Fujita, M. et al. Heavy steel contamination of coastal lagoon sediments: Fongafale Islet, Funafuti Atoll, Tuvalu. Chemosphere 95, 628–634 (2014).
Zhang, H. et al. Observer-based adaptive fuzzy hierarchical sliding mode management of unsure under-actuated switched nonlinear techniques with enter quantization. Int. J. Sturdy Nonlinear Management 32, 8163–8185 (2022).
Liu, S., Niu, B., Zong, G., Zhao, X. & Xu, N. Adaptive neural dynamic-memory event-triggered management of high-order random nonlinear techniques with deferred output constraints. in IEEE Transactions on Automation Science and Engineering (2023).
Li, T. et al. Ecological perception into antibiotic resistome of ion-adsorption uncommon earth mining soils from south China by metagenomic evaluation. Sci. Whole Environ. 872, 162265 (2023).
Anirudhan, T. S., Rijith, S. & Tharun, A. R. Adsorptive elimination of thorium (IV) from aqueous options utilizing poly (methacrylic acid)-grafted chitosan/bentonite composite matrix: course of design and equilibrium research. Colloids Surf. A 368, 13–22 (2010).
Tang, F., Niu, B., Zong, G., Zhao, X. & Xu, N. Periodic event-triggered adaptive monitoring management design for nonlinear discrete-time techniques through reinforcement studying. Neural Netw. 154, 43–55 (2022).
Yang, Okay., Guan, J., Shao, Z. & Ritchie, R. O. Mechanical properties and toughening mechanisms of pure silkworm silks and their composites. J. Mech. Behav. Biomed. Mater. 110, 103942 (2020).
Li, M. et al. Enhanced CO2 seize for photosynthetic lycopene manufacturing in engineered Rhodopseudomonas palustris, a purple nonsulfur bacterium. Entrance. Bioeng. Biotechnol. 10, 897003 (2022).
Benalia, M. C., Youcef, L., Bouaziz, M. G., Achour, S. & Menasra, H. Elimination of heavy metals from industrial wastewater by chemical precipitation: Mechanisms and sludge characterization. Arab. J. Sci. Eng. 47, 5587–5599 (2022).
Campanile, A., Liguori, B., Ferone, C., Caputo, D. & Aprea, P. Zeolite-based monoliths for water softening by ion change/precipitation course of. Sci. Rep. 12, 3686 (2022).
Wang, Q. et al. Simultaneous Cu-EDTA oxidation decomplexation and Cr (VI) discount in water by persulfate/formate system: Response course of and mechanisms. Chem. Eng. J. 427, 131584 (2022).
Wang, J. et al. Lineage reprogramming of fibroblasts into induced cardiac progenitor cells by CRISPR/Cas9-based transcriptional activators. Acta Pharmaceut. Sin. B 10, 313–326 (2020).
Talukder, M. E. et al. Ag nanoparticles immobilized sulfonated polyethersulfone/polyethersulfone electrospun nanofiber membrane for the elimination of heavy metals. Sci. Rep. 12, 5814 (2022).
Moradi, R., Monfared, S. M., Amini, Y. & Dastbaz, A. Vacuum enhanced membrane distillation for hint contaminant elimination of heavy metals from water by electrospun PVDF/TiO2 hybrid membranes. Korean J. Chem. Eng. 33, 2160–2168 (2016).
Shahid, M. J. et al. Position of microorganisms within the remediation of wastewater in floating therapy wetlands: A evaluation. Sustainability 12, 5559 (2020).
Zhang, H., Zou, Q., Ju, Y., Track, C. & Chen, D. Distance-based assist vector machine to foretell DNA N6-methyladenine modification. Curr. Bioinform. 17, 473–482 (2022).
Yang, X. et al. Remediation of heavy steel contaminated soils by natural acid extraction and electrochemical adsorption. Environ. Pollut. 264, 114745 (2020).
Lei, X. et al. Gli1 promotes epithelial–mesenchymal transition and metastasis of non-small cell lung carcinoma by regulating snail transcriptional exercise and stability. Acta Pharmaceut. Sin. B 12, 3877–3890 (2022).
Wang, M., Yang, M., Fang, Z., Wang, M. & Wu, Q. A sensible feeder planning mannequin for city distribution system. in IEEE Transactions on Energy Programs (2022).
Li, Y., Xu, Z., Liu, S., Zhang, J. & Yang, X. Molecular simulation of reverse osmosis for heavy steel ions utilizing functionalized nanoporous graphenes. Comput. Mater. Sci. 139, 65–74 (2017).
Allahkarami, E., Rezai, B., Karri, R. R. & Mubarak, N. M. Predictive functionality analysis and mechanism of Ce (III) extraction utilizing solvent extraction with Cyanex 572. Sci. Rep. 12, 1–13 (2022).
Amini, Y. et al. Optimization of liquid-liquid extraction of calcium with a serpentine microfluidic machine. Int. Commun. Warmth Mass Transf. 140, 106551 (2023).
Abdollahi, P., Karimi-Sabet, J., Moosavian, M. A. & Amini, Y. Microfluidic solvent extraction of calcium: Modeling and optimization of the method variables. Sep. Purif. Technol. 231, 115875 (2020).
Marsousi, S., Karimi-Sabet, J., Moosavian, M. A. & Amini, Y. Liquid–liquid extraction of calcium utilizing ionic liquids in spiral microfluidics. Chem. Eng. J. 356, 492–505 (2019).
Jahromi, P. F., Karimi-Sabet, J. & Amini, Y. Ion-pair extraction-reaction of calcium utilizing Y-shaped microfluidic junctions: An optimized separation method. Chem. Eng. J. 334, 2603–2615 (2018).
Jahromi, P. F., Karimi-Sabet, J., Amini, Y. & Fadaei, H. Stress-driven liquid-liquid separation in Y-shaped microfluidic junctions. Chem. Eng. J. 328, 1075–1086 (2017).
Kocaoba, S., Cetin, G. & Akcin, G. Chromium elimination from tannery wastewaters with a robust cation change resin and species evaluation of chromium by MINEQL+. Sci. Rep. 12, 9618 (2022).
Ahmadi-Motlagh, M., Amini, Y. & Karimi-Sabet, J. Experimental examine of nitrogen isotope separation by ion-exchange chromatography: Impact of course of components. J. Radioanal. Nucl. Chem. 331, 309–315 (2022).
Zhao, M., Li, S., Wang, M., Guan, X. & Zhao, R. Adsorption of water and formic acid molecules on the (104) floor of calcite: A theoretical examine by DFT-D3. New J. Chem. 47(18), 8737–8743 (2023).
Moradi, M., Hosseini Sabzevari, M., Marahel, F. & Shameli, A. Elimination of reactive inexperienced KE-4BD and Congo pink dyes in textile effluent by pure clinoptilolite particles on a biosorbent as an inexpensive and environment friendly adsorbent experimental design and optimisation. Int. J. Environ. Anal. Chem. 21, 1–19 (2021).
Soleymani, F., Khani, M., Pahlevanzadeh, H. & Amini, Y. Intensification of strontium (II) ion biosorption on Sargassum sp. through response floor methodology. Sci. Rep. 13, 5403 (2023).
Yarahmadi, A., Khani, M. H., NasiriZarandi, M. & Amini, Y. Ce (ΙΙΙ) and La (ΙΙΙ) ions adsorption by Amberlite XAD-7 resin impregnated through CYANEX-272 extractant. Sci. Rep. 13, 6930 (2023).
Si, Z., Yang, M., Yu, Y. & Ding, T. Photovoltaic energy forecast based mostly on satellite tv for pc pictures contemplating results of photo voltaic place. Appl. Power 302, 117514 (2021).
Liu, D. et al. Kinematics and improved floor roughness mannequin in milling. Int. J. Adv. Manuf. Technol. 8, 1–22 (2022).
Bai, X. et al. Tribological efficiency of various concentrations of Al2O3 nanofluids on minimal amount lubrication milling. Chin. J. Mech. Eng. 36, 1–12 (2023).
Bashir, A. et al. Elimination of heavy steel ions from aqueous system by ion-exchange and biosorption strategies. Environ. Chem. Lett. 17, 729–754 (2019).
Esmaeili, H. & Foroutan, R. Investigation into ion change and adsorption strategies for eradicating heavy metals from aqueous options. Int. J. Biol. Pharm. Allied Sci. 4, 620–629 (2015).
Karnib, M., Kabbani, A., Holail, H. & Olama, Z. Heavy metals elimination utilizing activated carbon, silica and silica activated carbon composite. Power Proc. 50, 113–120 (2014).
Mariana, M. et al. Latest advances in activated carbon modification strategies for enhanced heavy steel adsorption. J. Water Course of Eng. 43, 102221 (2021).
Athari, M., Fattahi, M., Khosravi-Nikou, M. & Hajhariri, A. Adsorption of various anionic and cationic dyes by hybrid nanocomposites of carbon nanotube and graphene supplies over UiO-66. Sci. Rep. 12, 20415 (2022).
Xue, B. et al. An AuNPs/mesoporous NiO/nickel foam nanocomposite as a miniaturized electrode for heavy steel detection in groundwater. Engineering (2022).
Cao, C. et al. webTWAS: A useful resource for illness candidate susceptibility genes recognized by transcriptome-wide affiliation examine. Nucleic Acids Res. 50, D1123–D1130 (2022).
Dev, S., Khamkhash, A., Ghosh, T. & Aggarwal, S. Adsorptive elimination of Se (IV) by citrus peels: Impact of adsorbent entrapment in calcium alginate beads. ACS Omega 5, 17215–17222 (2020).
Hamad, H. & Moustafa, M. T. Optimization examine of the adsorption of malachite inexperienced elimination by MgO nano-composite, nano-bentonite and fungal immobilization on lively carbon utilizing response floor methodology and kinetic examine. Environ. Sci. Eur. 35, 1–37 (2023).
Banerjee, M., Bar, N. & Das, S. Okay. Cu (II) elimination from aqueous resolution utilizing the walnut shell: adsorption examine, regeneration examine, plant scale-up design, financial feasibility, statistical, and GA-ANN modeling. Int. J. Environ. Res. 15, 875–891 (2021).
Cheng, S. Y., Present, P.-L., Lau, B. F., Chang, J.-S. & Ling, T. C. New prospects for modified algae in heavy steel adsorption. Traits Biotechnol. 37, 1255–1268 (2019).
Dong, L., Liu, W., Jiang, R. & Wang, Z. Examine on the adsorption mechanism of activated carbon eradicating low concentrations of heavy metals. Desalin. Water Deal with. 57, 7812–7822 (2016).
Cheng, F., Liang, H., Niu, B., Zhao, N. & Zhao, X. Adaptive neural self-triggered bipartite safe management for nonlinear MASs topic to DoS assaults. Inf. Sci. 631, 256–270 (2023).
Soltani, N., Haddadi, H., Asgari, M. & Rajabzadeh, N. Adsorptive stripping voltammetric detection of thorium on the multi-walled carbon nanotube modified display screen printed electrode. Sens. Actuators B Chem. 220, 1212–1216 (2015).
Xu, J., Zhou, L., Jia, Y., Liu, Z. & Adesina, A. A. Adsorption of thorium (IV) ions from aqueous resolution by magnetic chitosan resins modified with triethylene-tetramine. J. Radioanal. Nucl. Chem. 303, 347–356 (2015).
Khalili, F. I., Khalifa, A. A. & Al-Banna, G. Elimination of uranium (VI) and thorium (IV) by insolubilized humic acid originated from Azraq soil in Jordan. J. Radioanal. Nucl. Chem. 311, 1375–1392 (2017).
Khamseh, A. A. G., Amini, Y., Shademan, M. M. & Ghazanfari, V. Intensification of thorium biosorption onto protonated orange peel utilizing the response floor methodology. Chem. Prod. Course of. Mannequin. (2023).
Khamseh, A. G. & Ghorbanian, S. A. Experimental and modeling investigation of thorium biosorption by orange peel in a steady fixed-bed column. J. Radioanal. Nucl. Chem. 317, 871–879 (2018).
Xiu, T. et al. Thorium adsorption on graphene oxide nanoribbons/manganese dioxide composite materials. J. Radioanal. Nucl. Chem. 319, 1059–1067 (2019).
Hu, Okay., Liu, Z., Xiu, T., Zhou, L. & Wang, Y. Elimination of thorium from aqueous resolution by adsorption with Cu3 (BTC)2. J. Radioanal. Nucl. Chem. 326, 185–192 (2020).
Huang, Y. et al. Extremely efficient and selective adsorption of thorium (IV) from aqueous resolution utilizing mesoporous graphite carbon nitride ready by sol–gel template technique. Chem. Eng. J. 410, 128321 (2021).
Akl, Z. F. A comparative investigation of uranium and thorium adsorption habits on amidoximated copolymeric hydrogel. J. Radioanal. Nucl. Chem. 331, 1859–1867 (2022).
Liu, X. et al. Selective entrapment of thorium utilizing a three-dimensional covalent natural framework and its interplay mechanism examine. Sep. Purif. Technol. 296, 121413 (2022).
Lasheen, M. R., Ammar, N. S. & Ibrahim, H. S. Adsorption/desorption of Cd (II), Cu (II) and Pb (II) utilizing chemically modified orange peel: Equilibrium and kinetic research. Strong State Sci. 14, 202–210 (2012).
Chatterjee, A. & Schiewer, S. Multi-resistance kinetic fashions for biosorption of Cd by uncooked and immobilized citrus peels in batch and packed-bed columns. Chem. Eng. J. 244, 105–116 (2014).
Hariharan, A., Harini, V., Sandhya, S. & Rangabhashiyam, S. Waste Musa acuminata residue as a possible biosorbent for the elimination of hexavalent chromium from artificial wastewater. Biomass. Convers. Biorefinery 13, 1–14 (2020).
Imran, M. et al. Biosorption of Pb (II) from contaminated water onto Moringa oleifera biomass: Kinetics and equilibrium research. Int. J. Phytorem. 21, 777–789 (2019).
Ngwenya, N. & Chirwa, E. Single and binary part sorption of the fission merchandise Sr2+, Cs+ and Co2+ from aqueous options onto sulphate lowering micro organism. Miner. Eng. 23, 463–470 (2010).
Langmuir, I. The structure and basic properties of solids and liquids. Half I. Solids. J. Am. Chem. Soc. 38, 2221–2295 (1916).
Wibowo, E., Rokhmat, M. & Abdullah, M. Discount of seawater salinity by pure zeolite (Clinoptilolite): Adsorption isotherms, thermodynamics and kinetics. Desalination 409, 146–156 (2017).
Freundlich, H. Over the adsorption in resolution. Z. Phys. Chem 57, 358–471 (1906).
Mladenovic, N., Petkovska, J., Dimova, V., Dimitrovski, D. & Jordanov, I. Round economic system method for rice husk modification: Equilibrium, kinetic, thermodynamic points and mechanism of Congo pink adsorption. Cellulose 3, 1–23 (2022).
Dubinin, M. The potential idea of adsorption of gases and vapors for adsorbents with energetically nonuniform surfaces. Chem. Rev. 60, 235–241 (1960).
Fegade, U., Jethave, G., Su, Okay.-Y., Huang, W.-R. & Wu, R.-J. An multifunction ZnO.3MnO.4O4 nanospheres for carbon dioxide discount to methane through photocatalysis and reused after 5 cycles for phosphate adsorption. J. Environ. Chem. Eng. 6, 1918–1925 (2018).
Pathak, V. V., Kothari, R., Chopra, A. & Singh, D. Experimental and kinetic research for phycoremediation and dye elimination by Chlorella pyrenoidosa from textile wastewater. J. Environ. Manag. 163, 270–277 (2015).
Günay, A., Arslankaya, E. & Tosun, I. Lead elimination from aqueous resolution by pure and pretreated clinoptilolite: Adsorption equilibrium and kinetics. J. Hazard. Mater. 146, 362–371 (2007).
Togue Kamga, F. Modeling adsorption mechanism of paraquat onto Ayous (Triplochiton scleroxylon) wooden sawdust. Appl. Water Sci. 9, 1 (2019).
Ho, Y.-S. & McKay, G. The sorption of lead (II) ions on peat. Water Res. 33, 578–584 (1999).
Alhakawati, M. & Banks, C. Elimination of copper from aqueous resolution by Ascophyllum nodosum immobilised in hydrophilic polyurethane foam. J. Environ. Manag. 72, 195–204 (2004).
Bahrudin, N., Nawi, M., Jawad, A. H. & Sabar, S. Adsorption traits and mechanistic examine of immobilized chitosan-montmorillonite composite for methyl orange elimination. J. Polym. Environ. 28, 1901–1913 (2020).