不同海藻吸附重金属镉离子的研究

本文采用6种分别属于褐藻门、绿藻门、红藻门的海边常见大型海藻对重金属镉离子进行吸附比较实验，镉离子浓度较低时，其吸附容量排列顺序为：海黍子＞海带＞孔石莼＞节荚藻＞刺松藻＞内枝藻，海黍子的吸附量高达181mg/g，超出文献报道值，对3种吸附容量较高的海藻进行了较详细的研究，研究溶液的pH值、初始Cd^2 离子浓度等因素对Ca^2 的吸附特性的影响，对吸附机理进行了初步的探讨，发现镉离子与海藻中的钙离子发生离子交换作用，交换率占总吸附量的33－34％，得出了适宜的吸附等温线方程。     

黄孢展齿革菌对镉离子的吸附

选用黄孢展齿革菌进行生物吸附镉离子的研究。比较多种处理方法发现采用甲醛交联-碱处理能显著提高吸附效果。当溶液pH为4.5,吸附温度为25-35℃,菌丝球粒径在1.5-2.0mm范围内,吸附时间为12h,吸附效果最佳。此时,镉离子浓度从10mg/L下降至0.04mg/L,达到国家污水综合排放标准。此外,该生物吸附过程是由快速吸附和缓慢吸附两个阶段所组成的。     

钙基累托石对模拟废水中镉的吸附

研究了在不同温度下烘干或煅烧的累托石对模拟废水中镉离子的吸附作用，对吸附时间、溶液的初始浓度、pH值、累托石的用量等条件对吸附的影响作了初步研究，结果表明，在300℃下煅烧的钙基累托石对镉有较好的吸附作用，其最大吸附量迭4mg／g，该吸附符合二级动力学方程和Freundlich吸附等温式。     

基于MoS2纳米花的表面离子印迹材料的制备及性能

以镉离子做模板离子,以多巴胺为功能单体和交联剂,通过多巴胺的自聚合反应,在二硫化钼(MoS₂)纳米花的表面形成一薄层镉离子印迹聚合物。通过扫描电子显微镜(SEM)、傅里叶变换红外光谱仪(FT-IR)、X射线粉末衍射仪(XRD)、热重分析仪(TGA)以及比表面和孔径分布分析等表征了离子印迹材料(IIM)的形貌和结构,确证了印迹聚合层的生成。平衡吸附实验结果表明,由于IIM的印迹位点位于MoS₂纳米花的表面,可接触性好,因而IIM对镉离子结合速度快,吸附25 min即可达到平衡。同时,该印迹材料具有很好的印迹效果(印迹因子为6.877),对镉离子有很强的特异性识别能力,特异性结合量为518.1μmol/g。Scatchard模型分析表明印迹材料的结合位点对镉离子的亲和力不是均一的,可以分为高亲和力和低亲和力两部分。吸附等温模型分析表明,印迹材料对镉离子的吸附行为符合Langmuir吸附等温模型,由该模型可以计算出其对镉离子的最大吸附量为1081.0μmol/g。本研究为制备对重金属离子具有高选择性吸附能力的印迹材料提供了一种简单、可靠的方法。     

指示离子方波伏安法测定阳离子表面活性剂

在非电活性的阳离子表面活性剂十二烷基二甲基苄基氯化铵(1227)中加入镉(Ⅱ),1227浓度对镉(Ⅱ)峰电流明显影响,镉(Ⅱ)作为指示离子,可测定微量阳离子表面活性剂的浓度。影响机理为配离子CdCl+和1227的阳离子(R+)都在阴极上吸附,CdCl+吸附使峰电流增大,R+吸附使峰电流减小。CdCl+吸附快,R+吸附慢。利用Oring 7.0拟合出1227存在下镉(Ⅱ)的还原峰电流数学模型。通过Origin 7.0非线性拟合出了CdCl+与R+的吸附常数和促进因子,对复杂吸附过程峰电流可进行定量计算。该方法为相对标准偏差(n=5)为2.2%,加标回收率为96.8%。     

整体式吸附萃取搅拌棒在检测环境水样中镉离子含量方面的应用

通过逐步聚合反应制备了一种新型整体式吸附萃取搅拌棒,将其应用于环境水中镉离子的吸附萃取.考察了介质酸度、搅拌速率、吸咐时间、解吸溶剂和时间等实验条件对吸附量的影响.控制溶液pH为6.0,搅拌棒转速为300 r/min,吸附30 min,5% HNO3作为解吸液解吸10 min,采用等离子体原子发射光谱仪对Cd离子进行检...     

有机皂土的PAN修饰及其对水中镉离子的吸附行为

采用十六烷基三甲基溴化铵(CTMAB)对皂土进行改性,用1-(2-吡啶偶氮)-2-萘酚(PAN)对其表面进行修饰,制备了新型固态吸附剂。用傅立叶变换红外光谱对该吸附剂进行了表征。以火焰原子吸收为检测手段,研究了该吸附剂对水中镉离子的吸附行为。结果表明,用CTMAB改性后,PAN可负载于皂土上,制备的固态吸附剂对水中镉离子具有较强的吸附能力。吸附量受介质的pH值、温度和吸附时间的影响。其吸附行为符合Langmuir吸附等温模型和HO准二级动力学方程式,该吸附反应为吸热的自发过程。吸附在PAN修饰有机皂土上的镉离子可用1mol/L的HNO3溶液洗脱。建立了PAN修饰有机皂土吸附富集,火焰原子吸收法测定水中痕量镉的新方法,应用于地表水中痕量镉的测定,结果满意。     

氨丙基硅三烷改性介孔二氧化硅及对痕量镉(Ⅱ)的分离富集性能研究

以氨丙基硅三烷作为改性剂,对介孔二氧化硅表面进行修饰,制备了氨基化介孔二氧化硅吸附材料,采用透射电镜和傅立叶红外光谱仪对其进行表征,并用于水样中痕量镉的富集,建立了氨基化介孔二氧化硅分离预富集/火焰原子吸收光谱法测定痕量镉的方法。考察了溶液pH值、样品流速、洗脱剂类型、干扰离子和吸附容量等对痕量镉分离富集的影响,以及该吸附材料对痕量镉(Ⅱ)的吸附性能。结果表明,溶液pH 7.0,样品流速8 m L/min时镉离子能被制备材料高效吸附,吸附的镉(Ⅱ)用5.0 m L 2 mol/L HNO_3完全洗脱,火焰原子吸收法测定。在最佳实验条件下,方法的线性范围为0.6~20 ng/m L,定量下限为0.5 ng/m L,富集倍数为50倍,对10 ng/m L Cd2+测定的相对标准偏差(n=11)为0.92%,加标回收率为98.8%~104.5%。该方法的抗干扰能力较好,富集柱可循环使用12次以上,可用于环境水样中镉(Ⅱ)的测定。     

纳米钛富集水样重金属镉-胶体金免疫层析法快速检测方法的建立

研究了纳米TiO2分离富集水样中痕量镉的最佳反应条件,应用自制抗Cd(Ⅱ)-iEDTA(Isothiocya-nobenzyi-EDTA)螯合物的单克隆抗体,建立了快速检测环境水样中重金属镉残留的胶体金免疫层析法。采用纳米钛富集水样中的痕量镉,用洗脱剂将吸附的镉离子洗脱后,再采用胶体金免疫层析法快速判断镉离子浓度,进而分析水样中的重金属镉含量。结果表明,pH 9.0时,Cd可被纳米TiO2定量富集,吸附于纳米TiO2上的镉离子可用0.1 mol/L的EDTA.2Na(乙二胺四乙酸二钠)溶液定量脱附。在优化实验条件下,纳米TiO2对Cd的吸附容量为14.7 mg/g,富集倍数可达50倍。制备了比色法判定结果的胶体金试纸条,并建立了纳米TiO2富集-胶体金试纸条联用检测方法。对实测样品的检测耗时约90 min,该方法对Cd的定量下限可达5μg/L,适用于环境水样的检测。     

印迹壳聚糖/凹土分离富集-FAAS测定水中痕量镉

建立了用离子印迹壳聚糖/凹土(ⅡGA)分离富集-火焰原子吸收光谱(FAAS)测定痕量镉的新方法.在动态吸附条件下,系统地研究了溶液pH值、流速、洗脱条件和干扰离子对痕量镉分离富集的影响;在pH4.5、上样流速为0.60 mL/min的条件下,镉能被ⅡCA定量富集;吸附的镉可用1.0 mol/L HCl-0.1 mol/...     

Dithiophosphinate-pyrite interaction: voltammetry and DRIFT spectroscopy investigations at oxidizing potentials

The electrochemistry of dithiophosphinate (DTPI) adsorption on pyrite was investigated by cyclic voltammetry (CV) and diffuse reflectance infrared Fourier transformation (DRIFT) spectroscopy at oxidizing potentials under acid, neutral, and alkaline conditions. CV study showed that the mineral surface was covered by porous ferric oxyhydroxide species. Irreversible DTPI adsorption on the pyrite surface and inhibition of electron transfer to some extent were also observed from electrochemical work. Major collector species were determined from DRIFT spectroscopy study as adsorbed collector compound, DTPI degrees , and dimer of dithiophosphinate, (DTPI)2. Maximum adsorption density of DTPI was obtained in acid solution. It decreased sharply under neutral and alkaline conditions due to heavy surface oxidation at higher pH.     

Composite Ferric Oxyhydroxide-Containing Phases Formed in Neutral Aqueous Solutions of Tryptophan and Indole-3-Acetic Acid

Mössbauer, FTIR and XRD analyses showed that in aqueous medium in air in the presence of L-tryptophan (Trp) or indole-3-acetic acid (IAA) the ambient-temperature ageing of the precipitates formed from ferrous sulphate at pH7 gave composite phases with varying proportions of -FeOOH (a dominating crystalline phase), -FeOOH (both fine-grained, showing superparamagnetic behaviour at 298 K, and relatively better crystallized) and amorphous ferric hydroxide. The experimental data suggested a competition for adsorption sites at the oxyhydroxide surface in the suspension during phase transformations, as well as the transformation of -FeOOH (and/or amorphous ferric hydroxide) to -FeOOH via the dissolution-reprecipitation mechanism. The formation of certain ferric oxyhydroxide phases in the presence of Trp and IAA — released e.g., in the course of bacterial and plant metabolism — can contribute to the regulation of soil mineral composition.     

Thermodynamic study of water adsorption in high-silica zeolites

The joint use of microcalorimetric and computational approaches has been adopted to describe H2O interaction with cus Al(III) Lewis and Si(OH)+ Al- Br?nsted acidic sites within H-BEA and H-MFI zeolites (both with approximately 6 Al/unit cell). Adsorption data obtained at 303 K were compared to experimental model systems, such as all-silica zeolites, amorphous silica, and silico-alumina, transition alumina. In parallel, ab initio molecular modeling was carried out to mimic, in a cluster approach, Lewis and Br?nsted acidic sites, as well as a variety of Si-OH species either with H-bonding interacting (nests and pairs) or isolated. H-BEA and H-MFI water affinity values were found to be almost equivalent, in both quantitative and energetic terms, in that dominated by Al-containing sites population, more than by nanocavity topology or by acidic site nature. Both H-zeolites, saturated with approximately 5 Torr of H2O vapor, bind approximately 4 H2O per Al site, almost one of which is tightly bound and not eliminated by RT pumping-off. A 160 < q(diff) < 80 kJ/mol interval was measured for the adsorption up to 1H2O/Al. The zero-coverage heat of adsorption (q0 approximately 160 kJ/mol, for both H-zeolites) was assigned to H2O/Lewis complex formation, which dominates the early stage of the process, in agreement with the ab initio computed H2O/Lewis sites binding energy. The rather broad q(diff) interval was interpreted as due to the simultaneous adsorption of H2O on both structural Br?nsted sites and strongly polarized H2O already adsorbed on Lewis sites. For this latter species, BE = 74 kJ/mol was computed, slightly higher than BE = 65 kJ/mol for H2O/Br?nsted sites interaction, showing that H2O coordinated on cus Al(III) Lewis sites behaves as a structural Br?nsted site. The investigated all-silica zeolites have been categorized as hydrophilic in that the measured heat of adsorption (100 < q(diff) < 44 kJ/mol) was larger than the heat of liquefaction of water (44 kJ/mol) in the whole coverage examined. Indeed, polar defects present in the hydrophobic Si-O-Si framework do form relatively stable H2O adducts. Crystalline versus amorphous aluminosilicate q(diff) versus n(ads) plots showed that the measured adsorption heat is lower than expected, due to the extraction work of Al atoms from the amorphous matrix to bring them in interaction with H2O. On the contrary, such an energy cost is not required for the crystalline material, in which acidic sites are already in place, as imposed by the rigidity of the framework. Modeling results supported the experimental data interpretation.     

Acid/Base Properties and Adsorption of an Azo Dye on Coating Pigments

Adsorption of an anionic disazo dye, Food Black 2 on coating pigments from polar solvents was studied. Pigments (kaolin, precipitated CaCO₃, amorphous SiO₂, TiO₂, Al₂O₃, and talc) were chosen to be representative of those used in paper for ink‐jet printing. The predominating driving force for the adsorption was electrostatic interactions for all the pigments except talc, for which hydrophobic interactions were dominant. Lewis acid‐base properties of the pigments were studied by measuring adsorption of Lewis acid‐probe molecules from both polar and nonpolar media. The pigments studied were found to be amphoteric, containing both acidic and basic surface groups. However, in the presence of polar solvents, the adsorption of acid‐base probe molecules was greatly reduced, which indicates that Lewis acid‐base interactions have only a small influence on the adsorption of azo dyes from polar media such as water.     

Sorption of phosphate ions on iron(III), zirconium(IV), and chromium(III) oxyhydroxides from aqueous electrolyte solutions

The adsorption of phosphate ions from aqueous solutions with an ionic strength of 0.5 on iron(III), zirconium(IV), and chromium(III) oxyhydroxide hydrogels has been studied as influenced by chloride and sulfate ions. Despite the high concentrations of chloride and sulfate ions, they do not inhibit phosphate adsorption on the hydrogels; they only slightly change the isotherm shape. In the range of equilibrium phosphate concentrations equal to 30–50 mmol/l, all isotherms for iron and zirconium oxyhydroxide gels signify the appearance of a second adsorption layer (two-step isotherms). Both steps are satisfactorily fitted by the Langmuir equation. The maximum adsorptions and adsorption constants have been calculated. For chromium oxyhydroxide gels, the intraduction of an electrolyte dramatically decreases the equilibration rate.     

Destructive adsorption of CCl4 over lanthanum-based solids: linking activity to acid-base properties

The relative activities of a low-surface crystalline and high-surface amorphous LaOCl, further denoted as S1 and S2, have been compared for the destructive adsorption of CCl4. It was found that the intrinsic activity of S2 is higher than that of S1. Both samples were characterized with X-ray diffraction (XRD), X-ray photoelectron spectroscopy (XPS), N2-physisorption, and Raman and infrared (IR) spectroscopy. IR was used in combination with CO2, CO, and methanol as probe molecules. The CO2 experiments showed that different carbonate species are formed on both materials. For S1, a high surface concentration of bidentate carbonate species and a lower concentration of monodentate carbonate were observed. In the case of S2, bulk carbonates were present together with bridged carbonates. CO adsorption shows that S2 and S1 have very similar Lewis acid sites. However, methanol adsorption experiments showed that S2 had a higher number of stronger Lewis acid sites than S1 and that twofold coordinated methoxy species were more strongly bound than threefold coordinated methoxy species. Because of the analogy between methanol dissociation and the removal of the first chlorine atom in the destructive adsorption of CCl4, the sites enabling twofold coordination were likely to be the same Lewis acid sites actively involved in the destructive adsorption of CCl4. La2O3 was less active than the two LaOCl materials, and therefore, the intrinsic activity of the catalyst increases as the strength of the Lewis acid sites increases. S2 contains more chlorine at the surface than S1, which is expressed by the higher number of sites enabling twofold coordination. Moreover, this explains the difference in destructive adsorption capacity for CCl4 that was observed for the samples S1 and S2. Since LaCl3, being the most acidic phase, is not active for the destructive adsorption of CCl4, basic oxygen atoms, however, remain needed to stabilize the reaction intermediate CCl3 as La-O-CCl3.     

A comparative DFT study of Fe3+ and Fe2+ ions adsorption on (100) and (110) surfaces of pyrite: An electrochemical point of view

Pyrite acts as a catalyst in the mineral processing, and the speed of ferric ion reduction and mineral decomposition increases with increasing cathodic points. In this study, the ferric ion interaction on the (100) and (110) surfaces of pyrite was studied using the density functional theory calculations. The analysis of stability, density of states, and electron density were performed to understand the interaction between the ferric ion and pyrite surfaces. The results showed that pyrite surface is chemically active and tends to absorb ferric ion between two surface sulfur atoms. The hyperconjugation between the 3d orbital of ferric ion and the 3p or 3d orbitals of surface atoms provides the conditions for the Fe³⁺ ion adsorption. The molecular orbital (MO) and electron density analyses indicate that the 3p orbitals of S atoms play a more important role in bonds formations relative to the 3d orbitals. The (110) surface is more active, and the adsorption energy is larger than that of surface (100), which is the result of decreased cation coordination and the presence of sulfur at the surface. Subsequently, the interaction of the Fe²⁺ ion, as product of Fe³⁺ ion reduction and its competitor for adsorption, on the surfaces was studied. The Fe^{2 +} ion adsorbs stronger at the surface of (110), and the adsorption energies at (100) and (110) surfaces were obtained as −24 and −47 kcal/mol, respectively. In general, the Fe³⁺ ion is a stronger oxidizing agent than Fe²⁺ on pyrite surfaces.     

纳米钛酸钙粉体的制备及其对水中铅和镉的吸附行为

采用柠檬酸络合溶胶-凝胶法制备了纳米钛酸钙粉体. 以X射线衍射(XRD)、透射电子显微镜(TEM)和傅立叶变换红外光谱(FTIR)对其进行了表征. 考察了该纳米粉体对水中重金属铅和镉的吸附性能, 并以镉离子为例, 系统地研究了吸附热力学和动力学. 结果表明, 该法合成的钛酸钙为钙钛矿结构的纳米粉体, 粒径大小受灼烧温度的影响, 灼烧温度越高, 粉体平均粒径越大, 600 ℃灼烧2 h条件下, 粉体的平均粒径最小, 约为20 nm. 当介质的pH值为4～8时, 钛酸钙对水中的铅和镉具有很强的吸附能力. 其对镉离子的吸附行为符合Langmuir 吸附等温模型和HO准二级动力学方程式, 吸附过程焓变(ΔH)为39.312 kJ&#8226;mol－1, 各温度下的自由能变(ΔG)均小于零, 熵变(ΔS)均为正值, 吸附过程的活化能(Ea)为20.359 kJ&#8226;mol－1. 该吸附过程是自发的吸热物理过程. 被吸附的铅和镉均可用1 mol&#8226;L－1的硝酸完全洗脱回收. 对铅和镉的富集因子均超过200. 将其应用于水中痕量铅和镉的吸附富集和测定, 回收率分别为96.3%～107.2%和93.5%～104.0%, 与石墨炉原子吸收光谱法测定结果一致.     

Relations between structure, acidity, and activity of WOx/TiO2: influence of the initial state of the support, titanium oxyhydroxide, or titanium oxide

Two series of WO(x)/TiO(2) catalysts, containing W surface densities up to 4.4 W atoms/nm(2), were prepared by pore volume impregnation of two different supports, titanium oxyhydroxide (amorphous) or titanium oxide (crystallized, 100% anatase). The influence of W surface density and the nature of the support on the surface structure, development of the acidity, and catalytic performances were examined. The texture and structure of the catalysts were investigated by Brunauer-Emmett-Teller measurements, X-ray diffraction (XRD), and Raman and infrared spectroscopy. The catalytic activity was tested for 2-propanol dehydration and n-hexane isomerization. For catalysts obtained by impregnation of titanium oxide, XRD and Raman results showed that W was present as a surface phase. Infrared spectra indicated an increase in the degree of polymerization of W species with increasing W surface density. CO and lutidine adsorption, followed by infrared spectroscopy, showed an increase in the strength and abundance of Br?nsted acid sites (measured after lutidine desorption at 573 K) with the W surface density above a threshold of 1.3 W atoms/nm(2). The development of Br?nsted acidity correlated with the evolution of the infrared bands attributed to polymerized W species. A direct relationship was observed between the concentration of Br?nsted acid sites and the catalytic activity for 2-propanol dehydration. Catalytic activity, for n-hexane isomerization, appears to be associated with the presence of highly condensed W species. The catalysts synthesized by impregnation of titanium oxyhydroxide exhibited a comparable behavior. Hence, for a given W surface density, the W surface structure, concentration of Br?nsted acid sites, and catalytic performances were similar. Thus, no significant effect of the initial form of the support (titanium oxyhydroxide versus titanium oxide; 100% anatase) was evidenced.     

Heterocoagulation

The stability of mixed dispersions containing a PVC latex and rod-likeΒ-FeOOH particles has been studied as a function of pH and the addition of various electrolytes. It was shown that the mixed system was dominated by the properties of the ferric oxyhydroxide, i. e. in most cases heteroflocculation took place under conditions which brought about destabilization of the pureΒ-FeOOH sol.