum lycopersicum ,Charcoal ,Humans ,Soil Pollutants ,Environmental Chemistry ,Magnetic Iron Oxide Nanoparticles ,Ecosystem - Abstract
Use of untreated municipal wastewater (WW) contains toxic trace elements that pose a serious threat to the soil-plant-human continuum. The use of biochar (BC) is a promising approach to minimize trace element induced toxicity in the ecosystem. Therefore, the present study aims to evaluate the efficacy of BC derived from wheat straw and iron oxide nanoparticles doped biochar (IO-BC) to reduce trace element buildup in soil and plants that consequently affect tomato plant growth and physiological activity under WW irrigation. The BC and IO-BC were applied at four levels (0, 0.5, 1, and 1.5%) in WW irrigated soils. The results indicated that the addition of WW + BC and WW + IO-BC resulted in significant reduction in trace element mobility in soil. Interestingly, the application of WW + IO-BC (1.5%) was more effective in reducing trace element mobility and bioavailability in soil by 78% (As), 58% (Cr), 46% (Pb) and 50% (Cd) compared to WW irrigation, and thus reduced trace element accumulation and toxicity in plants. Results revealed that WW irrigation negatively affected tomato growth, fruit yield, physiology and antioxidative response. Addition of WW + BC and WW + IO-BC ameliorated the oxidative stress (up to 65% and 58% in H
- Published
- 2022
10. Risk assessment of potentially toxic metal(loid)s in Vigna radiata L. under wastewater and freshwater irrigation
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Hasnain Anwar, Muhammad Shahid, Sana Khalid, Muhammad Nadeem, Sajjad Ahmad, Ghulam Abbas, Tasveer Zahra Tariq, Nabeel Khan Niazi, and Natasha
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Irrigation ,Environmental Engineering ,Agricultural Irrigation ,Environmental remediation ,Health, Toxicology and Mutagenesis ,0208 environmental biotechnology ,chemistry.chemical_element ,Fresh Water ,02 engineering and technology ,010501 environmental sciences ,Wastewater ,01 natural sciences ,Risk Assessment ,Tap water ,Environmental Chemistry ,Humans ,Soil Pollutants ,Arsenic ,0105 earth and related environmental sciences ,Cadmium ,Vigna ,Public Health, Environmental and Occupational Health ,food and beverages ,General Medicine ,General Chemistry ,Pollution ,020801 environmental engineering ,chemistry ,Environmental chemistry ,Shoot ,Environmental science ,Groundwater - Abstract
Depending on the use and management, wastewater generation can be a severe environmental dilemma or a potential source. Proper application and management of municipal water (MW) in agriculture could be its sustainable use. Until now, there is rare data about the combined application of wastewater and freshwater in agriculture that could be considered as sustainable water management strategy. Also, plant (oxidative) stress responses to wastewater application have been rarely investigated. Here, we elucidated the influence of MW irrigation, diluted with canal water (CW) and groundwater (tap water; TW), on Vigna radiata to evaluate (i) the accumulation of potentially toxic metal(loid)s (PTMs; arsenic, copper, cadmium, iron, manganese, lead, nickel, zinc) in different plant tissues, (ii) biochemical modifications in plants, (iii) relative compartmentation of PTMs inside plant, and (iv) PTMs-induced health risk. Results revealed that the soil-plant transfer of PTMs and physiological changes in V. radiata varied depending on the irrigation water type. Noticeably, plants sequestered most of the PTM contents in roots (average 64%) and less were translocated to plant shoots. All the irrigation treatments provoked oxidative stress in V. radiata with high production of hydrogen peroxide, followed by an oxidation of membrane lipids and a decrease in chlorophyll content. The estimated cancer risk and hazard quotients values revealed a potential risk to human health (HQ: 2.2–108.8, CR: 0.0002–0.664), especially for arsenic, cadmium and lead. The integrated risk estimated from PTMs highlighted the unsuitability of all the treatments for crop irrigation. Therefore, in areas with high PTM levels in MW and freshwaters their mixed use is not an ideal management practice. Conclusively, this study helps to strictly monitor the quality of irrigation water before applying to crops and develop a suitable management and remediation strategy.
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- 2020
11. Copper uptake, essentiality, toxicity, detoxification and risk assessment in soil-plant environment
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Zunaira Shabbir, Saliha Shamshad, Ghulam Murtaza, Abrar Shabbir, Natasha, Muhammad Shahid, Ghulam Abbas, Camille Dumat, Sana Khalid, and Aneeza Sardar
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Environmental Engineering ,Health, Toxicology and Mutagenesis ,0208 environmental biotechnology ,chemistry.chemical_element ,02 engineering and technology ,010501 environmental sciences ,medicine.disease_cause ,Risk Assessment ,01 natural sciences ,Antioxidants ,Soil ,Detoxification ,medicine ,Humans ,Soil Pollutants ,Environmental Chemistry ,0105 earth and related environmental sciences ,chemistry.chemical_classification ,Reactive oxygen species ,Health risk assessment ,Public Health, Environmental and Occupational Health ,food and beverages ,General Medicine ,General Chemistry ,Plants ,Pollution ,Copper ,020801 environmental engineering ,Oxidative Stress ,chemistry ,Environmental chemistry ,Toxicity ,Phytotoxicity ,Reactive Oxygen Species ,Oxidative stress ,Potential toxicity - Abstract
Copper (Cu) is an essential metal for human, animals and plants, although it is also potentially toxic above supra-optimal levels. In plants, Cu is an essential cofactor of numerous metalloproteins and is involved in several biochemical and physiological processes. However, excess of Cu induces oxidative stress inside plants via enhanced production of reactive oxygen species (ROS). Owing to its dual nature (essential and a potential toxicity), this metal involves a complex network of uptake, sequestration and transport, essentiality, toxicity and detoxification inside the plants. Therefore, it is vital to monitor the biogeo-physiochemical behavior of Cu in soil-plant-human systems keeping in view its possible essential and toxic roles. This review critically highlights the latest understanding of (i) Cu adsorption/desorption in soil (ii) accumulation in plants, (iii) phytotoxicity, (iv) tolerance mechanisms inside plants and (v) health risk assessment. The Cu-mediated oxidative stress and resulting up-regulation of several enzymatic and non-enzymatic antioxidants have been deliberated at molecular and cellular levels. Moreover, the role of various transporter proteins in Cu uptake and its proper transportation to target metalloproteins is critically discussed. The review also delineates Cu build-up in plant food and accompanying health disorders. Finally, this review proposes some future perspectives regarding Cu biochemistry inside plants. The review, to a large extent, presents a complete picture of the biogeo-physiochemical behavior of Cu in soil-plant-human systems supported with up-to-date 10 tables and 5 figures. It can be of great interest for post-graduate level students, scientists, industrialists, policymakers and regulatory authorities.
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- 2020
12. ZnO nanoparticles and zeolite influence soil nutrient availability but do not affect herbage nitrogen uptake from biogas slurry
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Yasir Aziz, Muhammad Rashid, and Ghulam Abbas Shah
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Environmental Engineering ,Soil nutrients ,Nitrogen ,Health, Toxicology and Mutagenesis ,0208 environmental biotechnology ,chemistry.chemical_element ,Nanoparticle ,02 engineering and technology ,Zinc ,010501 environmental sciences ,01 natural sciences ,Soil ,Nutrient ,Biogas ,Environmental Chemistry ,Biomass ,Zeolite ,Fertilizers ,0105 earth and related environmental sciences ,Public Health, Environmental and Occupational Health ,General Medicine ,General Chemistry ,Nutrients ,Pollution ,020801 environmental engineering ,chemistry ,Environmental chemistry ,Biofuels ,Slurry ,Zeolites ,Nanoparticles ,Zinc Oxide - Abstract
Recently, there is a growing interest among agriculturists to use nanotechnology for the development of nutrient-use efficient fertilizers. However, its sustainable use for the synthesis of mineral or organic nano-fertilizers requires a thoughtful of the mechanism as well as the fate of nutrients and their interaction with soil-plant systems. Therefore, the aim of current study was to investigate the mixing of three different application rates of zinc oxide nanoparticles (ZNPs: 1.4, 2.8 and 3.6 mg kg−1 soil) as well as zeolite (141, 282 and 423 mg kg−1 soil) with biogas slurry (AS) on soil nutrient availability and herbage nitrogen (N) and zinc (Zn) uptake in a standard pot experiment. We found that both ZNPs and zeolite significantly increased mineral N content in soil compared to AS alone (P
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- 2018
13. ZnO nanoparticles and zeolite influence soil nutrient availability but do not affect herbage nitrogen uptake from biogas slurry
- Author
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Aziz, Yasir, primary, Shah, Ghulam Abbas, additional, and Rashid, Muhammad Imtiaz, additional
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- 2019
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14. Heterotrophic Ammonia and Nitrate Bio-removal Over Nitrite (Hanbon): Performance and microflora
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Ke-Xin Gao, Ghulam Abbas, Wei Li, Zi-Jun Duo, Zhao-yang Cai, Meng Zhang, Yao-Feng Lu, and Ping Zheng
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0301 basic medicine ,Environmental Engineering ,Nitrogen ,Health, Toxicology and Mutagenesis ,Heterotroph ,chemistry.chemical_element ,010501 environmental sciences ,Wastewater ,01 natural sciences ,Waste Disposal, Fluid ,03 medical and health sciences ,Ammonia ,chemistry.chemical_compound ,Bioreactors ,Nitrate ,RNA, Ribosomal, 16S ,Environmental Chemistry ,Nitrite ,Effluent ,Nitrites ,0105 earth and related environmental sciences ,Nitrates ,Bacteria ,Public Health, Environmental and Occupational Health ,Environmental engineering ,Substrate (chemistry) ,General Medicine ,General Chemistry ,Pollution ,030104 developmental biology ,chemistry ,Anammox ,Environmental chemistry ,Oxidation-Reduction ,Water Pollutants, Chemical - Abstract
A novel H eterotrophic A mmonia and N itrate B io-removal O ver N itrite (Hanbon) process, combining S hort N itrate R eduction (SNR) with An aerobic Amm onia Ox idation (Anammox), was developed in a lab-scale continuous up-flow reactor. The substrate effects were investigated to characterize the performance of Hanbon process, and the corresponding microflora information was also revealed. Our results showed that the optimal substrate ratio of NH4+-N:NO3−-N:COD for the Hanbon process was 0.65:1:2.2. The volumetric nitrogen removal rate was up to 9.0 ± 0.1 kgN·m−3·d−1 at high influent substrate concentrations of NH4+-N 375 mg L−1, NO3−-N 750 mg L−1 and COD 1875 mg L−1, which was superior to the reported values of analogous processes. Moreover, the effluent total nitrogen concentration was able to meet the strict discharge standard (less than 10 mg L−1) at low influent substrate concentration of NH4+-N 26 mg L−1, NO3−-N 40 mg·L−1and COD 88 mg L−1. Illumina-based 16S rRNA gene sequencing results showed that Halomonas campisalis and Candidatus Kuenenia stuttgartiensis were the dominant bacteria in the SNR section and Anammox section at high substrate concentration condition. However, Halomonas campaniensis and Candidatus Brocadia brasiliensis were raised significantly at low substrate concentration condition. Hanbon process provided in the present work was flexible of treating wastewater with various nitrogen concentrations, deserving further development.
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- 2017
15. Peroxymonosulfate-based photocatalytic oxidation of tetracycline by Fe 2 (MoO 4 ) 3 /Cd 0.5 Ni 0.5 S heterostructure; DFT simulation.
- Author
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Ashraf GA, Rasool RT, Pasha M, Rasool RU, Chen J, Khosa AA, Mahmood S, Hassan M, and Guo H
- Subjects
- Catalysis, Anti-Bacterial Agents, Light, Water, Cadmium, Tetracycline chemistry
- Abstract
The current research is meant to develop novel semiconductor photocatalysts, for the decomposition of tetracycline (TC) as a model organic contaminant in the aquatic environment. The fabrication of Fe
2 (MoO4 )3 /Cd0.5 Ni0.5 S (FMO/CNS) composite has proven to be an effective method for improving the sustainability and photocatalytic activity of Cd0.5 Ni0.5 S (CNS). Under visible light irradiation, FMO/CNS nanocomposite demonstrated significant PMS activation which led to 1.36 and 1.81 times TC removal efficiency as compared to immaculate Fe2 (MoO4 )3 (FMO) and CNS. FMO/CNS composite potentially promotes the segregation of electron-hole pairs (e- -h+ ) and exemplifies amazing photocatalytic performance for TC degradation. Its significant photocatalytic activity is due to its unique structure, which includes tiny pores on the surface that confine the PMS molecule to the interface. The FMO/CNS composite has significantly greater piezocatalytic activity than pure FMO and CNS, demonstrating the synergistic effect of FMO and CNS. In the degradation of TC, holes and key reactive radicals (• O2 - /• OH/SO4 -• ) played a major role. Computational studies (DFT) estimates, including the determination of intermediates, confirmed that the hydroxyl addition and C-N cleavage pathways were responsible for TC degradation. As a result, this work delivers a new approach to developing novel photocatalysts with high photocatalytic activity for the abatement of organic contaminants in water., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2022. Published by Elsevier Ltd.)- Published
- 2022
- Full Text
- View/download PDF
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