[1] JANG S H, JEONG Y G, MIN B G, et al. Preparation and lead ion removal property of hydroxyapatite/polyacrylamide composite hydrogels[J]. Journal of Hazardous Materials, 2008, 159(2-3):294.
[2] OH C, HAN Y S, PARK J H, et al. Field application of selective precipitation for recovering Cu and Zn in drainage discharged from an operating mine[J]. Science of the Total Environment, 2016, 557/558:212-220.
[3] BOHLI T, OUEDEMI A. Improvement of oxygen-containing functional groups on olive stones activated carbon by ozone and nitric acid for heavy metals removal from aqueous phase[J]. Environmental Science & Pollution Research International, 2016, 23(16):1-10.
[4] 翟世民, 柳荣展, 郭雪松, 等. 污水处理厂污泥制备生物炭及应用的研究进展[J]. 化工进展, 2016, 35(s1):363-368. ZHAI S M, LIU R Z, GUO X S, et al. Researches progress and application development of sewage sludge biochar[J]. Chemical Industry and Engineering Progress, 2016, 35(s1):363-368.
[5] 余伟光, 黎吉辉, 王敦, 等. 香蕉茎秆生物炭的制备及其对铜离子的吸附特性[J]. 化工进展, 2017, 36(4):1499-1505. YU W G, LI J H, WANG D, et al. The preparation of biochar from pre-oxidation of banana stem and its adsorption of Cu2+[J]. Chemical Industry Engineering Progress, 2017, 36(4):1499-1505.
[6] GUNATILAKE S K, CHANDRAJITH R. Desalination and water treatment removal of Pb(Ⅱ) from contaminated water using low-temperature pyrolyzed agricultural and forest waste biochars:a comparative study[J]. Desalination & Water Treatment, 2017, 62:316-324.
[7] LIU C, YAN C, ZHOU S, et al. Fabrication of sponge biomass adsorbent through UV-induced surface-initiated polymerization for the adsorption of Ce(Ⅲ) from wastewater[J]. Water Science & Technology:A Journal of the International Association on Water Pollution Research, 2017, 75(12):2755.
[8] SUZUKI T, OKITA M, KAKOYAMA S, et al. Preferential adsorption and surface precipitation of lead(Ⅱ) ions onto anatase in artificially contaminated Dixie clay[J]. Journal of Hazardous Materials, 2017, 338:482.
[9] SHAHATA M M. Adsorption of some heavy metal ions by used different immobilized substances on silica gel[J]. Arabian Journal of Chemistry, 2011, 9(6):755-763.
[10] ZHAO Y. Review of the natural, modified, and synthetic zeolites for heavy metals removal from wastewater[J]. Environmental Engineering Science, 2016, 33(7):443-454.
[11] IBRAHIM H S, JAMIL T S, HEGAZY E Z. Application of zeolite prepared from Egyptian kaolin for the removal of heavy metals:Ⅱ. Isotherm models[J]. Journal of Hazardous Materials, 2010, 182(1/2/3):842-847.
[12] 王彬斌, 林景东, 万顺利, 等. 氧化镁基生物质炭高效去除水体中磷的特性[J]. 环境科学, 2017, 38(7):2859-2867. WANG B B, LIN J D, WAN S L, et al. MgO-biochar for the adsorption of phosphate in water[J]. Environmental Science, 2017, 38(7):2859-2867.
[13] UCHIMIYA M. Influence of pyrolysis temperature on biochar property and function as a heavy metal sorbent in soil[J]. J. Agric. Food Chem., 2011. 59(6):2501-2510.
[14] 胡田田, 仓龙, 王玉军, 等. 铅和铜离子在纳米羟基磷灰石上的竞争吸附动力学研究[J]. 环境科学, 2012, 33(8):2875-2881. HU T T, CANG L, WANG Y J, et al. Competitive adsorption kinetics of aqueous Pb2+ and Cu2+ on Nano-HAP surfaces[J]. Environmental Science, 2012, 33(8):2875-2881.
[15] 董黎静, 朱志良, 仇雁翎, 等. 羟基磷灰石及其复合材料对重金属的吸附研究进展[J]. 化学通报, 2013, 76(5):405-410. DONG L J, ZHU Z L, QIU Y L, et al. Advance in research of heavy metals removal by hydroxyapatite and its composite[J]. Chemistry, 2013, 76(5):405-410.
[16] SUZUKI T, HATSUSHIKA T, HAYAKAWA Y. Synthetic hydroxyapatites employed as inorganic cation-exchangers[J]. J. Chem. Soc. Faraday Trans, 1981, 5(5):1059-1062.
[17] 郭佳丽, 韩颖超, 徐磊, 等. 纳米羟基磷灰石复合材料作为污水处理吸附剂的研究进展[J]. 硅酸盐通报, 2016, 35(8):2466-2475. GUO J L, HAN Y C, XU L, et al. Nano-hydroxyapatite composite materials as adsorbents in wastewater treatment[J]. Bulletin of the Chinese Ceramic Society, 2016, 35(8):2466-2475.
[18] DONG L J, ZHU Z L, QIU Y L, et al. Removal of lead from aqueous solution by hydroxyapatite/magnetite composite adsorbent[J]. Chemical Engineering Journal, 2010, 165(3):827-834.
[19] YANG Z, FANG Z, TSANG P E, et al. In situ remediation and phytotoxicity assessment of lead-contaminated soil by biocharsupported nHAP[J]. Journal of Environmental Management, 2016, 182:247.
[20] 刘莹. 功能性纳米羟基磷灰石的制备、表征及性能研究[D]. 长春:吉林大学, 2009. LIU Y. Preparation, characterization and properties of functional nano-hydroxyapatite[D]. Changchun:Jilin University, 2009.
[21] LEHMANN J D, JOSEPH S. Biochar for environmental management:science and technology[J]. Science and Technology:Earthscan, 2009, 25(1):15801-15811.
[22] YANG Z, FANG Z, ZHENG L, et al. Remediation of lead contaminated soil by biochar-supported nano-hydroxyapatite[J]. Ecotoxicology & Environmental Safety, 2016, 132:224-230.
[23] MOUSA S M, AMMARA N S, IBRAHIM H A. Removal of lead ions using hydroxyapatite nano-material prepared from phosphogypsum waste[J]. Journal of Saudi Chemical Society, 2016, 20(3):357-365.
[24] WEI Q, LU J, AI H, et al. Novel method for the fabrication of multiscale structure collagen/hydroxyapatite-microsphere composites based on CaCO3, microparticle templates[J]. Materials Letters, 2012, 80:91-94.
[25] GUO Y P, YAO Y B, NING C Q, et al. Fabrication of mesoporous carbonated hydroxyapatite microspheres by hydrothermal method[J]. Materials Letters, 2011, 65(14):2205-2208.
[26] AHMAD M, LEE S S, DOU X, et al. Effects of pyrolysis temperature on soybean stover-and peanut shell-derived biochar properties and TCE adsorption in water[J]. Bioresource Technology, 2012, 118(8):536-544.
[27] 杜文慧, 朱维琴, 潘晓慧, 等. 牛粪源蚓粪及其生物炭对Pb2+、Cd2+ 的吸附特性[J]. 环境科学, 2017, 38(5):2172-2181. DU W H, ZHU W Q, PAN X H, et al. Adsorption of Pb2+ and Cd2+ from aqueous solution using vermicompost derived from cow manure and its biochar[J]. Environment Science, 2017, 38(5):2172-2181.
[28] LIAO D, WEI Z, LI X, et al. Removal of lead(Ⅱ) from aqueous solutions using carbonate hydroxyapatite extracted from eggshell waste[J]. Journal of Hazardous Materials, 2010, 177(1/2/3):126.
[29] YAN Y, WANG Y P, SUN X, et al. Optimizing production of hydroxyapatite from alkaline residue for removal of Pb2+ from wastewater[J]. Applied Surface Science, 2014, 317:946-954.
[30] SITKO R, ZAWISZA B, MALICKA E. Modification of carbon nanotubes for preconcentration, separation and determination of trace-metal ions[J]. Trac. Trends in Analytical Chemistry, 2012, 37(37):22-31.
[31] SENTURK H B, OZDES D, GUNDOGDU A, et al. Removal of phenol from aqueous solutions by adsorption onto organomodified Tirebolu bentonite:equilibrium, kinetic and thermodynamic study[J]. Journal of Hazardous Materials, 2009, 172(1):353-362.
[32] RAO M M, RAMESH A, RAO G P, et al. Removal of copper and cadmium from the aqueous solutions by activated carbon derived from Ceiba pentandra hulls[J]. Journal of Hazardous Materials, 2006, 129(1/2/3):123-129.
[33] JAVANBAKHT V, GHOREISHI S M, HABIBI N, et al. A novel magnetic chitosan/clinoptilolite/magnetite nanocomposite for highly efficient removal of Pb(Ⅱ) ions from aqueous solution[J]. Powder Technology, 2016, 302:372-383.
[34] 李瑞月, 陈德, 李恋卿, 等. 不同作物秸秆生物炭对溶液中Pb2+、Cd2+ 的吸附[J]. 农业环境科学学报, 2015, 34(5):1001-1008. LI R Y, CHEN D, LI L Q, et al. Adsorption of Pb 2+ and Cd 2+ in aqueous solution by biochars derived from different crop residues[J]. Journal of Agro-Environment Science, 2015, 34(5):1001-1008.
[35] GOOGERDCHIAN F, MOHEB A, EMADI R. Lead sorption properties of nanohydroxyapatite-alginate composite adsorbents[J]. Chemical Engineering Journal, 2012, 200/201/202(16):471-479.
[36] ZHUANG F, TAN R, SHEN W, et al. Monodisperse magnetic hydroxyapatite/Fe3O4 microspheres for removal of lead(Ⅱ) from aqueous solution[J]. Journal of Alloys and Compounds, 2015, 637:531-537.
[37] 黄明, 李绍峰, 鲁秀国, 等. 磁性高岭土的制备及对铅离子的吸附[J]. 环境工程学报, 2016, 10(11):6439-6445. HUANG M, LI S F, LU X G, et al. Synthesis of magnetic kaolin and adsorption of lead(Ⅱ)[J]. Chinese Journal of Environmental Engineering, 2016, 10(11):6439-6445.
[38] 张晓蕾, 陈静, 韩京龙, 等. 壳-核结构Fe3O4/MnO2磁性吸附剂的制备、表征及铅吸附去除研究[J]. 环境科学学报, 2013, 33(10):2730-2736. ZHANG X L, CHEN J, HAN J L, et al. Preparation and evaluation of shell-core structured Fe3O4/MnO2 magnetic adsorbent for Pb(Ⅱ) removal from aqueous solutions[J]. Acta Scientiae Circumstantiae, 2013, 33(10):2730-2736.
[39] 张谦, 夏柯, 刘丽, 等. PVA/DTC纳米纤维的制备及对铅离子的吸附行为[J]. 高等学校化学学报, 2013, 34(11):2667-2673. ZHANG Q, XIA K, LIU L, et al. Preparation of PVA/DTC nanofibers and their adsorption performance of lead ion[J]. Chemical Journal of Chinese Universities, 2013, 34(11):2667-2673.
[40] 曹玮, 周航, 邓贵友, 等. 改性谷壳生物炭负载磁性Fe去除废水中Pb2+ 的效果及机制[J]. 环境工程学报, 2017, 11(3):1437-1444. CAO W, ZHOU H, DENG G Y, et al. Effects and mechanisms of magnetic iron supported on rice husk biochar removing Pb2+ in wastewater[J]. Chinese Journal of Environmental Engineering, 2017, 11(3):1437-1444.
[41] ZHAO G, LI J, REN X, et al. Few-layered graphene oxide nanosheets as superior sorbents for heavy metal ion pollution management[J]. Environmental Science & Technology, 2011, 45(24):10454-10462.
[42] MOBASHERPOUR I, SALAHI E, PAZOUKI M. Potential of nano crystalline hydroxyapatite for lead (Ⅱ) removal from aqueous solutions:thermodynamic and adsorption isotherm study[J]. Solar Energy Materials & Solar Cells, 2011, 90(16):2605-2615.
[43] ZHANG Z Z, LI M Y, CHEN W, et al. Immobilization of lead and cadmium from aqueous solution and contaminated sediment using nano-hydroxyapatite[J]. Environmental Pollution, 2010, 158(2):514-519. |