纳米钒氧化物的制备和机理研究进展

钒氧化物由于其特殊的层状结构和接近室温下的热致相变性质,其纳米结构材料在电化学、催化、光信息存储、光致变色等领域的应用受到越来越多的关注。本文总结了不同维度(包括零维、一维和二维)钒氧化物纳米材料的主要制备方法(水热-溶剂热法、溶胶-凝胶法、反应溅射法等)及其形成机理,并对今后的研究工作进行了展望。     

羟基氧化铁/膨胀石墨复合材料的制备及除砷机制

以膨胀石墨为载体材料,采用改进后的综合法制备的羟基氧化铁（FeOOH）为改性材料,在酸性及超声波振荡的条件下对膨胀石墨进行表面接枝,制得羟基氧化铁/膨胀石墨复合材料,并对材料进行扫描电子显微镜（SEM）、X射线衍射（XRD）、傅里叶变换红外光谱（FTIR）和X射线光电子能谱（XPS）表征,随后测试了其除砷性能,并探讨了反应机理.实验结果表明,复合材料中羟基氧化铁通过氢键与化学键均匀负载在了膨胀石墨表面,为亚微米级球状;使用0.5 g复合材料处理50 mL浓度为0.5 mg/L的模拟含砷废水,90 min后去除率可达到99%,且经过处理可以使废水中的砷浓度达到饮用标准;载铁量越高,材料的除砷性能越好,当载铁量达到55%时,使用0.5 g复合材料处理50 mL浓度为2.0 mg/L的模拟含砷废水,1 h后去除率达到72.6%,是普通膨胀石墨的3倍;该除砷过程由解离的羟基氧化铁与砷在复合材料附近完成,符合二级动力学方程和Temkin等温吸附模型.     

单一金属氧化物同时催化去除碳颗粒和NOx

制备了系列金属氧化物催化剂, 研究了富氧条件下单一金属氧化物同时催化去除碳颗粒和NOx的活性, 考察了碳颗粒与催化剂之间的接触方式对催化活性的影响, 并分析了碳颗粒和NOx催化同时去除的路径. 结果表明, Cr、Mn、Co和Ni金属氧化物催化剂对碳颗粒和NOx同时去除具有较高的催化活性, 并且在催化剂与碳颗粒之间“松散接触”方式下依然具有较高的活性; 其同时催化去除碳颗粒和NOx的路径为, 催化剂催化NO氧化成NO2, NO2促进碳颗粒氧化去除, 而碳颗粒氧化的中间物CO还原NO, 促进NOx还原去除.     

A Simple Approach for Removal of Carbaryl and Its Monitoring in Water Matrices

Abstract

Carbaryl, 1-napthyl N-methyl carbamate, is an extremely, broad spectrum, contact action insecticide having wide acceptance because of its low mammalian toxicity and less persistent nature. Because Carbaryl is widely used in monsoon season, it finds its way into aquatic environment.

The feasibility of Carbaryl removal by alum coagulation, was checked and found to be suitable for 98% removal of Carbaryl along with efficient turbidity removal in water matrices. The low level monitoring of Carbaryl was performed by spectroscopic technique.     

纯水中氧化石墨烯的超声裁剪及机理研究

采用超声在纯水中对氧化石墨烯(GO)进行裁剪, 研究了超声时间对GO片层尺寸、 官能团种类和含量的影响, 探讨了超声裁剪GO的机理. 用原子力显微镜(AFM)和透射电子显微镜(TEM)对产物进行观测, 结果表明, 随着超声时间延长, GO片层平均直径从2000 nm减小至200 nm. 红外光谱(FTIR)、 X射线光电子能谱(XPS)及热分析结果表明, 随着超声时间延长, GO的含氧官能团种类没有变化, 但是GO含氧官能团总量逐渐升高, 其中环氧基团含量逐渐下降, 羧酸基团含量变化不大, 酮基基团含量先下降后升高, 羟基基团含量先升高后下降, 醚氧基团含量逐渐升高. 基于上述结果, 提出了超声裁剪GO的机理: 超声空化现象形成的剪切力使GO的碳碳键、 环氧、 酮基基团断裂, GO片层尺寸变小; 在超声诱导下水分子形成的羟基自由基和氢自由基与片层上断裂形成的碳自由基结合生成羟基或醚氧基团, 未发生水解的碳自由基形成新的碳碳键, 长时间的超声作用还会使羟基基团发生断裂并转化成酮基基团. 利用超声在纯水中裁剪GO的条件温和, 不使用其它化学试剂, 可以有效控制GO片层尺寸, 是一种具有应用前景的二维材料裁剪技术.     

Phosphorus Co-Existing in Water: A New Mechanism to Boost Boron Removal by Calcined Oyster Shell Powder

The removal of boron (B) from water by co-precipitation with hydroxyapatite (HAP) has been extensively studied due to its low cost, ease of use and high efficiency. However, there is no explicit mechanism to express how resolved B was trapped by HAP. Thus, in this work, the process of removing B from water was studied using a low-cost calcium (Ca) precipitation agent derived from used waste oyster shells. The results showed that the removal rate of B in the simulated wastewater by calcined oyster shell (COS) in the presence of phosphorus (P) is up to more than 90%, as opposed to virtually no removal without phosphate. For B removal, the treated water needs to be an alkaline solution with a high pH above 12, where B is removed as [CaB(OH)₄]⁺ but is not molecular. Finally, the synergistic mechanism of co-precipitation between HAP and dissolved B, occlusion co-precipitation, was explained in detail. The proposed method discovered the relationship between Ca, P and B, and was aimed at removing B without secondary pollution through co-precipitation.     

NOx在固体电解质电解池上的电化学消除

 综述了近年来利用固体电解质电解池消除NO的研究进展．重点总结了电化学消除NO研究体系、电化学消除NO分解机制、O2－在固体电解质电解池中传导的控速步骤、电极种类和形态对NO分解性能的影响以及直流与交流电作用的差异等几个方面的研究结果．在RuO2—Ag—YSZ—Pd电解池上实现的NO选择性分解是迄今为止的最佳结果，500℃下NO的转化率为31．8％，NO的分解活性是O2的分解活性的13倍．该领域今后研究的主要方向是，进一步提高NO分解相对于共存O2离子化的选择性、降低O2－在阴极界面处的传导阻力和探寻可在更低温度传导O2－的新的固体电解质     

Preparation of Wastewater Phosphorus Removal Materials by Dry FGD Ash Produced from Iron Industry

<正>Dry FGD (Flue Gas Desulfurization) ash produced from iron industry is used as the main raw material to prepare recyclable wastewater phosphorus removal materials through non-burned process. By testing various formulae and preparation conditions, this paper discusses the different results of phosphorus removal efficiency of the samples to figure out which is the best formula. Spectrophotometric determination with phosphor molybdenum blue is used to determine the phosphorus concentration. Flexural strength and porosity are determined correspondingly as well. By applying SEM and EDS techniques, the microstructure change of the sample is characterized after phosphorus removal. The best formula is that prepared by using 84wt% of FGD ash and 16wt% of cement. The flexural strength of the sample is 12.15 MPa, and the porosity is 20.5%. Microstructure analysis indicates that phosphate adsorption occurs mainly on the surface of the material.     

银盐分光光度法测定水和废水中的元素磷

本文拟定一种新的分光光度法分析水或废水中的元素磷(黄磷)。水中元素磷经有机溶剂萃取后,与硝酸银溶液反应,生成亮黄色溶液,直接进行分光光度测定。检测下限0.01μg黄磷;相对标准偏差0％～8％;回收率88％～100％。方法简单、快速、选择性好、精密度和准确度高,无毒,安全。     

氧化铜纳米晶的合成及性能研究

通过水热方法,合成出CuO纳米片,类纳米花等纳米结构,X光衍射表明样品为单斜CuO,透射电镜和高分辨透射电镜表征了样品的形貌和尺寸,观察到CuO纳米晶是由小的晶粒聚集而成的多晶结构。同时讨论了实验中各实验参数在合成CuO纳米晶时所起的作用： KOH具有促进CuO结晶的作用;十六烷基三甲基溴化铵可以控制反应产物尺寸;柠檬酸钠能够影响纳米粒子的排布规则程度,从而进一步影响CuO纳米晶的形貌和尺寸。另外我们还研究了CuO纳米片的光学性能和氮气吸附性质。     

Synthesis of Hydrotalcite from Seawater and Its Application to Phosphorus Removal

10.0 wt% milk of lime was added to seawater containing AlCl 3 at Mg/Al molar ratio of 3.0 until pH 10.5 with stirring, and kept at 25;C for 1 h. Hydrotalcite (HT) was precipitated as a single phase, and Mg 2+ and Al 3+ were quantitatively precipitated. The chemical composition was [Mg 0.75 Al 0.25 (OH) 2 ][(SO 4 ) 0.06 (Cl) 0.02 (OH) 0.11 *];0.27H 2 O* (*Balance). A 100 mg-P/L Na 2 HPO 4 solution and the HT were shaken at 25;C. Phosphate removal increased with increasing time and the HT quantity, and was the highest at pH 7-9. Phosphate ion could be quantitatively removed, adding 8 times the stoichiometric quantity of the HT at pH 8.7 for 6 h.     

亚临界水条件下煤中汞的脱除

运用半连续反应装置对山西吴家坪煤中汞在亚临界水中的脱除规律进行了研究。考察了反应温度为290 ℃、320 ℃ 、350 ℃、 380 ℃，反应压力为5 MPa、10 MPa、15 MPa,萃取时间为10 min、30 min、60 min、100 min时对汞脱除率的影响。结果表明，在290 ℃～380 ℃，随着温度升高，汞脱除率明显增加；在5 MPa～15 MPa，压力越大，汞的脱除率也越大；在10 min～100 min，随着萃取时间的延长，汞脱除率增加；在380 ℃, 15 MPa, 1 h，汞的脱除率最大可达96％以上。     

氧化亚铜微米晶的制备及形成机制

通过水热的方法合成出了六角星形的Cu2O微米晶,这一六角星形貌是腐蚀八面体的六个{111}面形成的,我们讨论了反应中的各个实验条件对产物形貌和成分的影响,发现浓度对产物的形貌有重要的影响,只有反应物的浓度低于一定的值时,才会形成八面体,随着反应物浓度的增加,产物的形貌会由八面体逐渐转变成了球形;氨水对产物的形貌有一定的影响,柠檬酸钠在反应中既是还原剂,又作为表面活性剂对产物的形貌有重要的影响,对形成六角星形Cu2O过程中对八面体表面的腐蚀是氨水和柠檬酸钠共同的作用。     

电化学沉淀法去除氨氮和总磷效能研究

以氮磷模拟废水为研究对象,以镁板、不锈钢分别作为阳极和阴极构建电化学沉淀反应装置,研究了氮磷比、电流密度、初始pH和Cl-浓度对氨氮和总磷去除效果的影响。实验结果表明:减小氮磷比能增大氨氮去除率,降低总磷去除率;氨氮和总磷去除速率均随电流密度的增加而增大;初始pH为酸性条件时更利于氨氮和总磷的去除;增加Cl-浓度能提高氨氮去除率但对总磷去除效果影响较小。当氮磷比为1∶3、电流密度为40 mA/cm~2、初始pH=3、Cl-浓度为5 000 mg/L,反应时间为20 min时,氨氮和总磷去除率分别达到83.28%和98.38%,对应的能耗分别为21.88 kWh/kg NH_3-N和5.74 kWh/kgTP。电化学沉淀法去除氨氮和总磷主要是通过生成磷酸铵镁和磷酸镁等沉淀物的形式而实现。     

环氧乙烷环氧丙烷共聚醚的研究进展

综述了环氧乙烷环氧丙烷共聚醚的聚合机理聚合工艺及其应用.环氧乙烷环氧丙烷共聚醚的聚合按其催化剂体系的机理可以分为阴离子聚合、阳离子聚合和配位聚合三类,其中阳离子聚合应用较少.在环氧乙烷和环氧丙烷开环聚合生成共聚醚的反应中,不同的反应工艺条件对生成的聚醚有着很大的影响.同样比例的环氧乙烷和环氧丙烷,因聚合反应器设计、反应器种类、起使剂种类催化剂种类与用量温度加料方式端基结构等的不同,所合成的共聚醚会产生不同的结构和性能.环氧乙烷环氧丙烷共聚形成的聚醚可以分为嵌段共聚醚和无规共聚醚两类.其中,嵌段共聚醚可以分为EPE和PEP两类.     

Biological Effects of Black Phosphorus Nanomaterials on Mammalian Cells and Animals

The remarkable progress of applied black phosphorus nanomaterials (BPNMs) is attributed to BP's outstanding properties. Due to its potential for applications, environmental release and subsequent human exposure are virtually inevitable. Therefore, how BPNMs impact biological systems and human health needs to be considered. In this comprehensive Minireview, the most recent advancements in understanding the mechanisms and regulation factors of BPNMs’ endogenous toxicity to mammalian systems are presented. These achievements lay the groundwork for an understanding of its biological effects, aimed towards establishing regulatory principles to minimize the adverse health impacts.     

壳聚糖及其复合物对水中汞离子的脱除

由于汞的物理化学性质和对人体的毒副作用,汞减排已成为全球共识。当前除汞方法中,吸附法为一种较有潜力的方法。壳聚糖是一种天然的汞离子（Hg²⁺）吸附剂,以物理、化学手段改性后的衍生物更具有对环境中的汞吸附容量大,吸附效率高的优点。本文综述了壳聚糖及其衍生物脱除溶液中Hg²⁺的研究近况,介绍了壳聚糖物理（冷冻干燥、静电纺丝等）、化学修饰手段（交联和接枝等）以及与新型碳材料（碳纳米管、氧化石墨烯等）复合脱汞的最新研究,分析了壳聚糖及其复合物对水中Hg²⁺的去除效果和影响因素。最后,对壳聚糖吸附剂在汞污染治理中的研究作了展望。     

Evaluation of a Renewable Resource-based Carbon-Iron Oxide Nanocomposite for Removal of Arsenic from Contaminated Water

High arsenic concentration in groundwater is found in many countries, including Bangladesh, India, Vietnam, Thailand and United States. In these countries, the arsenic concentrations have reached dangerous levels for human consumption, especially where the main source of drinking water is from groundwater. Many techniques have been developed for arsenic removal, one being the use of iron oxide or magnetite nanoparticles for heavy metal removal. In this study, a novel tannin-based carbon-iron oxide composite has been developed by us for arsenic removal and results show that a concentration of 100 ppb As in water could be brought down to <10 ppb with the maximum capacity of the arsenic removal calculated to be 1.5 mg As/g Fe in the nanocomposite. The characterization of the nanocomposite and the advantages of using this renewable resource-based nanocomposite are also discussed.