固相法制备掺杂型高色度CoxM1-xAl2O4/高岭土复合颜料

为了制备低成本、高色度的钴蓝颜料,本文以高岭土为载体,以Al₂O₃和Co₃O₄为主要原料,通过引入ZnO、CaO及MgO不同金属氧化物,采用固相法制备了高色度(Co_xM_1-xAl₂O₄)/高岭土复合颜料(M为Ca²⁺、Mg²⁺或Zn²⁺)。系统考察了研磨时间、煅烧温度、煅烧时间和不同金属氧化物掺量对复合颜料呈色性能的影响规律。研究表明,在煅烧温度1 200 ℃、研磨时间12 h和n(Co²⁺)/n(M²⁺)为3:2时,制得的复合颜料具有最好的呈色性能(L^*=53.68,a^*=7.58,b^*=-62.89)。同时,引入不同的金属元素,可实现对复合颜料颜色的调控,引入Ca²⁺后,所制备的Co_xCa_1-xAl₂O₄复合颜料偏红相,而引入Zn²⁺后,所制备的Co_xZn_1-xAl₂O₄复合颜料偏绿相。通过相关表征,提出了复合颜料的呈色机理,在颜料制备过程中,引入与Co²⁺离子半径接近的Mg²⁺或Zn²⁺,Mg²⁺或Zn²⁺可进入CoAl₂O₄的四面体配位中,部分替代Co²⁺,形成MgAl₂O₄-CoAl₂O₄或ZnAl₂O₄-CoAl₂O₄的固溶体,而引入离子半径较大的Ca²⁺,形成CaAl₂O₄和CoAl₂O₄的均相混合物。最后,将制得复合颜料应用到有机硅耐热涂料中,可以明显提高有机硅涂料的热稳定性。     

Highly efficient and selective membrane transport of silver(I) using hexathia-18-crown-6 as a specific ion carrier

Hexathia-18-crown-6 (HT18C6) was used as a specific ion carrier for the transport of silver ion through a chloroform bulk liquid membrane. In the presence of thiosulfate ion as a suitable stripping agent in the receiving phase, the amount of silver transported across the liquid membrane after 60 min is 99.5±1.0%. The selectivity of Ag⁺ transport from the aqueous solutions containing other Mⁿ⁺ cations such as Tl⁺, Mg²⁺, Ca²⁺, Mn²⁺, Co²⁺, Ni²⁺, Cu²⁺, Zn²⁺, Cd²⁺, Pb²⁺, Hg²⁺, and Cr³⁺ ions was investigated. Except with Hg²⁺ ion, non of the cations used interfere the silver transport, even at a Mⁿ⁺/Ag⁺ molar ratio of 500. The interfering effect of Hg²⁺ ion was successfully eliminated in the presence of EDTA at pH 5.     

Zn2+、Ca2+和Mn2+对丙酮丁醇发酵的协同影响

在丙酮丁醇发酵中共同添加0.001g/L ZnSO₄·7H₂O和4.0g/L CaCO₃时,丁醇及总溶剂产量达到14.41g/L和23.69g/L,发酵终点乙酸和丁酸浓度为2.33g/L和1.02g/L。当共同添加0.001g/L ZnSO₄·7H₂O、4.0g/L CaCO₃和0.8g/L MnSO₄·H₂O时,丁醇的比生成速率为0.48g/(g·h),相对于共同添加Zn²⁺和Ca²⁺条件下的丁醇比生成速率0.23g/(g·h)提高了108.69%,而发酵终点乙酸和丁酸浓度分别为1.99g/L和0.54g/L,同比分别降低了14.59%和47.06%。Zn²⁺、Ca²⁺和Mn²⁺ 3种金属离子对丙酮丁醇发酵具有正向协同调控作用。     

Selective removal of iron(III) from highly salted chloride acidic solutions by solvent extraction using di(2-ethylhexyl) phosphate

Metal ions including Fe³⁺, Ca²⁺, Mg²⁺, Ni²⁺, Co²⁺ and Cu²⁺ are commonly found in the leaching solution of laterite-nickel ores, and the pre-removal of Fe³⁺ is extremely important for the recovery of nickel and cobalt. Di(2-ethylhexyl)phosphate acid (D2EHPA) showed high extraction rate and selectivity of Fe³⁺ over other metal ions. The acidity of the aqueous solution is crucial to the extraction of Fe³⁺, and the stoichiometry ratio between Fe³⁺ and the extractant is 0.86:1.54. The enthalpy for the extraction of Fe³⁺ using D2EHPA was 19.50 kJ/mol. The extraction of Fe³⁺ was ≥99% under the optimized conditions after a three-stage solvent extraction process. The iron stripping effects of different reagents showed an order of H₂C₂O₄>NH₄HCO₃>HCl>NaCl>NaHCO₃>Na₂SO₃. The stripping of Fe was ≥99% under the optimized conditions using H₂C₂O₄ as a stripping reagent.     

均三嗪衍生物比色识别Cu2+及荧光识别Zn2+

以对氨基苯腈、邻叔丁基苯酚和3,5-二叔丁基水杨醛为原料合成了两种含有均三嗪对称结构的离子探针1和2,通过核磁共振氢谱、核磁共振碳谱、红外、质谱对合成产物进行表征,确认其结构。利用紫外吸收光谱和荧光光谱两种手段分别考察了探针1和探针2在N,N-二甲基甲酰胺（DMF）溶液中对金属离子（Cr³⁺、Mn²⁺、Fe³⁺、Co²⁺、Ni²⁺、Cu²⁺、Zn²⁺、Cd²⁺、Hg²⁺）的识别性能,通过核磁共振氢谱对探针1与Zn²⁺的识别机理进行研究。结果表明,两种探针热稳定性强,探针1溶液中加入Zn²⁺会引起荧光强度的显著增强,抗干扰性强,是一种高选择性识别Zn²⁺的荧光增强型探针;探针2中加入Cu²⁺后溶液由无色变成黄色,紫外光谱长波长处出现新吸收峰,是一种可裸眼识别的、高效的紫外Cu²⁺探针。     

废弃虾壳制备改性甲壳素凝胶球及其对金属离子的吸附性能

以虾壳酶解残渣为原料,经5%盐酸脱钙处理4 h后,用45%氢氧化钠和460 W微波辅助脱乙酰处理10 min,得到脱乙酰度为40.4%的改性甲壳素。将改性甲壳素加入海藻酸钠水溶液中混合均匀,挤压滴入氯化钙水溶液中固化12 h,制备得到直径为1.5~3.2 mm的凝胶小球,研究了该凝胶球对Pb²⁺、Cr³⁺、Ni²⁺、Cu²⁺、Co²⁺和Zn²⁺的吸附效果。结果表明：凝胶球对Cu²⁺、Co²⁺和Zn²⁺的吸附效果最好,300 mg/L重金属离子溶液吸附处理8 h是较适宜的吸附条件,此条件下,Cu²⁺、Co²⁺和Zn²⁺的吸附率分别达到94.2%、75.6%和57.3%。在Cu²⁺-Co²⁺-Zn²⁺共存溶液体系中,凝胶球对3种离子的吸附率均有所提高,Cu²⁺、Co²⁺和Zn²⁺的吸附率分别为95.1%、82.5%和67.5%。     

麦羟基硅钠石的可控合成及其阳离子交换性能研究

目前,开发绿色高效的重金属吸附材料受到人们的广泛关注。以硅藻土为原料,经水热法选择性地制备了2类硅酸盐材料即麦羟基硅钠石和方沸石。吸附测试结果表明,麦羟基硅钠石层间的钠离子能够与锂离子、镁离子、锌离子、钴离子、镍离子、铜离子等进行阳离子交换且能保持层状母体框架的稳定性。以钴离子、镍离子为例深入研究其吸附动力学和吸附机制发现,钴离子和镍离子的嵌入分别将麦羟基硅钠石的层间距由本征的1.56 nm减小到0.24、0.23 nm;室温下,对钴离子、镍离子的最大吸附量分别可达45、39 mg/g,均符合Langmuir单层吸附模型;钠离子的置换量大约是吸附的钴离子、镍离子量的两倍,证实层间离子交换主导吸附化学过程。因此,麦羟基硅钠石材料在多金属硅酸盐功能材料的合成以及环境吸附净化领域具有较大的应用潜力。     

Computational spectroscopy and DFT investigations into nitrogen and oxygen bond breaking and bond making processes in model deNOx and deN2O reactions

Molecular DFT modeling combined with computational spectroscopy (EPR and IR) were applied for analysis of the NO bond breaking and NN and OO bond making in the context of deNO_x and deN₂O reactions. Interaction of NO, N₂O and NO₂ with cationic (transition metals) and anionic (surface O²⁻ ions) centers was explored at the molecular level. The elementary events such as reactant coordination, charge and spin redistributions, which are principal molecular constraints for efficient decomposition of the nitrogen oxides (N₂O and NO) were discussed. Particular attention was paid to dynamics of the NO bond cleavage in N₂O molecule through electron and oxygen atom transfer routes, evaluation of preferable coordination modes of NO, discrimination between inner- and outer-sphere mechanism of NN bond formation, and the influence of spin and electronic redistribution on the reaction course (spin catalysis). Owing to their simplicity and well known surface chemistry, model systems selected for studies of such processes include MoO_x/SiO₂, MgO and ZSM-5 zeolite exchanged with various transition metal ions (TMI) of different electron configuration and spin multiplicity: Mo⁵⁺ (d¹, ²D) Fe³⁺, Mn²⁺, Cr⁺ (d⁵, ⁶S), Fe²⁺ (d⁶, ⁵D), Co²⁺ (d⁷, ⁴F), Ni²⁺ (d⁸, ³F), Cu²⁺ (d⁹, ²D) and Cu⁺, Zn²⁺ (d¹⁰, ¹S).     

Characterization and photocatalytic activity of transition-metal-supported surface bond-conjugated TiO2/SiO2

TM/TiO₂/SiO₂ photocatalysts were prepared by the photodeposition method using transition metal salts (TM=Fe³⁺, Co²⁺, Ni²⁺ and Cu²⁺) as precursors and the surface bond-conjugated TiO₂/SiO₂ as supporter in N₂ atmosphere, and were characterized by XRD, XPS, UV-Vis diffuse reflection and zeta-potential. Their photocatalytic activities were evaluated using reactive brilliant red K-2G (K-2G) and cationic blue X-GRL (CBX) showing different adsorption behavior on the oxides. Fe, Cu supported TiO₂/SiO₂ can efficiently extend the light absorption to the visible region. XPS analysis verified that the introduction of transition metal lead to the changes of the electronic environmental of Ti cations and the zeta-potential of oxides. As a result, K-2G has higher adsorption on the modified TiO₂/SiO₂ than that on the baked one, while the adsorption of CBX has a little change on the both oxides. At the same time, for the photodegradation of K-2G, Fe³⁺, Co²⁺, Ni²⁺-modified catalysts show that their photoactivities are 3.3–2.2 times higher than the bare one. On the contrast, all transition-metal-supported catalysts have no significant activity improvement except that Fe/TiO₂/SiO₂ shows 1.68 times higher activity for the photodegradation of CBX. The results indicate that the photoactivity could be increased in photodegradation of dyes by changing the performances of adsorption to dyes and absorption to light of photocatalyst.     

Synthesis, ion exchange properties and applications of tin(IV) antimonoarsenate

Crystalline (c-SnSbAs) and amorphous (a-SnSbAs) samples of tin(IV) antimonoarsenate were prepared at different pH values from 0 to 5. Crystalline and amorphous samples, prepared at pH 1 having ion exchange capacities of 1.00 meq/g and 0.90 meq/g respectively, were selected for further studies. The materials show high thermal and chemical stability. Distribution coefficients (K_d values) for 22 metal ions have been determined in demineralised water. Structural studies based on IR, XRD, TGA, DTA are discussed. Some quantitative binary separations such as Mg²⁺–Mn²⁺, Cd²⁺–Mn²⁺, Ba²⁺–Mn²⁺ and Ni²⁺–Cu²⁺ were achieved on a-SnSbAs and ion selective electrodes prepared from c-SnSbAs are reported.     

The adsorption of coumarin at solid metal electrodes

The effect of coumarin on the “deposition potential” of a number of metals at solid metal surfaces has been compared with that at a dropping mercury electrode. These results have been used to interpret the adsorption of coumarin on different metal surfaces and to suggest that Tl⁺ and Pb²⁺ ions are specifically adsorbed on mercury and that Tl⁺, Co²⁺, Fe²⁺, Ni²⁺ and Zn²⁺ are specifically adsorbed on their parent metals.     

苯并噻唑基修饰的开链Cu2+比色探针的合成及性能

以N-苯基二乙醇胺和2-巯基苯并噻唑为原料通过亲核取代反应合成了一种新型的苯并噻唑基修饰的开链冠醚类化合物1,并用核磁共振氢谱, 核磁共振碳谱及元素分析方法对合成产物进行了表征。利用紫外光谱仪考察了化合物1与多种金属离子（Mn²⁺、Co²⁺、Cu²⁺、Zn²⁺、Ni²⁺ 、Fe³⁺、 Hg²⁺、Cr³⁺、Al³⁺）在乙腈溶液中的光谱变化,并探究了化合物1处理过的滤纸条在水溶液中对金属离子的识别效果,通过核磁共振氢谱讨论了化合物1与金属离子形成配合物的作用机理。实验发现,化合物1的乙腈溶液中添加Cu²⁺后溶液颜色变为棕色,明显区别于添加其他离子;在水溶液中,特制的滤纸条遇到Cu²⁺会呈现黄色,而遇其他离子均无颜色变化。结果表明,化合物1仅对Cu²⁺具有选择性,且能通过裸眼进行识别,是一种高效、简便的Cu²⁺探针。     

Amphiphilic polyelectrolyte networks derived from 2-oxazolines

Ionene graft copolymers and networks containing quaternary ammonium groups as linkages have been prepared by termination of living mono- and bifunctional poly(2-methyl-2-oxazoline) and poly(2-phenyl-2-oxazoline) with poly(dimethylaminoethyl methacrylate). Ionene networks of different density with p,p′-dichloroxylene and poly(2-alkyloxazoline)s as cross-linkers have been synthesized. The obtained graft and crosslinked copolymers are well defined and with controlled hydrophilic–hydrophobic balance. Viscosity examination and potentiometric titration of some of the products were carried out. Sorption ability towards Cu²⁺, Ni²⁺, Mn²⁺, Fe³⁺ and anion-exchange capacity were investigated as well. The pH dependence of the sorption of metal ions was evaluated.     

Density functional complexation study of metal ions with poly(carboxylic acid) ligands. Part 1. Poly(acrylic acid) and poly(α-hydroxy acrylic acid)

We have studied metal ion complexation with poly(carboxylic acid) ligands using density functional methods and a continuum-solvation model (COSMO). Geometry optimisations have been carried out for metal complexes of poly(acrylic acid-co-maleic acid), poly(methyl vinyl ether-co-maleic acid), and poly(epoxy succinic acid) oligomers. The complexation energies for Mg²⁺, Ca²⁺, Mn²⁺, and Fe³⁺ have been calculated and they have been corrected with previously determined metal specific correction parameters. The most effective ligand for all the metal ions was found to be poly(epoxy succinic acid). With Ca²⁺, poly(epoxy succinic acid) was found to form 6-coordinated complex with three metal-coordinating carboxylate oxygen, two ether oxygens, and one hydroxyl oxygen atom. All the other metals favoured 5-coordinated complexation geometry with four metal-coordinating carboxyl oxygens and one ether oxygen atom.     

不锈钢老化着色液预还原草酸沉淀除杂过程研究

为实现不锈钢老化着色液杂质离子的分离与回收,采用预还原-草酸沉淀法对老化液中铁、镍、锰沉淀除杂过程进行研究。通过溶液化学计算及条件优化实验,考察铁、镍、锰离子沉淀效率,并使用X射线衍射仪、扫描电子显微镜、X射线光电子能谱仪对草酸沉淀物进行物相及形貌结构的表征。结果表明,通过控制溶液pH及草酸用量可有效实现溶液中铁离子、锰离子、镍离子与草酸根络合,形成草酸盐沉淀,实现杂质离子与溶液铬离子分离,杂质离子沉淀顺序依次为锰离子、镍离子、铁离子。老化液预还原后,在草酸过量系数为1.2、溶液pH为2、反应温度为25℃的条件下沉淀反应2 h,铁、锰、镍离子沉淀率分别可达98.12%、99.35%、87.26%,沉淀物主要为二水草酸亚铁及少量草酸镍、草酸锰。     

退役锂电池有价金属湿化学分离技术研究进展

随着锂离子电池行业的快速发展,废旧锂离子电池数量将呈现爆炸式增长趋势,从废旧锂离子电池中资源化回收有价金属对经济和环境都具有显著意义。为了实现废旧锂电池过程中各种有价金属（锂、钴、镍、锰等）高效无害化分离回收,针对各种金属离子的湿化学分离技术进行系统性总结,介绍了各类技术在浸出液中金属离子分离的应用工艺和发展现状,主要包括化学沉淀法、溶剂萃取法、吸附分离法、膜分离法和电沉积分离法等。分析了废旧锂电池有价金属分离过程中各类技术优缺点、关键性问题和发展趋势,表明当前分离技术关键点在于有价金属性质相似导致提纯困难、分离试剂昂贵导致工艺成本加大等,各种分离技术发展趋势在于开发新型低成本、环境友好的分离技术。     

Protein-derived nitrogen and sulfur co-doped carbon for efficient adsorptive removal of heavy metals

A nitrogen and sulfur co-doped carbon has been synthesized employing egg white as a sustainable protein-rich precursor. According to CHNS elemental analysis, N, S and O heteroatoms accounted for mass fractions of 3.66%, 2.28% and 19.29% respectively, and the types of surface functionalities were further characterized by FT-IR and XPS measurements. Although the carbon possessed a smaller surface area (815 m²·g^-1) compared to a commercial activated carbon (1100 m²·g^-1), its adsorption capacity towards Co²⁺ reached 320.3 mg·g^-1, which was over 8 times higher compared to the limited 34.0 mg·g^-1 over the activate carbon. Furthermore, the carbon was found to be an efficient adsorbent towards a series of metal ions including VO²⁺, Cr³⁺, Ni²⁺, Cu²⁺ and Cd²⁺. Combined with its environmental merits, the protein derived carbon may be a promising candidate for heavy metal pollution control.     

Electrical resistivity of transition metal ion doped Mullite

The electrical resistivity of pure mullite (3Al₂O₃.2SiO₂) varies from 10¹³ ohm-cm at room temperature (r.t.) to 10⁴ ohm-cm at 1400 °C. It was observed that by doping mullite with the 3d-type transition metal ions, e.g. Mn, Fe, Cr and Ti, the resistivity of mullite could be reduced to 10¹¹ ohm-cm, i.e. 1/100 that at r.t. and 1/5 that at 1400 °C. The resistivity of doped and undoped mullite decreased by 6–5 orders at about 500–600 °C but 4–3 orders between this temperature and 1400 °C. The 3d orbital electrons, the oxidation states and the concentration of the transition metal ions as well as the sites of mullite lattice occupied by the ions were found responsible for lowering of resistivity of mullite. Evidence of the presence of Mn²⁺, Mn³⁺, Fe³⁺, Cr³⁺ and Ti⁴⁺ ions in mullite had been obtained which entered the octahedral site. The Ti⁴⁺ ion which substituted Al³⁺ ion in the octahedral site of mullite structure appeared to be the most efficient one to reduce the resistivity. This has been confirmed by the results of activation energy of resistivity/band gap energy, Eg which was the lowest for mullite doped with 1·0 wt% Ti⁴⁺ ion. At 1·0 wt% concentration level, these ions lowered the resistivity of mullite to minimum.     

Nanosized perovskite-type oxides La1−xSrxMO3−δ (M = Co, Mn; x = 0, 0.4) for the catalytic removal of ethylacetate

Nanometer perovskite-type oxides La_1−xSr_xMO_3−δ (M = Co, Mn; x = 0, 0.4) have been prepared using the citric acid complexing-hydrothermal-coupled method and characterized by means of techniques, such as X-ray diffraction (XRD), BET, high-resolution scanning electron microscopy (HRSEM), X-ray photoelectron spectroscopy (XPS), temperature-programmed desorption (TPD), and temperature-programmed reduction (TPR). The catalytic performance of these nanoperovskites in the combustion of ethylacetate (EA) has also been evaluated. The XRD results indicate that all the samples possessed single-phase rhombohedral crystal structures. The surface areas of these nanomaterials ranged from 20 to 33 m² g⁻¹, the achievement of such high surface areas are due to the uniform morphology with the typical particle size of 40–80 nm (as can be clearly seen in their HRSEM images) that were derived with the citric acid complexing-hydrothermally coupled strategy. The XPS results demonstrate the presence of Mn⁴⁺ and Mn³⁺ in La_1−xSr_xMnO_3−δ and Co³⁺ and Co²⁺ in La_1−xSr_xCoO_3−δ, Sr substitution induced the rises in Mn⁴⁺ and Co³⁺ concentrations; adsorbed oxygen species (O⁻, O₂⁻, or O₂²⁻) were detected on the catalyst surfaces. The O₂-TPD profiles indicate that Sr doping increased desorption of the adsorbed oxygen and lattice oxygen species at low temperatures. The H₂-TPR results reveal that the nanoperovskite catalysts could be reduced at much lower temperatures (<240 °C) after Sr doping. It is observed that under the conditions of EA concentration = 1000 ppm, EA/oxygen molar ratio = 1/400, and space velocity = 20,000 h⁻¹, the catalytic activity (as reflected by the temperature (T_100%) for EA complete conversion) increased in the order of LaCoO_2.91 (T_100% = 230 °C) ≈ LaMnO_3.12 (T_100% = 235 °C) < La_0.6Sr_0.4MnO_3.02 (T_100% = 190 °C) < La_0.6Sr_0.4CoO_2.78 (T_100% = 175 °C); furthermore, there were no formation of partially oxidized by-products over these catalysts. Based on the above results, we conclude that the excellent catalytic performance is associated with the high surface areas, good redox properties (derived from higher Mn⁴⁺/Mn³⁺ and Co³⁺/Co²⁺ ratios), and rich lattice defects of the nanostructured La_1−xSr_xMO_3−δ materials.     

Stellerite-seeded facile synthesis of zeolite X with excellent aqueous Cd2+ and Ni2+ adsorption performance

Zeolite X was synthesized by a two-step hydrothermal method using natural stellerite zeolite as the silicon seed, and its adsorption performance for Cd²⁺ and Ni²⁺ ions was experimentally and comprehensively investigated. The effects of pH, zeolite X dosage, contact time, and temperature on adsorption performance for Cd²⁺ and Ni²⁺ ions over were studied. The adsorption process was endothermic and spontaneous, and followed the pseudo-second-order kinetic and the Langmuir isotherm models. The maximum adsorption capacitiesfor Cd²⁺ and Ni²⁺ ions at 298 K were 173.553 and 75.897 mg·g^-1, respectively. Ion exchange and precipitation were the principal mechanisms for the removal of Cd²⁺ ions from aqueous solutions by zeolite X, followed by electrostatic adsorption. Ion exchange was the principal mechanisms for the removal of Ni²⁺ ions from aqueous solutions by zeolite X, followed by electrostatic adsorption and precipitation. The zeolite X converted from stellerite zeolite has a low n(Si/Al), abundant hydroxyl groups, and high crystallinity and purity, imparting a good adsorption performance for Cd²⁺ and Ni²⁺ ions. This study suggests that zeolite X converted from stellerite zeolite could be a useful environmentally-friendly and effective tool for the removal of Cd²⁺ and Ni²⁺ ions from aqueous solutions.