Journal of Korea TAPPI ISSN:0253-3200(Print) 펄프종이기술

Lee, H.-Y., Lee, K.-D., and Park, S.-W., Influence of surface characteristics of mesoporous silica on Pb (II) and Cd (II) adsorption behavirous, Journal of Korean Society of Environmental Engineers 30(6):673-679 (2008).

Zhang S., Shi, Q., Christodoulatos C., and Meng, X., Lead and cadmium adsorption by electrospun PVA/PAA nanofibers: Batch, spectroscopic, and modeling study, Chemosphere 233:405-413 (2019).

Boamah, P. O., Huang, Y., Hua, M., Zhang, Q., Wu, J., Onumah, J., Sam-Amoah, L. K., and Boamah, P. O., Sorption of heavy metal ions onto carboxylate chitosan derivatives–a mini-review, Ecotoxicology and Environmental Safety 116:113-120 (2015).

Machida, M., Mochimaru, T., and Tatsumoto, H., Lead (II) adsorption onto the graphene layer of carbonaceous materials in aqueous solution, Carbon 44(13):2681-2688 (2006).

Bian, Y., Bian, Z., Zhang, J., Ding, A., Liu, S., Zheng, L., and Wang, H., Adsorption of cadmium ions from aqueous solutions by activated carbon with oxygen-containing functional groups, Chinese Journal of Chemical Engineering 23(10):1705-1711 (2015).

Gocht, T., Moldenhauer, K.-M., and Püttmann, W., Historical record of polycyclic aromatic hydrocarbons (PAH) and heavy metals in floodplain sediments from the Rhine River (Hessisches Ried, Germany), Applied Geochemistry 16(15):1707-1721 (2001).

An, L., Si, C., Bae, J. H., Jeong, H., and Kim, Y. S., One-step silanization and amination of lignin and its adsorption of Congo red and Cu (II) ions in aqueous solution, International Journal of Biological Macromolecules 159:222-230 (2020).

Yu, Y. H., An, L., Bae, J. H., Heo, J. W., Chen, J., Jeong, H., and Kim, Y. S., A novel biosorbent from hardwood cellulose nanofibrils grafted with poly (m-aminobenzene sulfonate) for adsorption of Cr (VI), Frontiers in Bioengineering and Biotechnology 9:320 (2021).

Jobby, R., Jha, P., Yadav, A. K., and Desai, N., Biosorption and biotransformation of hexavalent chromium [Cr (VI)]: a comprehensive review, Chemosphere 207:255-266 (2018).

Wang, X., Zhang, Y., Hao, C., Dai, X., Zhou, Z., and Si, N., Ultrasonic-assisted synthesis of aminated lignin by a Mannich reaction and its decolorizing properties for anionic azo-dyes, RSC Advances 4(53):28156-28164 (2014).

Zhang, Y., Ni, S., Wang, X., Zhang, W., Lagerquist, L., Qin, M., Willför, S., Xu, C., and Fatehi, P., Ultrafast adsorption of heavy metal ions onto functionalized lignin-based hybrid magnetic nanoparticles, Chemical Engineering Journal 372 82-91 (2019).

Yoo, Y. H., Bae, J. H., An, L., Chen, J., and Kim, Y. S., Preparation of cellulose nanocrystal-based poly(m-aminobenzene sulfonate) copolymer for heavy metal Cr(VI) adsorption, Journal of Korea TAPPI 52(6):110 (2020).

Zhou, Y., Jin, Q., Hu, X., Zhang, Q., and Ma, T., Heavy metal ions and organic dyes removal from water by cellulose modified with maleic anhydride, Journal of Materials Science 47(12):5019-5029 (2012).

Stafiej, A. and Pyrzynska, K., Adsorption of heavy metal ions with carbon nanotubes, Separation and Purification Technology 58(1):49-52 (2007).

Nizam, N. U. M., Hanafiah, M. M., Mahmoudi, E., Halim, A. A., and Mohammad, A. W., The removal of anionic and cationic dyes from an aqueous solution using biomass-based activated carbon, Scientific Reports 11(1):1-17 (2021).

Vanholme, R., Demedts, B., Morreel, K., Ralph, J., and Boerjan, W., Lignin biosynthesis and structure, Plant Physiology 153(3):895-905 (2010).

An, L., Yu, Y. H., Chen, J., Bae, J. H., Youn, D. H., Jeong, H. M., and Kim, Y. S., Synthesis and characterization of tailor-made zwitterionic lignin for resistance to protein adsorption, Industrial Crops and Products 167:113514 (2021).

An, L., Chen, J., Heo, J. W., Bae, J. H., Jeong, H., and Kim, Y. S., Synthesis of lignin-modified cellulose nanocrystals with antioxidant activity via Diels–Alder reaction and its application in carboxymethyl cellulose film, Carbohydrate Polymers 274(10):118651 (2021).

Chen, H., Qu, X., Liu, N., Wang, S., Chen, X., and Liu, S., Study of the adsorption process of heavy metals cations on Kraft lignin, Chemical Engineering Research and Design 139:248-258 (2018).

Demirbas, A., Adsorption of lead and cadmium ions in aqueous solutions onto modified lignin from alkali glycerol delignication, Journal of Hazardous Materials 109(1-3):221-226 (2004).

Harmita, H., Karthikeyan, K., and Pan, X., Copper and cadmium sorption onto kraft and organosolv lignins, Bioresource Technology 100(24):6183-6191 (2009).

Srisuda, S., and Virote, B., Adsorption of formaldehyde vapor by amine-functionalized mesoporous silica materials, Journal of Environmental Sciences 20(3):379-384 (2008).

Bois, L., Bonhommé, A., Ribes, A., Pais, B., Raffin, G., and Tessier, F., Functionalized silica for heavy metal ions adsorption, Colloids and Surfaces A: Physicochemical and Engineering Aspects 221(1-3):221-230 (2003).

Parajuli, D., Kawakita, H., Inoue, K., and Funaoka, M., Recovery of gold (III), palladium (II), and platinum (IV) by aminated lignin derivatives, Industrial & Engineering Chemistry Research 45(19):6405-6412 (2006).

Kwak, H. W., Lee, H., and Lee, K. H,. Surface-modified spherical lignin particles with superior Cr (VI) removal efficiency, Chemosphere 239:124733 (2020).

Zhou, X., Jin, C., Liu, G., Wu, G., Huo, S., and Kong, Z., Functionalized lignin-based magnetic adsorbents with tunable structure for the efficient and selective removal of Pb (II) from aqueous solution, Chemical Engineering Journal 130409 (2021).

Chen, J., An, L., Bae, J. H,. Heo, J. W., Han, S. Y., and Kim, Y. S., Green and facile synthesis of aminated lignin-silver complex and its antibacterial activity, Industrial Crops and Products 173 114102 (2021).

Kim, Y. S. and Kadla, J. F., Preparation of a thermoresponsive lignin-based biomaterial through atom transfer radical polymerization, Biomacromolecules 11(4): 981-988 (2010).

Lachowicz, J. I., Delpiano, G. R., Zanda, D., Piludu, M., Sanjust, E., Monduzzi, M., and Salis, A., Adsorption of Cu2+ and Zn2+ on SBA-15 mesoporous silica functionalized with triethylenetetramine chelating agent, Journal of Environmental Chemical Engineering 7(4):103205 (2019).

Shen, H.-M., Zhu, G.-Y., Yu, W.-B., Wu, H.-K., Ji, H.-B., Shi, H.-X., She, Y.-B., and Zheng, Y.-F., Fast adsorption of p-nitrophenol from aqueous solution using β-cyclodextrin grafted silica gel, Applied Surface Science 356:1155-1167 (2015).

Bodaghifard, M. A., Organic base grafted on magnetic nanoparticles as a recoverable catalyst for the green synthesis of hydropyridine rings, Journal of the Iranian Chemical Society 17(2): 483-492 (2020).

Bae, J. H., An, L., Chen, J., Heo, J. W., Han, S. Y., and Kim, Y. S., Preparation of lignin-based poly (m-aminobenzene sulfonate) copolymers, Journal of Korea TAPPI 53(2):65-73p (2021).

Lisperguer, J., Perez, P., and Urizar, S., Structure and thermal properties of lignins: characterization by infrared spectroscopy and differential scanning calorimetry, Journal of the Chilean Chemical Society 54(4):460-463 (2009).

Bhagabati, P., and Chaki, T., Compatibility study of chlorinated polyethylene/ethylene methacrylate copolymer blends using thermal, mechanical, and chemical analysis, Journal of Applied Polymer Science 131(11) (2014).

Teng, X., Xu, H., Song, W., Shi, J., Xin, J., Hiscox, W.C., and Zhang, J., Preparation and properties of hydrogels based on PEGylated lignosulfonate amine, ACS Omega 2(1):251-259 (2017).

Hubert, J., Poleunis, C., Delcorte, A., Laha, P., Bossert, J., Lambeets, S., Ozkan, A., Bertrand, P., Terryn, H., and Reniers, F., Plasma polymerization of C4Cl6 and C2H2Cl4 at atmospheric pressure, Polymer 54(16): 4085-4092 (2013).

Niu, F.-X., Wang, Y.-X., Zhang, Y.-T., Xie, S.-K., Ma, L.-R., Wang, C.-G., and Mao, Y.-P., A hierarchical architecture of PANI/APTES/SiC nano-composites with tunable dielectric for lightweight and strong microwave absorption, Journal of Materials Science 54(3):2181-2192 (2019).

Su, Y., Li, X., Wang, Y., Zhong, H., and Wang, R., Gold nanoparticles supported by imidazolium-based porous organic polymers for nitroarene reduction, Dalton Transactions 45(42):16896-16903 (2016).

Guo, K., Gao, B., Yue, Q., Xu, X., Li, R., and Shen, X., Characterization and performance of a novel lignin-based flocculant for the treatment of dye wastewater, International Biodeterioration & Biodegradation 133:99-107 (2018).

Budnyak, T. M., Aminzadeh, S., Pylypchuk, I. V., Sternik, D., Tertykh, V. A., Lindström, M. E., and Sevastyanova, O., Methylene blue dye sorption by hybrid materials from technical lignins, Journal of Environmental Chemical Engineering 6(4):4997-5007 (2018).

López-Maldonado, E. A., Hernández-García, H., Zamudio-Aguilar, M. A. M., Oropeza-Guzmán, M. T., Ochoa-Terán, A., López-Martínez, L. M., Martinez-Quiroz, M., Valdez, R., and Olivas, A.,Chemical issues of coffee and Tule lignins as ecofriendly materials for the effective removal of hazardous metal ions contained in metal finishing wastewater, Chemical Engineering Journal 397:125384 (2020).

Lee, J. J., Isotherm, kinetic and thermodynamic characteristics for adsorption of congo red by activated carbon, Korean Chemical Engineering Research 53(1):64-70 (2015).

Xu, G., Xie, Y., Cao, J., Tao, M., and Zhang, W.-Q., Highly selective and efficient chelating fiber functionalized by bis (2-pyridylmethyl) amino group for heavy metal ions, Polymer Chemistry 7(23):3874-3883 (2016).

Kettum, W., Samart, C., Chanlek, N., Pakawanit, P., Reubroycharoen, P., Guan, G., Kongparakul, S., and Kiatkamjornwong, S., Enhanced adsorptive composite foams for copper (II) removal utilising bio-renewable polyisoprene-functionalised carbon derived from coconut shell waste, Scientific Reports 11(1):1-12 (2021).

Burungale, V. V., Devan, R. S., Pawar, S. A., Harale, N. S., Patil, V. L., Rao, V. K., Ma, Y.-R., Jo, E. A., Kim, J. H., and Patil, P. S., Chemically synthesized PbS nanoparticulate thin films for a rapid NO2 gas sensor. Mater Sci Pol, 34(1): 204-211 (2016).