[1] A. Rajbanshi, Study on heavy metal resistant bacteria in Guheswori sewage treatment plant, Nature. 6 (1) (2009) 52-57. [2] N. Cui, L.Y. Qu, G. Wu, Heavy metal accumulation characteristics and physiological response of Sabina chinensis and Platycladus orientalis to atmospheric pollution, J. Environ. Sci. 112 (2022) 192-201. [3] X.F. Cheng, T. Danek, J. Drozdova, Q.R. Huang, W.F. Qi, L.L. Zou, S.R. Yang, X.L. Zhao, Y.G. Xiang, Soil heavy metal pollution and risk assessment associated with the Zn-Pb mining region in Yunnan, Southwest China, Environ. Monit. Assess. 190 (4) (2018) 194. [4] S.Y. Wang, J. Wang, Y. Luo, H. Shen, Y.B. Li, Evaluation of heavy metal pollution with uneven spatial sampling distribution based on Voronoi Area density, Environ. Sci. Pollut. Res. Int. 30 (17) (2023) 50431-50443. [5] M. Shahid, C. Dumat, S. Khalid, E. Schreck, T. Xiong, N.K. Niazi, Foliar heavy metal uptake, toxicity and detoxification in plants: a comparison of foliar and root metal uptake, J. Hazard. Mater. 325 (2017) 36-58. [6] D. Paul, Research on heavy metal pollution of River Ganga: a review, Ann. Agrar. Sci. 15 (2) (2017) 278-286. [7] S.S. Dhaliwal, J. Singh, P.K. Taneja, A. Mandal, Remediation techniques for removal of heavy metals from the soil contaminated through different sources: a review, Environ. Sci. Pollut. Res. Int. 27 (2) (2020) 1319-1333. [8] W.T. Liu, Q.X. Zhou, J. An, Y.B. Sun, R. Liu, Variations in cadmium accumulation among Chinese cabbage cultivars and screening for Cd-safe cultivars, J. Hazard. Mater. 173 (1-3) (2010) 737-743. [9] L. Bilinska, K. Blus, M. Gmurek, S. Ledakowicz, Coupling of electrocoagulation and ozone treatment for textile wastewater reuse, Chem. Eng. J. 358 (2019) 992-1001. [10] K.Q. Zhao, R.Y. Wu, Y.F. Luo, et al. Construction of active sites in porous organic polymers for various heavy metal ions capture[J]. Chem. J. Chin. Univ. Chin. 2021, 42(3): 834-842. https://doi.org/10.7503/cjcu20200467. [11] Y.D. Zou, X.X. Wang, A. Khan, P.Y. Wang, Y.H. Liu, A. Alsaedi, T. Hayat, X.K. Wang, Environmental remediation and application of nanoscale zero-valent iron and its composites for the removal of heavy metal ions: a review, Environ. Sci. Technol. 50 (14) (2016) 7290-7304. [12] E. Asuquo, A. Martin, P. Nzerem, F. Siperstein, X.L. Fan, Adsorption of Cd(II) and Pb(II) ions from aqueous solutions using mesoporous activated carbon adsorbent: equilibrium, kinetics and characterisation studies, J. Environ. Chem. Eng. 5 (1) (2017) 679-698. [13] Z.X. Ye, X.B. Yin, L.F. Chen, X.Y. He, Z.M. Lin, C.C. Liu, S.Y. Ning, X.P. Wang, Y.Z. Wei, An integrated process for removal and recovery of Cr(VI) from electroplating wastewater by ion exchange and reduction-precipitation based on a silica-supported pyridine resin, J. Clean. Prod. 236 (2019) 117631. [14] R. T., S. Sundararaman, Synthesis and characterization of chicken eggshell powder coated magnetic nano adsorbent by an ultrasonic bath assisted co-precipitation for Cr(VI) removal from its aqueous mixture, J. Environ. Chem. Eng. 8 (4) (2020) 103877. [15] Z.X. Zhao, Y.H. Li, Y.R. Zhou, Y.L. Hou, Z.Y. Sun, W.H. Wang, J.F. Gou, X.W. Cheng, Activation of sulfite by micron-scale iron-carbon composite for metronidazole degradation: theoretical and experimental studies, J. Hazard. Mater. 448 (2023) 130873. [16] S. Aoudj, A. Khelifa, N. Drouiche, R. Belkada, D. Miroud, Simultaneous removal of chromium(VI) and fluoride by electrocoagulation-electroflotation: application of a hybrid Fe-Al anode, Chem. Eng. J. 267 (2015) 153-162. [17] Z. Chen, S. Zhang, Y. Liu, N.S. Alharbi, S.O. Rabah, S. Wang, X. Wang, Synthesis and fabrication of g-C3N4-based materials and their application in elimination of pollutants, Sci. Total Environ. 731 (2020) 139054. [18] J.M. Qi, H.X. Zhu, T.Y. Yang, X.Y. Wang, Z.X. Wang, X.L. Lei, B. Li, W.M. Qian, Biomass-derived carbon/iron composite (FexOy-BC (RM)) with excellent Cd(II) adsorption from wastewater-Red mud resource utilization, Arab. J. Chem. 17 (1) (2024) 105411. [19] M.Q. Cai, Y. Zhang, C.Y. Dong, W.T. Wu, Q. Wang, Z.J. Song, Y.J. Shi, L.G. Wu, M.C. Jin, D.D. Dionysiou, Z.S. Wei, Manganese doped iron-carbon composite for synergistic persulfate activation: reactivity, stability, and mechanism, J. Hazard. Mater. 405 (2021) 124228. [20] Y.L. Kong, M.X. Li, Y.Y. Zhou, R. Pan, Z. Han, J.Y. Ma, Z.L. Chen, J.M. Shen, Carbothermal synthesis of nano-iron-carbon composites for arsenate removal from high-arsenic acid wastewater, J. Environ. Chem. Eng. 10 (2) (2022) 107140. [21] R. Madeira, I. Camps, First-principles calculations of nickel, cadmium, and lead nanoclusters adsorption on single-wall (10, 0) boron-nitride nanotube, Appl. Surf. Sci. 573 (2022) 151547. [22] P. Wei, H.J. Lou, X.M. Xu, W.J. Xu, H.Y. Yang, W. Zhang, Y.F. Zhang, Preparation of PP non-woven fabric with good heavy metal adsorption performance via plasma modification and graft polymerization, Appl. Surf. Sci. 539 (2021) 148195. [23] M. Wang, X.H. Cai, Q. Yang, Y. Tong, S. Zhang, The mechanism of carcinogenic heavy metal adsorption on a new monolayer AlP5, Appl. Surf. Sci. 623 (2023) 157025. [24] R.A. Ok, S. Kutluay, Designing novel perlite-Fe3O4@SiO2@8-HQ-5-SA as a promising magnetic nanoadsorbent for competitive adsorption of multicomponent VOCs, Chemosphere 338 (2023) 139636. [25] S.M. Turp, mn2+ and Cu2+ adsorption with a natural adsorbent: expanded perlite, Appl. Ecol. Env. Res. 16 (4) (2018) 5047-5057. [26] Z.P. Li, J. Wang, H. Ni, et al. A Method for Preparing Heavy Metal Adsorption Products by Recovering from Agarice Extraction residue. Fujian Province:CN115818731A, 2023. [27] Z.P. Li, Q.S. Hu, J.F. Chen, X. Liu, Y.Y. Sang, J. Wang, M.J. Zheng, H. Ni, Q.B. Li, Z.D. Jiang, Y.B. Zhu, Optimized strategy for simultaneous recovering bioactive oligosaccharides and reusable perlite from agar industrial waste residues, J. Clean. Prod. 378 (2022) 134631. [28] Z.P. Li, J. Wang, J.F. Chen, Y. Liang, S.Y. Xie, Q.B. Li, X.P. Du, Z.D. Jiang, Y.B. Zhu, H. Ni, Characteristics and mechanisms of sustainable recovery of perlite from carrageenan residue by green technology and its application in carrageenan extraction, J. Clean. Prod. 434 (2024) 140131. [29] S.M. Turp, Prediction of adsorption efficiencies of Ni (II) in aqueous solutions with perlite via artificial neural networks, Arch. Environ. Prot. 43 (4) (2017) 26-32. [30] M. Krol, E. Matras, W. Mozgawa. Sorption of Cd2+ ions onto zeolite synthesized from perlite waste, Int. J. Environ. Sci. 13(11) (2016):2697-2704. [31] F. Aghabeyk, A. Azadmehr, A. Hezarkhani, Fabrication of feldspar-based geopolymers from perlite toward decontamination of heavy metals from aqueous solution: hydrolysis process, characterizations, kinetic and isotherm studies, J. Environ. Chem. Eng. 10 (4) (2022) 108087. [32] N.K. Soliman, A.F. Moustafa, Industrial solid waste for heavy metals adsorption features and challenges; a review, J. Mater. Res. Technol. 9 (5) (2020) 10235-10253. [33] Y.L. Yan, L. Peng, R.M. Li, Y.H. Li, L.J. Li, H.L. Bai, Concentration, ozone formation potential and source analysis of volatile organic compounds (VOCs) in a thermal power station centralized area: a study in Shuozhou, China, Environ. Pollut. 223 (2017) 295-304. [34] L.C. Zheng, D. Peng, P.P. Meng, Promotion effects of nitrogenous and oxygenic functional groups on cadmium (II) removal by carboxylated corn stalk, J. Clean. Prod. 201 (2018) 609-623. [35] L.J. Huang, W. Huang, R.J. Shen, Q. Shuai, Chitosan/thiol functionalized metal-organic framework composite for the simultaneous determination of lead and cadmium ions in food samples, Food Chem. 330 (2020) 127212. [36] H. Ghassabzadeh, A. Mohadespour, M. Torab-Mostaedi, P. Zaheri, M.G. Maragheh, H. Taheri, Adsorption of Ag, Cu and Hg from aqueous solutions using expanded perlite, J. Hazard. Mater. 177 (1-3) (2010) 950-955. [37] R. Kober, M. Schwaab, E. Steffani, E. Barbosa-Coutinho, J.C. Pinto, D-optimal experimental designs for precise parameter estimation of adsorption equilibrium models: initial concentration and solvent volume to adsorbent mass ratio as independent variables, Adsorption 27 (7) (2021) 1013-1022. [38] M.A. Darweesh, M.Y. Elgendy, M.I. Ayad, A.M. Ahmed, N.M.K. Elsayed, W.A. Hammad, Adsorption isotherm, kinetic, and optimization studies for copper (II) removal from aqueous solutions by banana leaves and derived activated carbon, S. Afr. N. J. Chem. Eng. 40 (2022) 10-20. [39] P. Demircivi, Synthesis and characterization of Zr(IV) doped immobilized cross-linked chitosan/perlite composite for acid orange II adsorption, Int. J. Biol. Macromol. 118 (Pt A) (2018) 340-346. [40] H.Q. Cheng, Y.J. Huang, Z.C. Zhu, M.Z. Yu, W.T. Xu, Z.Y. Li, Y.X. Xiao, Experimental and theoretical studies on the adsorption characteristics of Si/Al-based adsorbents for lead and cadmium in incineration flue gas, Sci. Total Environ. 858 (2023) 159895. [41] Y.Y. Deng, S. Huang, C.Q. Dong, Z.W. Meng, X.G. Wang, Competitive adsorption behaviour and mechanisms of cadmium, nickel and ammonium from aqueous solution by fresh and ageing rice straw biochars, Bioresour. Technol. 303 (2020) 122853. [42] G.R. Paixao, N.G. Camparotto, G. de Vargas Briao, R. de Lima Oliveira, J.C. Colmenares, P. Prediger, M.G.A. Vieira, Synthesis of mesoporous P-doped carbon and its application in propranolol drug removal: characterization, kinetics and isothermal studies, Chem. Eng. Res. Des. 187 (2022) 225-239. [43] Y. Zu, Y. Hui, Y.C. Qin, L. Zhang, H.H. Liu, X.T. Zhang, Z.S. Guo, L.J. Song, X.H. Gao, Facile fabrication of effective Cerium(III) hydroxylated species as adsorption active sites in CeY zeolite adsorbents towards ultra-deep desulfurization, Chem. Eng. J. 375 (2019) 122014. [44] M. Atif, H.Z. Haider, R. Bongiovanni, M. Fayyaz, T. Razzaq, S. Gul, Physisorption and chemisorption trends in surface modification of carbon black, Surf. Interfaces 31 (2022) 102080. [45] X.Q. Wu, Y.T. Song, P. Yin, Q. Xu, Z.L. Yang, Y.B. Xu, X.G. Liu, Y. Wang, W.J. Sun, H.L. Cai, Fabrication of the composite sepiolite@polyethyleneimine/sodium alginate and its excellent adsorption performance for heavy metal ions, Appl. Clay Sci. 228 (2022) 106647. [46] J.J. Guo, F. Li, H.C. Xiao, B.L. Liu, L.N. Feng, P.F. Yu, C. Meng, H.M. Zhao, N.X. Feng, Y.W. Li, Q.Y. Cai, L. Xiang, C.H. Mo, Q.X. Li, Polyethylene and polypropylene microplastics reduce chemisorption of cadmium in paddy soil and increase its bioaccessibility and bioavailability, J. Hazard. Mater. 449 (2023) 130994. [47] W.S. Wan Ngah, L.C. Teong, M.A.K.M. Hanafiah, Adsorption of dyes and heavy metal ions by chitosan composites: a review, Carbohydr. Polym. 83 (4) (2011) 1446-1456. [48] M. Vakili, S.B. Deng, G. Cagnetta, W. Wang, P.P. Meng, D.C. Liu, G. Yu, Regeneration of chitosan-based adsorbents used in heavy metal adsorption: a review, Sep. Purif. Technol. 224 (2019) 373-387. [49] H.X. Liang, W. Ding, H.W. Zhang, P. Peng, F. Peng, Z.C. Geng, D. She, Y. Li, A novel lignin-based hierarchical porous carbon for efficient and selective removal of Cr(VI) from wastewater, Int. J. Biol. Macromol. 204 (2022) 310-320. [50] M. Verma, I. Tyagi, V. Kumar, S. Goel, D. Vaya, H. Kim, Fabrication of GO-MnO2 nanocomposite using hydrothermal process for cationic and anionic dyes adsorption: kinetics, isotherm, and reusability, J. Environ. Chem. Eng. 9 (5) (2021) 106045. [51] R.R. Ilyasova, I.A. Massalimov, A.G. Mustafin, Effect of dispersibility of natural sorbents on their sorption activity for Cd(II), Pb(II), and Cu(II) ions, Russ. J. Phys. Chem. B 14 (1) (2020) 152-159. [52] S. Li, H.B. Li, C.Y. Yan, Y.F. Ding, X.S. Zhang, J. Zhao, Investigating the mechanical and durability characteristics of fly ash foam concrete, Materials 15 (17) (2022) 6077. [53] T. Mathialagan, T. Viraraghavan, Adsorption of cadmium from aqueous solutions by perlite, J. Hazard. Mater. 94 (3) (2002) 291-303. [54] N. Zheng, G.Y. Jiang, X. Chen, J.Y. Mao, Y.J. Zhou, Y.S. Li, Rational design of a tubular, interlayer expanded MoS2-N/O doped carbon composite for excellent potassium-ion storage, J. Mater. Chem. A 7 (15) (2019) 9305-9315. [55] Z.B. Yi, Y. Liu, Y.Z. Li, L.J. Zhou, Z.Y. Wang, J.Q. Zhang, H. Cheng, Z.G. Lu, Flexible membrane consisting of MoP ultrafine nanoparticles highly distributed inside N and P codoped carbon nanofibers as high-performance anode for potassium-ion batteries, Small 16 (2) (2020) e1905301. [56] L. Wang, X.F. Li, Z.Z. Jin, Z. Liang, X. Peng, X.C. Ren, B. Gao, G. Feng, P.K. Chu, K.F. Huo, Spatially controlled synthesis of superlattice-like SnS/nitrogen-doped graphene hybrid nanobelts as high-rate and durable anode materials for sodium-ion batteries, J. Mater. Chem. A 7 (48) (2019) 27475-27483. [57] C. Zhang, D. An, Q. Xiao, H.F. Weng, Y.H. Zhang, Q.M. Yang, A.F. Xiao, Preparation, characterization, and modification mechanism of agar treated with hydrogen peroxide at different temperatures, Food Hydrocoll. 101 (2020) 105527. [58] B. Ibtissem, H. Najwa, H. Houda, Removal of 8-hydroxyquinoline-5-sulfonic acid (8-HQS) by a sequential heterogeneous fenton/adsorption process using a microwave-fabricated iron-perlite as catalyst. Water Air Soil Pollut. 234(6) (2023): 06368. [59] Y.Q. Chen, H. Li, J. Liu, N. Liu, J. Yang, Y. Zhang, Q.B. Guo, F. Wang, Q. Liu, Efficient utilization of silanol group in rice husk to promote the synthesis of Ni-phyllosilicate for CO2 methanation, Int. J. Hydrog. Energy 47 (49) (2022) 21173-21181. [60] F. Zhang, X. Wang, D.X. Yin, B. Peng, C.Y. Tan, Y.G. Liu, X.F. Tan, S.X. Wu, Efficiency and mechanisms of Cd removal from aqueous solution by biochar derived from water hyacinth (Eichornia crassipes), J. Environ. Manage. 153 (2015) 68-73. [61] Q.M. Fu, X.F. Tan, S.J. Ye, L.L. Ma, Y.L. Gu, P. Zhang, Q. Chen, Y.Y. Yang, Y.Q. Tang, Mechanism analysis of heavy metal lead captured by natural-aged microplastics, Chemosphere 270 (2021) 128624. [62] M. Baumgen, T. Dutschei, U.T. Bornscheuer, Marine polysaccharides: occurrence, enzymatic degradation and utilization, ChemBioChem 22 (13) (2021) 2247-2256. [63] A.A. Reka, B. Pavlovski, K. Lisichkov, A. Jashari, B. Boev, I. Boev, M. Lazarova, V. Eskizeybek, A. Oral, G. Jovanovski, P. Makreski, Chemical, mineralogical and structural features of native and expanded perlite from Macedonia, Geol. Croat. 72 (3) (2019) 215-221. [64] R.E. Saputra, Y. Astuti, A. Darmawan, Hydrophobicity of silica thin films: the deconvolution and interpretation by Fourier-transform infrared spectroscopy, Spectrochim. Acta Mol. Biomol. Spectrosc. 199 (2018) 12-20. [65] M. Roulia, K. Chassapis, J.A. Kapoutsis, E.I. Kamitsos, T. Savvidis, Influence of thermal treatment on the water release and the glassy structure of perlite, J. Mater. Sci. 41 (18) (2006) 5870-5881. [66] Z. Zujovic, W.V.K. Wheelwright, P.A. Kilmartin, J.V. Hanna, R.P. Cooney, Structural investigations of perlite and expanded perlite using 1H, 27Al and 29Si solid-state NMR, Ceram. Int. 44 (3) (2018) 2952-2958. |