Factor analysis method for fluorescence excitation emission matrix

Wang, Xuefei; Jia, Song; Deng, Rule; Xing, Qian; Zhang, Tian

doi:10.1016/j.cplett.2022.140237

Cited by 2 publications

(3 citation statements)

References 20 publications

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“…Generally, the reduced number of molecules of different components of DOM after coagulation, also shows that coagulation is relatively more selective for DOM. For example, the total number of DOM molecules in surface water was reduced by 65.0% after coagulation (Hou et al, 2022), while DOM molecules in river water were reduced by 18.4% after coagulation (Wang, Jia, et al, 2023). Most of the molecules removed by coagulation consisted of CHO and CHON, proteins/lipids, condensed aromatic structures, and lignins.…”

Section: Resultsmentioning

confidence: 99%

Purification of dredged water by magnetic coagulation: Response surface optimization and dissolved organic matter removal characteristics

Xiao,

Feng,

Zhang

et al. 2024

Water Environment Research

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In the present study, magnetic coagulation was used to treat dredged water and the response surface method was used to optimize process parameters. The dissolved organic matter (DOM) removal characteristics were characterized by three‐dimensional fluorescence spectrometry and ultra‐high resolution mass spectrometry. During the magnetic coagulation process, the suspended solids (SS) removal rate increased initially and then decreased under conditions of increasing magnetic powder dosage and stirring rate. After magnetic coagulation and precipitation for 20 min, the contents of SS, ammonia nitrogen, chemical oxygen demand, and total phosphorus in the treated dredged water met the requirements of the discharge standard (GB8978–1996, China). Three‐dimensional fluorescence results showed that magnetic coagulation selectively removed fulvic acids and humic acid substances. After magnetic coagulation with precipitation for 10 min and 20 min, the total relative content of lignins, tannins, proteins, lipids, aminosugars, unsaturated hydrocarbons, condensed aromatic structures, and carbohydrates decreased by 26.3% and 39.4%, respectively. After magnetic coagulation, the distribution range of small molecule DOM shifted to the low H/C and high O/C regions. This study provides a novel perspective for studies on the removal of DOM in dredged water by magnetic coagulation.Practitioner Points SS and DOM removal were significantly enhanced by the use of magnetic coagulation. SS removal efficiency was affected by stirring rate and magnetic powder dosage. Magnetic coagulation selectively removed fulvic acids and humic acid substances. DOM molecule shifted to low H/C and high O/C regions after magnetic coagulation.

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Section: Resultsmentioning

confidence: 99%

Purification of dredged water by magnetic coagulation: Response surface optimization and dissolved organic matter removal characteristics

Xiao,

Feng,

Zhang

et al. 2024

Water Environment Research

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“…Comparing Eqs. (3,4) and (5,6), we notice that if the incident light propagates in plane, the Raman intensity is independent of the angle of incident light (f). However, when the incident light propagates out of plane, the Raman intensity depends on the angle of the incident light, and we will discuss this point in the next sections.…”

Section: Methodsmentioning

confidence: 99%

“…Selenium nanostructure-based semiconductors have a variety of potential applications in the fabrication of many highperformance devices. [1,2] Among them, as the family member of group III monochalcogenides (GaS, GaSe, InS, and InSe), few layers InSe have received a lot of interest, [3][4][5] due to the excellent carrier mobility, abnormal magneto-optic effect, [6] efficiency of splitting water, [7,8] thermal conductivity and significant band gap tunability. Recently, two-dimensional (2D) fewlayer InSe has been successfully synthesized, and exhibits good photothermal conversion efficiency, [3,[9][10][11][12][13][14][15][16][17] high mobility, improved exciton dissociation, decreased charge recombination, optical properties, [18] improved light harvesting, [19] and potential applications of multilayer InSe flake based FETs, [20] compared to other 2D materials.…”

Section: Introductionmentioning

confidence: 99%

Angle‐Dependent Raman Spectra of Crystal Polymorphs of GaO: A Computational Study

Deng

2024

ChemPhysChem

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Two crystal polymorphs of GaO consisting of GaO‐H and GaO‐T monolayers are proposed in this study. Based on the density functional theory calculations, the phonon dispersion demonstrates that both GaO‐H and GaO‐T monolayers could be stable. The band gaps of GaO‐H and GaO‐T monolayers are 1.51 and 1.43 eV, respectively. When an external electric field is applied, the band gaps of GaO monolayers are reduced dramatically, down to 0.13 eV with the field of 0.7 V/Å. Because of the decreased symmetry of C3v under an external electric field, more peaks of Raman spectra can be obtained. The angle‐dependent Raman spectra of A and A of GaO‐H monolayer, and A11g and A21g of GaO‐T monolayer are discussed seperately, with the incident lasers of 488 and 532 nm. Additionally, the Raman intensity distribution shows that the incident light should be parallel to the plane of the GaO monolayer to obtain more comparable Raman spectra. These investigations of the crystal polymorphs of GaO monolayers may guide the experimental investigations of GaO monolayers and potential optoelectronic applications.

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Factor analysis method for fluorescence excitation emission matrix

Cited by 2 publications

References 20 publications

Purification of dredged water by magnetic coagulation: Response surface optimization and dissolved organic matter removal characteristics

Purification of dredged water by magnetic coagulation: Response surface optimization and dissolved organic matter removal characteristics

Angle‐Dependent Raman Spectra of Crystal Polymorphs of GaO: A Computational Study

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