(111)取向生长Pb(Zr0:95Ti0:05)O3纳米晶薄膜的铁电与热释电特性

" 在Pt/Ti/SiO2/Si基片上用溶胶-凝胶法与快速退火工艺制备了300 nm厚的锆钛酸铅Pb(Zr0:95Ti0:05)O3 (PZT95/5)反铁电薄膜．结果显示600~700 ℃晶化处理的钙钛矿PZT95/5薄膜具有高度(111)取向生长特性．薄膜的电性能测量采用金属-铁电-金属电容器结构．在20 V电压作用下,600~700 ℃晶化处理的PZT95/5薄膜显示出饱和电滞回线．在1 kHz下,600、650和700 ℃晶化的薄膜介电常数与损耗分别为519与0.028、677与0.029、987     

ZnII and CdII Metal Organic Frameworks Based on 2-Methyl-6-oxygen-1,6-dihydro-3,4'bipyridine-5-carbonitrile

To investigate the coordination chemistry of modbc (2-methyl-6-oxygen-1,6-dihydro-3,4'-bipyridine-5-carbonitrile) with Zn^II and Cd^II salts under the solvothermal conditions, six new MOFs with the formulas [Zn(modbc)₂(mpa)]_n ( 1 ), [Zn(modbc)(mpa)(H₂O)]_n ( 2 ), [Zn(modbc)(pa)_0.5(H₂O)]_n ( 3 ), [Cd(modbc)(pa)_0.5(H₂O)]_n ( 4 ), [Zn(modbc)₂(tpa)]_n ( 5 ), and [Cd(modbc)₂(pda)(H₂O)]_n ( 6 ) (mpa = m-phthalic acid; pa = pyromellitic acid; tpa = terephthalic acid; pda = pentane diacid) were successfully synthesized by solvothermal reaction and fully characterized by elemental analysis, IR spectroscopy, single crystal, powder X-ray diffraction, thermal and photoluminescence properties. Though MOFs 3 and 4 have the same structure, we have obtained three different kinds of coordination configurations by the X-ray diffration analysis. Compared with 1 and 2 , coordination water has no effect on the solid fluorescence emission of MOFs. It is worth noting that the fluorescence intensity of 3 containing central Zn^II atoms is very strong, whereas that of isomorphism 4 containing central Cd^II atoms has almost no fluorescence emission, showing that metal ions have very important influence on the fluorescence emission. Further, we found that solvents had an important effect on the fluorescence emission in liquid fluorescence of MOFs 1 – 6 .     

HZSM-5分子筛中邻近酸中心上的协同催化作用

总结了HZSM-5分子筛中邻近的酸中心协同催化作用的研究进展, 包括布朗斯特酸(B酸)和路易斯酸 (L酸)的协同催化、 B酸和B酸的协同催化作用. 综述了通过多种表征手段下协同催化作用机理的研究进展, 以及实验与理论计算相结合并相互验证的研究结果, 对邻近酸中心协同作用下反应分子的共同吸附、 活化与转化路径的特点进行了分析与总结, 提出了对邻近酸中心协同催化作用进行深入研究的关键科学问题和可能的解决方案.     

具有光控氧空缺的钼掺杂Bi5O7Br纳米片用于光催化氮气合成氨

氨(NH3)作为合成燃料、化肥和潜在能源载体的重要前体,是现代化学工业中最重要的化学品之一.工业中主要通过高能耗的Haber-Bosch工艺在高温高压下将氮气和氢气转化为NH3,而原料氢气由天然气蒸汽获得,因而不仅消耗大量能源,而且导致温室气体二氧化碳的大量排放,对环境造成危害.光催化固氮以光能为驱动力,以水为质子源,为合成NH3提供了一种温和、绿色和可持续的方法.然而,传统固氮催化剂具有与N2结合弱、成键难以及电子转移效率低的缺点.为了克服上述问题,在催化剂中引入氧空缺和过渡金属作为给电子中心和活性位点的策略被广泛研究.本文以半导体Bi5O7Br纳米片作为研究对象,通过在水热合成过程中添加Na2MoO4前驱盐在Bi5O7Br中掺杂钼元素,合成了不同摩尔含量的钼掺杂Bi5O7Br(Mo-Bi5O7Br)纳米片,并将其应用于光催化N2还原反应,发现Mo-Bi5O7Br的光催化固氮性能显著优于空白Bi5O7Br的催化性能.扫描电镜、透射电镜、能量色散X射线元素映射以及X射线光电子能谱的结果表明,掺杂过程不会影响Bi5O7Br纳米片的晶相和形貌,掺杂后钼元素均匀地分布在Bi5O7Br纳米片晶格中.采用紫外可见漫反射光谱、电子自旋共振光谱、氮气程序升温脱附谱以及光电化学测试等方法研究了Mo-Bi5O7Br相较于空白Bi5O7Br纳米片在光催化N2还原反应中催化性能提升的原因.UV-vis DRS结果表明,钼掺杂对Bi5O7Br可见光吸收能力具有增强作用.以催化NH3产率最高的Mo-Bi5O7Br-1(Mo摩尔百分含量为1％)为研究样本,EPR结果表明,在黑暗条件下,只有Mo-Bi5O7Br-1样品可以检测到明显的表面氧空位(OVs)信号;在光照条件下,Bi5O7Br和Mo-Bi5O7Br-1两种样品都出现OVs的信号峰,但同等光照时间下的Mo-Bi5O7Br-1具有更高的信号强度.此外,OVs信号会随着光照时间的延长逐渐增强;当移除光源后,信号强度逐渐降低.这表明Mo-Bi5O7Br-1在光照下会产生更高浓度的表面光控OVs.N2-TPD结果表明,光控OVs作为活性位点促进催化剂对N2的吸附.关闭光源后,OVs被环境中的水或氧气中的氧原子重新填充,避免了OVs易被氧化而导致反应失活的缺点,有助于保持Mo-Bi5O7Br-1催化N2还原反应的活性和稳定性.光电化学表征结果表明,Mo-Bi5O7Br-1中的光生载流子的分离和迁移效率明显提高.以上结果表明,掺杂过渡金属钼有助于Bi5O7Br纳米片表面光控OVs的生成,光控OVs作为活性位点提升了Bi5O7Br吸附和活化N2的能力,钼掺杂和光控OVs协同提高Bi5O7Br内部光生载流子的分离迁移效率,增强Bi5O7Br光催化固氮合成氨的反应性能.     

金属氧化物催化剂上合成气转化中羧酸盐物种促进芳烃的生成

芳烃是重要的化工原料,目前主要通过石油催化裂化和催化重整制得.随着石油资源的消耗以及芳烃的需求日益增长,开发非石油路线制备芳烃势在必行.因此,从煤、天然气和生物质出发,经合成气一步制芳烃(STA)广受关注.将合成气制甲醇的金属催化剂和甲醇制芳烃的分子筛催化剂复合,可以制备双功能催化剂,用于合成气反应可高选择性得到芳烃.然而,关于此过程中芳烃的生成机理仍有争论.目前人们认为,生成芳烃的中间体主要分甲醇和其他含氧物种(乙烯酮,醛类)两种.本文以ZnCrAlOx和H-ZSM-5为模型催化剂,进行合成气制芳烃、甲醇制芳烃和丙烯制芳烃反应,确定了传统的甲醇制芳烃路径不是合成气制芳烃中的主要途径,并通过原位傅里叶变换红外光谱和气相色质谱解释了STA反应中两种活性组分距离越近,芳烃选择性越高的原因,从而提出了在合成气制芳烃过程中芳烃的生成机理.通过比较双功能催化剂上合成气、甲醇以及丙烯的反应性能发现,在甲醇和丙烯转化时,其芳烃选择性远小于合成气转化时的,由此可认为,在合成气制芳烃的路径主要不经由传统的甲醇制芳烃,而是通过烯烃聚合脱氢生成芳烃.红外表征和共进料实验表明,合成气可以在金属催化剂表面生成甲酸盐物种,它可与烯烃反应生成羧酸盐物种,再迁移到分子筛上反应生成芳烃,且羧酸盐物种在分子筛上的芳构化能力要高于丙烯;即使在氢气氛围下,当丙烯的芳构化能力受到氢气极大抑制时,羧酸盐物种仍能高选择性生成芳烃.本文制备了一系列金属催化剂和分子筛物理接近距离不同的双功能催化剂,研究了合成气在双功能催化剂上制芳烃时,金属催化剂和分子筛二者组分的距离对芳烃选择性的影响.随着二者接近距离的增加,芳烃选择性急剧增加;通过GC-MS分析合成气转化时的停留物种,发现随着二者接近距离的增加,羧酸盐物种和甲基环戊烯酮的量明显增加,因此,羧酸盐物种和甲基环戊烯酮物种在生成芳烃中起到了重要的作用.综上所述,我们提出了STA中一条新的芳烃生成路径,并证明了羧酸盐物种是其中重要的中间物种.它经由金属表面的甲酸盐物种和烯烃反应生成,随后迁移到分子筛上生成甲基环戊烯酮物种,再脱水生成芳烃.     

The regulation of biothiol-responsive performance and bioimaging application of benzo[c][1,2,5]oxadiazole dyes

The different oxidation states of sulphur atom play a significant role on functional materials. In this work, a aryl-thioether and its sulphone substituted benzo[c][1,2,5]oxadiazole dyes were synthesized and utilized to determine thiol-containing amino acids. The result of selectivity experiments showed they detected the cysteine and homocysteine under physiological condition with negligible interference from other amino acids. In comparison to the thioether dye, the sulphone-based dye exhibited much faster response time for Cys and Hcy. However, the sulphone restricted its thiol-reactivity and bioimaging performance in living cells. By reducing the oxidation state of sulphur atom, we amazedly found that the sulfoxide-based dye still maintained high selectivity ultrafast response time for Cys/Hcy under physiological condition. It was worth mentioning that it also had high reactivity and good bioimaging performance that sulfone compounds did not have.     

CO2 and photo-controlled reversible conversion of supramolecular assemblies based on water soluble pillar[5]arene and coumarin-containing guest

In this communication,a new supramolecualr amphiphile was successfully constructed based on water soluble pillar[5]arene and a unique guest which contain a CO₂ responsive tertiary amine unit and a UV responsive coumarin group.When guest molecule 1 dispersed in water,it self-assembled into sheet-like structures.Upon bubbling CO₂,1 transformed into 1 H due to the tertiary amine unit was protonated,accompany the nano-sheets transformed into vesicles.Further irradiation of 1 H with 365 nm light for 3 h,the coumarin group reacted with each other to form bola-type amphiphie 2 H.In this case,vesicles collapsed and re-assembled into nano-tubes.However,when addition of WPS into the solution of 1 H,the vesicles transformed into micelles,this is due to the formation of supramolecular amphiphile WP5&1 H.Upon irradiation of WP5&1 H with 365 nm light for 3 h,nano-ribbons observed instead of micelles in the solution.Notably,nanotubes from 2 H could also transform into nano-ribbons after adding WPS.The selfassembly process and the resultant assemblies were characterized by TEM,SEM,DLS,SAXS and NMR technologies.Due to both CO₂ and light are "green" for living organisms,we anticipated our system can offer the possibilities in "on demand" drug absorption and release.     

混合熔盐法低温合成Sm2Ti2S2O5及其光催化分解水产氢

以TiO2、TiS2及Sm2O3为前驱体,分别加入LiCl-KCl与LiCl-CsCl的最低共熔混合物作为熔盐,在较低温度下成功合成了Sm2Ti2S2O5(STSO)颗粒。通过对比不同温度下所制备产物的X射线衍射图,首次表明STSO的热力学结晶温度在520℃左右,远低于之前报道的650℃的最低合成温度。扫描电子显微镜照片显示,采用2种混合熔盐制备的STSO都呈片状形貌;同一合成温度下,采用LiCl-CsCl熔盐制备的STSO的厚度小于LiCl-KCl所得产物。采用出射光波长大于420 nm的氙灯作为光源,在含有Na2S-Na2SO3空穴牺牲剂的溶液中,所制备的STSO颗粒表现出最高35μmol·h-1的光催化分解水产氢活性以及20 h以上的产氢稳定性。     

Enhanced conversion of α-cellulose to 5-HMF in aqueous biphasic system catalyzed by FeCl_3-CuCl_2

This study was to investigate the optimal additions of the cellulose decomposition reaction to obtain the most yield of 5-HMF and other furan derivatives in various biphasic systems with FeCl_3-CuCl_2 mixed catalysts,and explore its depolymerization kinetics.A series of controllable reactions have been performed under mild environmentally friendly atmosphere.The experiment results showed that49.13 wt% of 5-HMF was the maximum production along with 2.98 wt% other furan derivatives catalyzed by mixed Lewis acid FeCl_3-CuCl_2 under the two phases which included high concentration NaCl aqueous phase and n-butanol organic phase at 190℃ for 45 min.The conclusion suggested that two-phase systems benefited the yield of 5-HMF,furan derivatives via extracting the target products from reaction phase to organic phase to avoid rehydration of 5-HMF.The kinetic calculation revealed the conversion with mixed catalysts had lower reaction apparent activation energy(21.65 kJ/mol,190-230℃) and the reaction rate was faster than that with acid-based catalysts.Based on experiment exploration,the probable mechanism of cellulose decomposition with FeCl_3-CuCl_2 was proposed.     

Comparative study of Co3O4-ZSM-5 catalysts synthesized by different hydrothermal methods for the catalytic oxidation of dichloromethane

In this work, various Co₃O₄-ZSM-5 catalysts were prepared by the microwave hydrothermal method (MH-Co₃O₄@ZSM-5), dynamic hydrothermal method (DH-Co₃O₄@ZSM-5), and conventional hydrothermal method (CH-Co₃O₄/ZSM-5). Their catalytic oxidation of dichloromethane (DCM) was analyzed. Detailed characterizations such as X-ray diffractometer (XRD), scanning microscopy (SEM), X-ray photoelectron spectroscopy (XPS), Brunauer–Emmett–Teller (BET), H₂ temperature-programmed reduction (H₂-TPR), temperature-programmed desorption of O₂ (O₂-TPD), temperature-programmed desorption of NH₃ (NH₃-TPD), diffuse reflectance infrared Fourier-transform spectra with NH₃ molecules (NH₃-DRIFT), and temperature-programmed surface reaction (TPSR) were performed. Results showed that with the assistance of microwave, MH-Co₃O₄@ZSM-5 formed a uniform core-shell structure, while the other two samples did not. MH-Co₃O₄@ZSM-5 possessed rich surface adsorbed oxygen species, higher ratio of Co³⁺/Co²⁺, strong acidity, high reducibility, and oxygen mobility among the three Co₃O₄-ZSM-5 catalysts, which was beneficial for the improvement of DCM oxidation. In the oxidation of dichloromethane, MH-Co₃O₄@ZSM-5 presented the best activity and mineralization, which was consistent with the characterizations results. Meanwhile, according to the TPSR test, HCl or Cl₂ removal from the catalyst surface was also promoted in MH-Co₃O₄@ZSM-5 by their abundant Brønsted acid sites and the promotion of Deacon reaction by Co₃O₄ or the synergistic effect of Co₃O₄ and ZSM-5. According to the results of in situ DRIFT studies, a possible reaction pathway of DCM oxidation was proposed over the MH-Co₃O₄@ZSM-5 catalysts.