针铁矿-高岭石复合体的表面性质和吸附氟的特性

采用X-射线衍射(XRD)、扫描电镜(SEM)、红外(FT-IR)光谱、质子电位滴定、比表面及微孔分析等方法对针铁矿、高岭石及其复合体的基本性质进行了表征;研究了供试样品对氟的吸附容量及吸附模型.结果表明,在悬浮液体系中,针铁矿可包被在高岭石表面形成二元复合体.复合体的孔径主要分布在0.42 nm和0.61 nm左右,BET表面积为34.08 m2/g,表面分形度D=2.726,质子电荷零点(pHPZNPC)位于5.50～6.50间.初始pH=6.00时,针铁矿对氟的吸附容量(qmax)为4.506 mg/g,高岭石的吸附容量为0.608 mg/g,复合体的吸附容量为3.520 mg/g.用Langmuir和Freundlich方程拟合了针铁矿、高岭石及复合体对氟的等温吸附数据,其中Langmuir方程拟合的相关系数(R2)分别为0.964、0.991和0.799,Freundlich方程拟合的相关系数分别为0.925、0.886和0.995.3种矿物吸附氟的主要机制有阴离子配体交换、表面配位和静电作用;此外,"F-键桥"对复合体吸附氟也有重要贡献.与2种单体的平均值比较,针铁矿-高岭石复合体的孔体积和孔径分布无明显变化,比表面积和表面分形度增加,表面羟基含量和质子电荷量减少,吸附氟的能力增强.针铁矿和高岭石单体对氟的吸附属于单层吸附模式,适合用Langmuir方程拟合;多层吸附模型Freundlich方程可很好地描述复合体对氟的吸附.     

腐殖酸对针铁矿吸附磷的影响机理

通过添加HA(Humic acid,腐殖酸),研究不同环境条件下HA对针铁矿吸附磷的影响. 结果显示,加入HA能显著降低磷吸附量,pH为4.5时分别加入100和40 mg/L HA,磷的最大吸附量分别降低了26.6%和25.6%;pH为7.0时分别加入100和40 mg/L HA,磷的最大吸附量分别降低了26.8%和23.1%. 不同添加顺序试验结果表明:针铁矿对磷的吸附量大小顺序为后添加HA>同时添加HA和磷>先添加HA;无论是否添加HA,针铁矿对磷的吸附量都随着pH的升高而降低,相应的吸附等温线也都符合Langmuir吸附等温方程;总有机碳和红外光谱特征表明,HA和磷在针铁矿表面吸附点位形成竞争吸附,并且针铁矿表面的羟基在吸附磷和HA的过程中起到了一定的作用.      

离子强度和pH对针铁矿吸附水溶液中Cd(Ⅱ)的影响

探讨了初始浓度、接触时间、pH、离子强度等因素对针铁矿对去除水溶液中Cd(Ⅱ)的影响。利用X射线粉末衍射仪(XRD)对针铁矿进行表征,并通过批量实验研究了针铁矿对Cd(Ⅱ)吸附动力学和等温吸附机理。结果表明:针铁矿比表面积为82. 36 m~2/g;准二级动力学和Langmuir等温吸附适用于针铁矿对Cd(Ⅱ)的吸附,相关系数分别为0. 9535和0. 9915;当25℃、pH为5时,用Langmuir等温线计算得到其最大吸附量为35. 29 mg/g;针铁矿吸附Cd(Ⅱ)能力随pH增大而增大;随着CaCl_2的浓度增大,针铁矿对Cd(Ⅱ)的吸附量减小,随着MgCl_2的浓度增大,针铁矿对Cd(Ⅱ)的吸附量先减小后上升,总体有抑制作用。     

Di-(2-ethylhexy)-phthalate在细菌及细菌-矿物复合体表面的吸附解吸行为

以土壤中分离出的邻苯二甲酸二异辛酯(DEHP)高耐性细菌(伯克霍尔德菌,Burkholderia sp.)及3种常见矿物为实验材料,研究Burkholderia sp.及其矿物复合体对DEHP的吸附解吸行为,包括吸附动力学、吸附等温曲线、pH的影响、FTIR分析等.结果显示,Burkholderia sp.能在较短时间内完成对DEHP的吸附;DEHP在细菌表面的吸附符合Langmuir等温吸附方程(R20.97);Burkholderia sp.吸附DEHP的最适pH为7.0~8.0.蒙脱石、针铁矿、高岭土及细菌对DEHP的吸附能力大小依次为:蒙脱石针铁矿伯克霍尔德菌高岭土;同时,蒙脱石-细菌复合体系对DEHP结合能力最强,而高岭土和针铁矿-细菌复合体系对DEHP的结合强度较小.FTIR分析结果表明细菌表面的蛋白质及脂质部分在DEHP吸附过程中的作用较大,而疏水性作用等是DEHP与细菌及复合体相互结合的主要作用力.这些结果都与DEHP在环境中的迁移转化行为密切相关,对评估该类化合物的环境生态风险以及控制环境污染都具有重要的指导意义.     

蒙脱土、高岭土和针铁矿对DNA吸附与解吸特征

采用平衡法研究了蒙脱土、高岭土和针铁矿在不同pH值和不同电解质溶液下的DNA吸附解吸特征.结果表明,在4种电解质体系中,尤其在溶液pH值>5.0时,3种矿物在吸附过DNA后,pH有不同程度上升,但CaCl2电解质体系中含针铁矿溶液的pH开始下降.针铁矿对DNA的吸附率大约为75%～91%,高岭土对DNA的吸附率从pH为3.5时的90%开始下降,至pH 6.0～7.0时的下降至大约18%～50%.在一价电解质体系,当溶液pH值为2.2～5.0时蒙脱土对DNA的吸附率大约为90%开始下降至25%～40%,但在二价电解质体系蒙脱土对DNA的吸附率大约为92%.Freundlich等温吸附方程能更好的拟合针铁矿、蒙脱土和高岭土对DNA的吸附.蒙脱土对DNA相对吸附容量在pH 3.5时大于针铁矿,而pH 5.0时小于针铁矿.以NaOAc为解吸剂,针铁矿、蒙脱土和高岭土上吸附DNA在不同pH时解吸率分别为0.1%～0.4%、63.7%～90.2%和29.7%～87.5%.以NaH2PO4为解吸剂时,这些矿物吸附DNA的解吸率分别为69.6%～78.7%、0.8%～7.0%和0.4%～2.2%.这表明针铁矿吸附DNA时键合作用较大,蒙脱土和高岭土静电引力较大,这是DNA在不同电荷类型矿物表面的吸附差异.     

人工合成铁、铝矿对As(V)吸附的研究

采用批实验方法研究了人工合成铁、铝矿物对As(V)的吸附,考察吸附时间及溶液pH值对As(V)吸附的影响.结果表明,不同类型铁、铝矿对As(V)的吸附量均表现出随初始As(V)浓度(0.1~100mg/L)的增加而增加的趋势,其中水铁矿的吸附量在整个浓度范围内始终呈上升趋势,初始浓度为100mg/L As(V)时的吸附量为22.56mg/g,而针铁矿、水铝矿和赤铁矿的吸附量在低初始浓度时上升较快,随浓度升高上升幅度减缓直至平衡,其中赤铁矿的吸附量最小,100mg/L As(V)时的吸附量为4.75mg/g.Freundlich方程对吸附数据的拟合效果优于Langmuir方程,吸附能力表现为水铁矿最高,水铝矿和针铁矿相近,赤铁矿较低.随着吸附时间的增加,4种铁、铝矿物对As(V)的吸附量都逐渐增加,尤其是水铁矿,10min内即达到平衡吸附量的96.3%;水铝矿和针铁矿在48h时吸附量分别为平衡吸附量的97.2%和97.4%;赤铁矿则需96h才基本达到平衡.除水铁矿外,4种动力学方程对其他矿物动力学曲线的拟合均较好,尤其是双常数方程.pH值对矿物吸附As(V)的影响受As(V)初始浓度的影响,初始浓度较低时,铁、铝矿的吸附量仅在极碱条件下(pH>10)降低,而初始浓度较高时则表现为随pH值升高直线下降的趋势.     

不同{021}/{110}晶面暴露比针铁矿对As(Ⅴ)吸附特性的研究

为探究针铁矿不同晶面对As(Ⅴ)的吸附能力,该研究制备两种具有不同比例{021}/{110}晶面的针铁矿,利用XRD、FTIR、N₂吸附脱附等温线、SEM、TEM等技术表征材料的晶体结构、比表面积和表面形貌等情况. 通过等温吸附和吸附动力学试验,研究不同初始As(Ⅴ)浓度、pH和竞争阴离子影响下,两种针铁矿吸附As(Ⅴ)的差异性. 结果表明:①制备的针铁矿Goe-A和Goe-B均为高纯针铁矿,Goe-A和Goe-B的比表面积分别为92.76和46.78 m2/g. ②As(Ⅴ)在针铁矿表面的吸附更符合Freundlich等温吸附模型和准二级动力学模型,表明吸附是以多层吸附和化学吸附为主;经比表面积归一化后,发现含有更高比例{021}/{110}晶面的Goe-B表面拥有更好的吸附性能,在pH=4时吸附量达到0.304 mg/m2,是Goe-A的1.57倍. ③pH会影响针铁矿的吸附,吸附量随着pH的增加而降低,而在碱性条件下Goe-B表现出更强的吸附能力. 随As(Ⅴ)浓度的增加,大量配体吸附引起的点位竞争效应大于pH变化引起的静电力作用. ④吸附前后XRD的变化表明,As(Ⅴ)主要吸附在针铁矿表面,而不是结合到针铁矿的晶体结构中;而FTIR和XPS分析发现,As(Ⅴ)通过与Fe—OH配体交换形成了新的络合物(Fe—O—As)吸附在针铁矿表面. 研究显示,含有更高比例{021}/{110}晶面的针铁矿表现出更强的吸附性能,是修复环境砷污染的理想吸附剂.      

针铁矿对废水中Cr(Ⅵ)的吸附

该实验研究了针铁矿(α-Fe OOH)对废水中Cr(Ⅵ)吸附的影响因素、吸附等温线和吸附动力学。探讨在不同初始浓度、p H、吸附剂的量、离子强度条件下针铁矿对Cr(Ⅵ)的吸附特性。结果表明,针铁矿的吸附平衡时间为30 min;p H为3时,针铁矿对Cr(Ⅵ)的吸附效率最高;Cr(Ⅵ)浓度为15 mg/L时,最佳针铁矿投加量为2 g/L;Cr(Ⅵ)的吸附量随离子强度的升高而降低;温度升高,Cr(Ⅵ)的吸附量随之升高。分别用Langmuir、Freundlich和Temkin等温模型对不同条件下针铁矿吸附Cr(Ⅵ)的实验结果进行模拟,结果表明用Freundlich方程的拟合效果最佳,在35℃时相关性达到了0.995 2。针铁矿吸附Cr(Ⅵ)的吸附动力学满足准二级动力学方程,吸附表观活化能Ea=31.306 k J/mol。实验结果表明,针铁矿在废水除铬(Ⅵ)领域有实际应用的潜力。     

典型铁氧化物对Hg(Ⅱ)吸附及其机制的比较研究

以自然环境中广泛存在的水铁矿、赤铁矿、针铁矿3种典型铁氧化物为研究对象，比较了不同实验条件下(pH、黄腐酸、共存离子、离子强度)3种铁氧化物对Hg(Ⅱ)的吸附过程及其机制.结果表明：水铁矿(37.49 mg·g^-1)和针铁矿(35.60 mg·g^-1)对汞的吸附量相当，赤铁矿对汞的吸附量(15.92 mg·g^-1)较低；吸附过程符合准二级动力学和Langmuir模型；吸附热力学研究发现，水铁矿、赤铁矿吸附汞的△H为正值，表明温度升高有利于吸附，而针铁矿与之相反；溶液pH值从3升至9时，水铁矿、赤铁矿、针铁矿对汞的吸附量分别提高了53.10%、37.73%、50.53%；添加黄腐酸可提高铁氧化物对汞的吸附；离子强度增加，针铁矿对汞的吸附量下降，而水铁矿和赤铁矿与之相反；不同阴离子共存时，水铁矿受P₂O₇^4-的影响最为显著.结合X射线光电子能谱、傅里叶变换红外光谱仪分析结果，水铁矿主要吸附机理是吸附剂表面—OH中的H+被Hg2+替换形成了内表面络合物，针铁矿主...     

富里酸对针铁矿吸附Cr(Ⅵ)的影响机理

为研究复杂三元体系中FA(fulvic acid,富里酸)对针铁矿吸附Cr(Ⅵ)的影响,探究FA对重金属Cr(Ⅵ)在环境中迁移转化的作用机理,通过改变FA的添加顺序及添加量,系统研究了FA存在时Cr(Ⅵ)在针铁矿上的吸附行为.结果表明:不添加FA时,离子强度增大促进了针铁矿对Cr(Ⅵ)的吸附;ρ(FA)为50 mg/L时,离子强度增加会抑制针铁矿对Cr(Ⅵ)的吸附.pH为6.98、离子强度为1.0 mol/L时,针铁矿对Cr(Ⅵ)的吸附量比不添加FA时高11.0%.pH为2.98时,添加FA后针铁矿对Cr(Ⅵ)的吸附量最大,比不添加FA时高31.9%.无论是否添加FA,升温均有利于针铁矿对Cr(Ⅵ)吸附,其吸附机理可能是氢键、偶极间力等作用.FA的添加顺序对Cr(Ⅵ)吸附量的影响表现为后添加FA>先添加FA>同时添加FA>对照.研究显示,FA的存在能显著改变针铁矿对Cr(Ⅵ)的吸附行为.      

Adsorption and desorption of Cu~(2+) on paddy soil aggregates pretreated with different levels of phosphate

Interactions between anions and cations are important for understanding the behaviors of chemical pollutants and their potential risks in the environment.Here we prepared soil aggregates of a yellow paddy soil from the Taihu Lake region,and investigated the effects of phosphate(P) pretreatment on adsorption-desorption of Cu~(2+) of soil aggregates,free iron oxyhydrates-removed soil aggregates,goethite,and kaolinite with batch adsorption method.The results showed that Cu~(2+) adsorption was reduced on the aggregates pretreated with low concentrations of P,and promoted with high concentrations of P,showing a V-shaped change.Compared with the untreated aggregates,the adsorption capacity of Cu~(2+) was reduced when P application rates were lower than 260,220,130 and110 mg/kg for coarse,clay,silt and fine sand fractions,respectively.On the contrary,the adsorption capacity of Cu~(2+) was higher on P-pretreated soil aggregates than on the control ones when P application rates were greater than those values.However,the desorption of Cu~(2+) was enhanced at low levels of P,but suppressed at high levels of P,displaying an inverted V-shaped change over P adsorption.The Cu~(2+) adsorption by the aggregate particles with and without P pretreatments was well described by the Freundlich equation.Similar results were obtained on P-pretreated goethite.However,such P effects on Cu~(2+)adsorption-desorption were not observed on kaolinite and free iron oxyhydrates-removed soil aggregates.The present results indicate that goethite is one of the main soil substances responsible for the P-induced promotion and inhibition of Cu~(2+) adsorption.     

高岭石、针铁矿及其二元体对胡敏酸的吸附特性

研究了高岭石、针铁矿及其混合物(KGM)和复合物(KGC)的表面性质及吸附胡敏酸的特性.结果表明,4种物质的比表面积(SSA)表现为针铁矿KGCKGM高岭石,KGM的SSA接近两种纯物质的平均值,而KGC的SSA明显升高.高岭石、针铁矿、KGM和KGC的等电点(IEP)分别为3.2、7.9、6.1和6.7;初始p H=5.0时,其表面Zeta电位分别为-13.9、38.2、14.3和19.7 m V.4种样品对胡敏酸的动力学吸附过程适合用准二级动力学模型描述,表明化学吸附是主要作用机制.一、二位Langmuir模型可较好地拟合等温吸附数据(R~2为0.962~0.993),其中二位Langmuir模型对KGM和KGC吸附数据的拟合度R~2分别为0.989和0.993;Freundlich模型对等温吸附数据的拟合度较低,但两种二元体的拟合度高于两种纯物质.初始p H=5.0时,高岭石、针铁矿、KGM和KGC对胡敏酸的吸附容量(q_(max))分别为6.02、61.83、35.13和42.10 mg·g~(-1);两种二元体的q_(max)都高于两种纯物质q_(max)的平均值,其中KGC的q_(max)明显升高.热力学参数表明,4种样品对胡敏酸的吸附均属于吸热反应,其中高岭石的吸附为非自发过程,其余样品的吸附为自发过程.     

Adsorption and desorption of Cu on paddy soil aggregates pretreated with different levels of phosphate

Interactions between anions and cations are important for understanding the behaviors of chemical pollutants and their potential risks in the environment. Here we prepared soil aggregates of a yellow paddy soil from the Taihu Lake region, and investigated the effects of phosphate (P) pretreatment on adsorption-desorption of Cu²⁺ of soil aggregates, free iron oxyhydrates-removed soil aggregates, goethite, and kaolinite with batch adsorption method. The results showed that Cu²⁺ adsorption was reduced on the aggregates pretreated with low concentrations of P, and promoted with high concentrations of P, showing a V-shaped change. Compared with the untreated aggregates, the adsorption capacity of Cu²⁺ was reduced when P application rates were lower than 260, 220, 130 and 110 mg/kg for coarse, clay, silt and fine sand fractions, respectively. On the contrary, the adsorption capacity of Cu²⁺ was higher on P-pretreated soil aggregates than on the control ones when P application rates were greater than those values. However, the desorption of Cu²⁺ was enhanced at low levels of P, but suppressed at high levels of P, displaying an inverted V-shaped change over P adsorption. The Cu²⁺ adsorption by the aggregate particles with and without P pretreatments was well described by the Freundlich equation. Similar results were obtained on P-pretreated goethite. However, such P effects on Cu²⁺ adsorption-desorption were not observed on kaolinite and free iron oxyhydrates-removed soil aggregates. The present results indicate that goethite is one of the main soil substances responsible for the P-induced promotion and inhibition of Cu²⁺ adsorption.     

Oxidation of Cr(III) on birnessite surfaces: The effect of goethite and kaolinite

Oxidation of Cr(III) by manganese oxides may pose a potential threat to environments due to the formation of toxic Cr(VI) species. At present, it was still unclear whether the extent of Cr(III) oxidation and fate of Cr(VI) would be changed when manganese oxides co-exist with other minerals, the case commonly occurring in soils. This study investigated the influence of goethite and kaolinite on Cr(III) oxidation by birnessite under acidic pH condition (pH 3.5) and background electrolyte of 0.01 mol/L NaCl. Goethite was found not to affect Cr(III) oxidation, which was interpreted as the result of overwhelming adsorption of cationic Cr(III) onto the negatively-charged birnessite (point of zero charge (PZC) < 3.0) rather than the positively-charged goethite (PZC = 8.8). However, more Cr(VI) would be retained by the surface with the increase in addition of goethite because of its strong ability on adsorption of Cr(VI) at low pH. Moreover, either Cr(III) oxidation or distribution of the generated Cr(VI) between the solid and solution phases was not affected by kaolinite (PZC < 3.0), indicating its low affinity for Cr species. Reactions occurring in the present mixed systems were suggested, which could be partly representative of those in the soils and further indicates that the mobility and risk of Cr(VI) would be decreased if goethite was present.     

Amplification of plasmid DNA bound on soil colloidal particles and clay minerals by the polymerase chain reaction

Polymerase chain reaction(PCR)was used to amplify a 600-base pair(bp)sequence of plasmid pGEX-2T DNA bound on soil colloidal particles from Brown soil(Alfisol)and Red soil(Ultisol),and three different minerals(goethite,kaolinite,montmorillonite). DNA bound on soil colloids,kaolinite,and montmorillonite was not amplified when the complexes were used directly but amplification occurred when the soil colloid or kaolinite-DNA complex was diluted,10- and 20-fold.The montmorillonite-DNA complex required at least 100-fold dilution before amplification could be detected.DNA bound on goethile was amplified irrespective of whether the complex was used directly,or diluted 10- and 20-fold.The amplification of mineral-bound plasmid DNA by PCR is,therefore,markedly influenced by the type and concentration of minerals used.This information is of fundamental importance to soil molecular microbial ecology with particular reference to monitoring the fate of genetically engineered microorganisms and their recombinant DNA in soil environments.     

十二烷基二甲基甜菜碱(BS-12)在合成针铁矿表面的吸附特征

为了探究十二烷基二甲基甜菜碱(BS-12)在水合针铁矿(α-FeOOH)表面的吸附过程和机理,在不同pH值、离子强度以及温度下采用批处理法研究了针铁矿对BS-12的吸附特征;并对BS-12在针铁矿表面的吸附机制进行了探讨.研究结果表明:针铁矿对BS-12的吸附平衡时间约为8 h,吸附过程符合伪二级动力学模型,吸附速率受化学吸附机理控制.Freundlich等温吸附模型能较好地描述针铁矿对BS-12的吸附,pH值对针铁矿吸附BS-12影响显著,主要取决于针铁矿的电荷零点和BS-12的等电点;离子强度的增加对BS-12的吸附有促进作用;温度的升高促进BS-12的吸附.热力学参数结果表明,针铁矿对BS-12的吸附是一个具有熵增和焓增特征的自发性吸热过程.BS-12在针铁矿表面的吸附是一个较慢发生的吸热的化学吸附的过程,主要吸附机制为化学键作用和疏水结合模式.     

Characteristics and model studies for fluoride and arsenic adsorption on goethite

Fluoride and arsenic are major anionic elements of concern in drinking water treatment. The effects of contact time, pH, surface loading and ionic strength on adsorption of fluoride and As(V) were investigated using batch methods. Adsorption of fluoride and As(V) onto goethite obeyed a pseudo second-order rate law. Through experimental data and adsorption kinetic analysis, the affinity of As(V) onto goethite was stronger than fluoride. Fluoride and As(V) uptake by goethite all decreased with pH increasing at the same surface loading; however, ionic strength had slight influence on their adsorption. A surface sites-species model was used to quantify the adsorption of fluoride and As(V) onto goethite as function of pH and surface loading. This model can satisfactorily predict their adsorption characteristics with several adsorption constants.