乳液界面法制备ZnCl_(2)/NH_(2)-MIL-125(Ti)复合材料增强光催化还原Cr(Ⅵ)的研究

利用乳液界面法制备的复合材料在增强光催化活性方面具有显著优势。通过乳液界面法制备了ZnCl_(2)/NH_(2)-MIL-125(Ti)复合光催化材料,利用X射线粉末衍射、傅里叶变换红外光谱、扫描电子显微镜、X射线光电子能谱、比表面积及孔隙分析、紫外-可见漫反射光谱等分析方法对催化剂结构进行了表征,考察了复合材料光催化还原六价铬(Cr(Ⅵ))的性能,探讨了光催化反应机理及催化剂的重复利用性。结果表明,乳液界面法会显著影响ZnCl_(2)/NH_(2)-MIL-125(Ti)复合材料的光电性质,当ZnCl_(2)和NH_(2)-MIL-125(Ti)掺杂质量比为1∶6时,在催化剂质量浓度为0.4 g/L、pH=2、甲醇添加量为0.5 mL条件下,复合材料紫外光催化还原Cr(Ⅵ)的效率最高可达95%,循环使用5次后还原效率为75%。

A functionalized activated carbon adsorbent prepared from waste amidoxime resin by modifying with H_(3)PO_(4) and ZnCl_(2) and its excellent Cr(Ⅵ)adsorption

With the application of resins in various fields, numerous waste resins that are difficult to treat have been produced. The industrial wastewater containing Cr(Ⅵ) has severely polluted soil and groundwater environments, thereby endangering human health. Therefore, in this paper, a novel functionalized mesoporous adsorbent PPR-Z was synthesized from waste amidoxime resin for adsorbing Cr(Ⅵ). The waste amidoxime resin was first modified with H3PO4 and ZnCl_(2), and subsequently, it was carbonized through slow thermal decomposition. The static adsorption of PPR-Z conforms to the pseudo-second-order kinetic model and Langmuir isotherm, indicating that the Cr(Ⅵ) adsorption by PPR-Z is mostly chemical adsorption and exhibits single-layer adsorption. The saturated adsorption capacity of the adsorbent for Cr(Ⅵ) could reach 255.86 mg/g. The adsorbent could effectively reduce Cr(Ⅵ) to Cr(Ⅲ) and decrease the toxicity of Cr(Ⅵ) during adsorption. PPR-Z exhibited Cr(Ⅵ) selectivity in electroplating wastewater. The main mechanisms involved in the Cr(Ⅵ) adsorption are the chemical reduction of Cr(Ⅵ) into Cr(Ⅲ) and electrostatic and coordination interactions. Preparation of PPR-Z not only solves the problem of waste resin treatment but also effectively controls Cr(Ⅵ) pollution and realizes the concept of “treating waste with waste”.

PAP-ZnCl_(2)浸渍增强木材的耐紫外及力学性能

为提高木材的耐紫外线和力学性能,采用聚氨基聚醚亚磷酸酯(PAP)和氯化锌(ZnCl_(2))复合浸渍剂对木材进行改性处理。通过浸渍处理,评估了浸渍条件下,PAP-ZnCl_(2)对木材性能的影响。结果表明,PAP-ZnCl_(2)浸渍处理显著改善了木材的紫外线耐受性和力学性能。具体而言,处理后的木材表现出优异的紫外线阻隔效果和较高的拉伸性能及弯曲性能,优于未处理的对照样本。改性后的木材拉伸性能由20.5 MPa提高至41.3 MPa,弯曲性能由80.3提高至94.25 MPa,并且改性后的木材在波长为200~600 nm处的紫外屏蔽效果显著。红外光谱(FTIR)、扫描电子显微镜(SEM)和力学性能测试表明,PAP和ZnCl_(2)的共同作用有效增强了木材的表面结构稳定性,减少了因紫外线照射引起的材料降解。研究结果为木材在户外环境中的耐久性提升及相关领域的实际应用具有参考价值。

Thermal pretreatment of willow branches impacts yield and pore development of activated carbon in subsequent activation with ZnCl_(2) via modifying cellulose structure

Development of pore structures of activated carbon(AC)from activation of biomass with ZnCl_(2) relies on content and structure of cellulose/hemicellulose in the feedstock.Thermal pretreatment of biomass could induce dehydration and/or aromatization to change the structure of cellulose/hemicellulose.This might interfere with evolution of structures of AC,which was investigated herein via thermal pretreatment of willow branch(WB)from 200 to 360℃and the subsequent activation with ZnCl_(2) at 550℃.The results showed that thermal pretreatment at 360℃(WB-360)could lead to substantial pyrolysis to form biochar,with a yield of 31.9%,accompanying with nearly complete destruction of cellulose crystals and remarkably enhanced aromatic degree.However,cellulose residual in WB-360 could still be activated to form AC-360 with specific surface area of 1837.9 m~2·g^(-1),which was lower than that in AC from activation of untreated WB(AC-blank,2077.8 m~2·g^(-1)).Nonetheless,the AC-200 from activation of WB-200 had more developed pores(2113.9 m~2·g^(-1))and superior capability for adsorption of phenol,due to increased permeability of ZnCl_(2) to the largely intact cellulose structure in WB-200.The thermal pretreatment did increase diameters of micropores of AC but reduced the overall yield of AC(26.8%for AC-blank versus 18.0%for AC-360),resulting from accelerated cracking but reduced intensity of condensation.In-situ infrared characterization of the activation showed that ZnCl_(2) mainly catalyzed dehydration,dehydrogenation,condensation,and aromatization but not cracking,suppressing the formation of derivatives of cellulose and lignin in bio-oil.The thermal pretreatment formed phenolic-OH and C=O with higher chemical innerness,which changed the reaction network in activation,shifting morphology of fibrous structures in AC-blank to“melting surface”in AC-200 or AC-280.

NaCl-KCl-ZnCl_(2)-LiCl混合熔盐的制备及其热性能

为获得太阳能光热发电用的低熔点高热稳定温度的蓄热熔盐,采用材料掺杂法,往NaCl-KCl-ZnCl_(2)三元体系的两个共晶点E1和E2中掺杂不同质量分数的无水LiCl,得到了12种不同组成比例的混合熔盐,并对其进行了差式扫描量热法(DSC)熔点测试、热重(TG)动态热稳定测试、52 h静态热稳定测试和熔盐密度测定。DSC试验结果表明,制备的四元混合熔盐的最低熔点为174.2℃,比其掺杂前的E1共晶点的熔点210.4℃降低了36.2℃,相应的相变潜热为78 J/g;TG动态热稳定和长时间静态热稳定试验表明,新四元混合盐的热稳定温度为700℃;熔盐液态密度测试表明,新四元混合熔盐在250~700℃的液态密度为2.35~2.58 g/cm^(3)。该四元混合熔盐有可能用作太阳能光热发电的蓄热储能材料。

ZnCl_(2)改性巴旦木壳基生物炭对苯酚的吸附

实验以巴旦木壳为原料制备ZnCl_(2)改性生物炭,并探究其对苯酚的吸附性能。采用SEM和FT-IR对ZnCl_(2)改性巴旦木壳基生物炭进行结构和表面官能团表征,通过单因素实验和动力学、热力学模型分析ZnCl_(2)改性巴旦木壳基生物炭吸附苯酚的适宜实验条件和吸附机理。实验结果显示,ZnCl_(2)改性巴旦木壳基生物炭孔隙结构发达,表面富含-NH、C-O、C-N、C=O、-C=C-和-CH官能团;当苯酚初始浓度为400 mg·L^(-1)时,保持溶液自然pH,ZnCl_(2)改性巴旦木壳基生物炭投加量2 g·L^(-1),接触时间在60 min可达到吸附平衡,平衡吸附量为139.63 mg·g^(-1);拟二级动力学模型能更好的模拟ZnCl_(2)改性巴旦木壳基生物炭对苯酚的吸附,吸附是自发的放热过程,吸附过程由外部液膜扩散、表面吸附和颗粒内扩散三个阶段组成。

利用ZnCl_(2)原位钝化电子传输层提高量子点发光二极管性能

在量子点发光二极管(QLED)中,电子-空穴注入不平衡和量子点层/电子传输层间界面的荧光猝灭限制着QLED效率的提升。基于此,采用金属卤化物(ZnCl_(2))原位处理电子传输层方法来减少氧化锌(ZnO)电子传输层的氧空位,同时有效钝化其表面不饱和键,因此在一定程度上实现抑制量子点/电子传输层界面的荧光猝灭和提高QLED中的电子-空穴注入平衡的目的,最终得到了高亮度、高效率的QLED。原位钝化处理后的ZnO基QLED的最大亮度、峰值电流效率、峰值功率效率和峰值外量子效率(EQE)分别从未处理QLED的176800 cd/m^(2)、9.86 cd/A、8.38 lm/W和7.42%提高到219200 cd/m^(2)、15.14 cd/A、12.66 lm/W和11.65%。结果表明,ZnCl_(2)原位钝化ZnO电子传输层对QLED性能的提升起到重要的作用。

ZnCl_(2)预处理改善超疏水滤纸性能的研究

以滤纸为基材,通过ZnCl_(2)预处理和表面修饰法制备超疏水滤纸,探讨了ZnCl_(2)预处理对超疏水滤纸的疏水性、稳定性、油水分离效率等的影响。结果表明,ZnCl_(2)预处理使纤维素部分结晶区被打开,暴露出更多羟基,改善了滤纸的接触角和滚动角,最佳值分别达154.8°和6°;当纸张在中等酸碱性溶液(pH值4~10)中时,经过预处理的超疏水滤纸接触角保持在150°以上,表明ZnCl_(2)预处理提高了滤纸的化学稳定性和热稳定性。该超疏水滤纸对三氯甲烷分离30次后,其分离效率保持在95%以上。

ZnCl_(2)-LiCl改性淀粉生物炭对水体中四环素的吸附性能研究

利用ZnCl_(2)-LiCl混合熔融盐改性淀粉生物质,采用高温热解法成功制备出一种分级多孔碳材料BCZL,用于吸附水溶液中的四环素。利用扫描电子显微镜、比表面积及孔径分析仪、拉曼光谱仪和X射线衍射仪对材料的结构进行表征,考察了溶液初始pH、吸附时间、四环素初始浓度和共存离子对BCZL吸附四环素的影响。表征结果表明:改性后的生物炭材料具有多孔结构和石墨结构,比表面积高达1854 m^(2)·g^(-1)。批量吸附实验结果表明:该吸附剂在pH=4、温度为30℃、接触时间为5 h时对四环素具有1303 mg·g^(-1)的高吸附容量。吸附动力学表明:该吸附过程涉及化学吸附。吸附等温线表明:该吸附过程是发生在不均匀表面的多层吸附。BCZL对四环素的选择性效果好,循环性能优异。吸附机理涉及孔隙填充、静电吸引、π-π相互作用和氢键作用。

Cd^(2+)掺杂Cs_(2)ZnCl_(4)黄光荧光粉及其光学性能

全无机零维金属卤化物因其独特的光学性能和可溶液法加工的特点,有望成为替代铅卤钙钛矿的新一代发光材料,在固态照明和光电探测等领域发挥重要作用。本文报道了一种Cd^(2+)掺杂的Cs_(2)ZnCl_(4)新型黄光荧光粉。该材料在270 nm紫外光激发下,呈现565 nm的宽带、长寿命(11.4 ms)发光,荧光量子产率达到46.0%。通过变温高分辨光谱测试分析,证明了其发光来源于Cd^(2+)的3E→^(1)A_(1)禁戒跃迁,并且在低温下(<170 K)还观测到局域态激子的发光及其到Cd^(2+)的高效能量传递过程。此外,该材料还展现出优异的抗热猝灭性能,150℃温度下的发光强度依然保持室温时的90.0%。本工作为Cd^(2+)掺杂金属卤化物的激发态动力学提供了新发现,也为新型高效零维金属卤化物发光材料的设计开发提供了新思路。

Removal of Basic Nitrogen Compounds from Diesel Fraction with NMP-0.5ZnCl_(2) Coordinated Ionic Liquid

An inexpensive coordinated ionic liquid NMP-0.5ZnCl_(2) was synthesized by reacting N-methyl-pyrrolidone with anhydrous ZnCl_(2),and its structure was characterized with FT-IR spectroscopy.The performance of IL for removing basic nitrogen compounds from model oil containing quinoline and actual coker diesel was studied.Experimental results showed that the IL,NMP-0.5ZnCl_(2),exhibited a good denitrogenation performance,which can be attributed to its low viscosity and unoccupied orbitals of Zn ion,while obtaining a 99.68%quinoline removal efficiency under conditions covering a temperature of 50℃,an IL/model oil mass ratio of 1:2,and a reaction time of 30 min.In the case of coker diesel,above a 91%basic N-removal efficiency(with N-content reduced from 536μg/g to 47μg/g)was realized by the IL after 5-stage extraction.Moreover,the quinoline extraction efficiency could still reach 96.73%during four recycles of the IL.

温和条件下ZnCl_(2)原位催化松木粉快速热裂解制生物油及生物炭应用

生物质快速热裂解是生物质转化利用的有效途径,但常因是非催化过程,裂解温度高导致生物油成分复杂难控。本实验以ZnCl_(2)为催化剂,研究了木质素、纤维素、玉米芯和松木粉的热解过程,旨在探索原位催化对快速热裂解的强化作用。本实验通过热重曲线拟合,获得了热裂解的活化能;通过快速热裂解实验,研究了催化作用下热解油组成变化。结果表明,ZnCl_(2)催化可显著降低生物质裂解温度,简化生物油组成。在350℃快速热裂解松木粉获得了47%生物油产率,主要成分是纤维素和半纤维素的衍生物。ZnCl_(2)可显著降低纤维素裂解的活化能(由304.78 kJ/mol降低至112.46 kJ/mol),而对木质素的裂解影响不大。裂解后的碳渣在600℃二次碳化可获得性能良好的活性炭,苯酚吸附容量可达165 mg/g。

C_(9)H_(10)O_(2):0.5ZnCl_(2)/SG as a High-Efficiency Catalyst for Desulfurization of Model Oil

A C_(9)H_(10)O_(2):0.5ZnCl_(2)/SG catalyst was synthesized using a one-step sol-gel method with silica gel(SG)as the carrier and C_(9)H_(10)O_(2):0.5ZnCl_(2)deep eutectic solvent(DES)as active component.The structure of the supported catalyst was characterized by FT-IR,XRD,SEM,and N2 adsorption-desorption,and the DES was found to have successfully permeated the SG through its pores.The removal of dibenzothiophene(DBT)in model diesel was studied using C_(9)H_(10)O_(2):0.5ZnCl_(2)/SG as a catalyst and H_(2)O_(2)as an oxidant.The influence of loading dose of DES,reaction temperature,catalyst dosage,O/S molar ratio,and sulfide type on the desulfurization rate was investigated.The removal rates of DBT,4,6-dimethyldibenzothiophene(4,6-DMDBT),and benzothiophene(BT)under optimal reaction conditions were 99.4%,96%,and 78.2%,respectively.C_(9)H_(10)O_(2):0.5ZnCl_(2)/SG catalyst could be recycled five times with a little decrease of oxidative desulfurization activity,and the adsorption-oxidation desulfurization mechanism was examined.

MCM-41负载Lewis酸催化合成2-甲基吲哚

以苯肼和丙酮为原料,在负载有各种Lewis酸的MCM-41分子筛催化下采用Fischer吲哚合成法合成2-甲基吲哚,在比较了AlCl3/MCM-41、ZnCl2/MCM-41和FeCl3/MCM-41对反应的选择性和收率后发现,负载量为4mmol/g的ZnCl2/MCM-41具有对反应较好的选择性,目标产物收率达到了76.2%。

CaCl_(2)活化小麦秸秆制备活性炭及其对水中硝酸根的吸附

为高效利用小麦秸秆并获得高吸附性能活性炭,应用CaCl_(2)活化小麦秸秆制备活性炭以吸附水中硝酸根,通过响应面回归分析方法优化制备条件,探讨以CaCl_(2)为活化剂制备活性炭的可能性。结果表明:炭化温度628℃和CaCl_(2)添加比(CaCl_(2)量/秸秆量)27.9%为最佳制备条件,制得活性炭(CaAC)的硝酸根吸附能力高于同温度下添加相同比率ZnCl_(2)制备的活性炭(ZnAC)和未添加活化剂制备的秸秆炭(WsBC)。CaAC表面含有的酚羟基、羰基等官能团数量多于ZnAC和WsBC。CaAC和ZnAC皆为无定形碳、层状结构材料。CaAC对N_(2)的吸附等温线类型介于Ⅱ型与Ⅳ型之间,ZnAC和WsBC则介于Ⅰ型和Ⅳ型,都含大量狭窄缝形孔隙,CaAC的中孔和大孔容积更大。CaAC的Langmuir氮最大吸附量分别为21.28mg·g^(-1)(以NO_(3)^(-)计为94.24mg·g^(-1)),氮去除率随添加量的增加可达99%左右,吸附量都随溶液pH值升高而降低,吸附过程都符合准二级动力学模型。因此,可应用CaCl_(2)为活化剂制备活性炭,其吸附能力更强,是高效经济的阴离子吸附剂。该结果为活性炭制备和生物质废弃物资源利用提供了新思路。

LiCl-KCl共晶熔盐中金属铀与氯化锌的反应行为及机理

为探究氯化锌(ZnCl2)与金属铀制备LiCl-KCl-UCl3初始熔盐体系的反应过程,本工作拟在500℃下的LiCl-KCl共晶熔盐中,首先对可能反应进行热力学计算,确定可能反应路径;再通过循环伏安法和原位吸收光谱法原位监测金属铀与ZnCl2的反应过程,并观察反应过程中熔盐的颜色变化,结合电感耦合等离子体质谱(ICP-MS)分析样品中元素含量的变化,对反应产物进行X射线衍射(XRD)、扫描电镜能谱分析(SEM-EDS)表征,综合确定反应行为和反应机制。研究结果表明:在金属铀与ZnCl2的反应过程中,Zn(Ⅱ)直接将铀金属氧化为U(Ⅲ),生成的Zn金属在铀金属表面形成U-Zn合金。ZnCl2与金属铀制备的电解精炼初始熔盐体系LiCl-KCl-UCl3过程,反应在240 min达到平衡,最终Zn质量分数维持在0.01%。

介孔污泥生物炭去除罗丹明B的性能研究

以市政污泥为原料,ZnCl_(2)为活化剂,通过浸渍-热解法制备改性污泥生物炭(ASBC),通过构建ASBC/过一硫酸氢钾(PMS)体系并用于降解罗丹明B(RhB),探究ASBC投加量、PMS浓度、反应pH和共存无机阴离子等反应条件对ASBC/PMS体系降解RhB的影响。BET结果表明,经过活化后的生物炭的比表面积从8.19 m^(2)/g提高至175.04 m^(2)/g,孔容从0.017 cm^(3)/g提高至0.189 cm^(3)/g,活化后的污泥生物炭具备更多的反应活性位点;当ASBC投加量为0.2 g/L、PMS浓度为0.8 mmol/L,反应5 min后对RhB的去除率高达99.7%,反应可在较宽的pH范围(3~11)内发挥作用;H_(2)PO_(4)^(-)和NO_(3)^(-)对ASBC/PMS体系降解效果无显著影响,HCO_(3)^(-)具有抑制作用,Cl^(-)具有促进作用;ASBC/PMS体系降解RhB是非自由基路径,主要活性物质是^(1)O_(2)。

不同凝固浴对再生纤维素超滤膜结构和性能的影响

本文利用新型的常温纤维素溶解体系ZnCl_(2)/AlCl_(3)直接从棉浆中制备再生纤维素超滤膜,探讨了不同凝固浴对再生纤维素超滤膜结构和性能的影响。研究发现,当采用有机溶剂作为凝固浴时,可以提升相分离过程中溶剂—非溶剂的交换速度。随着凝固浴中有机溶剂比例的增加,可以使得膜表面致密皮层厚度增加、膜表面孔径大小减小,并使得膜内部出现非对称指状孔结构。在乙醇中得到的再生纤维素超滤膜的截留分子量(MWCO)可以达到314.5 kDa,水通量可以达到628.57 LMH/bar,并且能够分离病毒标志物2000 kDa的蓝色葡聚糖和人体免疫球蛋白(IgG)。结果表明,可以通过控制凝固浴中有机溶剂的比例来获取不同结构的再生纤维素超滤膜,并进一步展示了该种再生纤维素超滤膜在生物制药应用中的潜力。

依鲁替尼的合成

目的解决依鲁替尼关键合成工艺中副产物Ph_(3)PO的去除问题,更高效合成依鲁替尼。方法关键工艺中由Mitsunobu反应在吡唑并嘧啶中间体1-位上引入3-S-N-Boc保护的哌啶环,通过加入ZnCl_(2)与该反应副产物Ph_(3)PO络合沉淀,从而去除Ph 3PO,再经酸性水解脱Boc保护基,最后经丙烯酰氯酰胺化得依鲁替尼。结果ZnCl_(2)可除去副产物Ph_(3)PO。结论ZnCl_(2)有效的去除了关键工艺中副产物Ph_(3)PO,使得该合成工艺更简洁高效。

氯化锌改性柚皮制作活性炭对甲基橙的吸附探究

用氯化锌(ZnCl_(2))对柚皮进行改性,利用改性后的柚皮制作活性炭并吸附甲基橙溶液。考察柚皮活性炭用量,吸附时间,甲基橙溶液浓度,pH和吸附温度等因素对吸附效果的影响。试验结果如下:改性柚皮活性炭对甲基橙溶液的吸附效果明显强于未改性的柚皮活性炭和普通活性炭,在改性柚皮活性炭用量为150 mg,吸附时间为100 min,甲基橙溶液浓度为200 mg/L,溶液pH值为6和吸附温度为35℃时有最佳吸附效果,吸附量为65.449 mg/g,去除率为98.173%。