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1.
采用微乳液法,以NaYF4:Yb3+,Er3+纳米晶为发光基元,肽菁锌(ZnPc)光敏分子与十八碳烯-马来酸酐共聚物(PMAO)为功能分子,一步组装获得了NaYF4-ZnPc-PMAO复合微球,此微球同时具备成像与光动力活性功能,NaYF4可作为低生物背景的荧光成像剂,同时其上转换发光可以敏化ZnPc用于光动力活性研究,PMAO分子经过简单的水解反应即可实现表面羧基功能化。TEM,Zeta电位与PL测试证实了微球的结构与性能。利用荧光共聚焦成像技术实现了对Hela细胞的发光成像;进一步通过单线态氧监测及980 nm光照下的MTT法细胞活性测试表明微球具有光动力活性功能。  相似文献   

2.
Ca5(PO4)3Cl中铕和铽间的电子转移   总被引:2,自引:0,他引:2  
本文通过对铕和铽在Ca5(PO4)3Cl基质中的发光特征的研究,发现铕和铽之间存在着电子转移现象,并对其反应机理进行了探讨。Eu3+(4f6)和Tb3+(4f8)通过电子转移使它们达到电子结构稳定的Eu2+(4f7)和Tb4+(4f<  相似文献   

3.
本文采用溶胶凝胶法制备了一系列不同Ca含量的钙钛矿型氧化物La1-xCaxMnO3(x=0~0.4)纳米颗粒, X射线粉末衍射及精修、扫描电镜表征显示其相纯度和结晶度高, 颗粒平均粒径约40 nm。在0.1 mol·L-1 KOH水溶液中进行的氧还原电催化性能测试显示, La0.7Ca0.3MnO3样品催化活性最高, 表观电子转移数接近4, 还原电流密度与Pt/C催化剂相当, 而催化稳定性优于Pt/C。进一步研究了La1-xCaxMnO3样品中Mn价态、晶胞参数的改变对氧还原催化活性的影响, 结果表明当x=0.3时, 催化剂中Mn处于混合价态, Mn-O键长适中, 最有利于电催化反应。  相似文献   

4.
用紫外可见吸收光谱、稳态/瞬态荧光光谱和单线态氧捕捉等方法分别测量了荧光素钠及4,5位-二卤代荧光素钠(FLX2,X=H,Cl,Br,I)的电子吸收光谱、荧光光谱、荧光量子效率(Φf)、荧光寿命(τf)和单线态氧量子产率(ΦΔ),并与荧光素钠的相应性质进行了比较。对应于X=H,Cl,Br,I,FLX2Φf值分别为0.92、0.96、0.69、0.16;τf值分别为4.16、4.72、3.50、0.80ns;ΦΔ值分别为0.0034、0.049、0.30、0.68。随着氯、溴、碘原子量增大,相应的Φfτf值并非顺序减小,ΦΔ值逐渐增大,只用重原子效应不能解释二卤代荧光素的荧光和光敏性质变化,而结合分子内光诱导电子转移就能较好的解释实验结果。  相似文献   

5.
本文通过水热法合成了含有3种不同稀土离子的层状稀土氢氧化物 (Gd0.5Tb0.5-xEux)2(OH)5NO3·nH2O, 并选择有机物水杨酸(HSA)作为敏化剂, 通过在水热条件下的离子交换反应, 成功将其以有机阴离子形式与层状稀土氢氧化物插层组装获得有机-无机杂化荧光材料(SA--LRHs:xEu)。荧光性质测定表明, SA-通过有效的能量转移增强了Tb3+的特征绿色荧光发射, 随着Eu3+含量的增加, Eu3+的特征红色荧光发射随之增强, 而Tb3+的特征绿色荧光发射随之减弱。在此基础上, 将发光颜色可调的有机-无机荧光材料与聚甲基丙烯酸甲酯(PMMA)复合组装出透明的荧光薄膜。  相似文献   

6.
采用固相反应法制备了组成为Bi2-xAgxSr2Co2O8-δ(x=0.0, 0.4, 0.8,略写为BAC-222)的层状钴氧化物陶瓷。利用X-射线光电子能谱考察该类化合物的电子结构,结果表明钴离子以Co3+和Co4+混合价态形式存在,nCo4+/nCo3+的比例随着Ag掺杂的量增加而增加。O1s光电子谱显示在所有样品中均存在点阵氧和吸附氧。热电性能测试结果显示,随着Ag掺杂量的增加,电导率显著增加而Seebeck系数几乎保持不变,Ag的引入极大的影响了BAC-222的电子输运性质,其功率因子在1 123 K时达到了1.23×10-4 W·m-1·K-2,是一种具有很好应用前景的热电材料。  相似文献   

7.
以Sm3+作为激活剂,Bi3+作为辅助激活剂,采用水热法合成Ca1-x-ySmxBiySiO3前驱体,然后在1 100 ℃焙烧得到系列橙红色荧光粉.用X-射线衍射仪、扫描电镜和荧光分光光度计和傅里叶变换红外光谱等手段对样品的组成、结构和形貌及其发光性质进行分析和表征.分析结果表明:产物都为三斜晶系结构的Ca1-x-ySmxBiySiO3和四方结构的方石英SiO2共熔体.在405 nm近紫外光激发下,产物的发射光谱由3个峰组成,发射峰值位于566、606和650 nm处,分别归属于Sm3+4G5/26HJ/2(J=5,7,9)跃迁.产物的激发光谱在405 nm有很强的发射带,与近紫外LED芯片匹配.随着Sm3+掺量的增加,样品发光强度先增强后减弱,当Sm3+的物质的量分数为3%时发光强度达到最大,浓度猝灭机理为电偶极-电偶极相互作用.当Bi3+的物质的量分数在0.3%~1.5%时,对产物Ca0.97Sm0.03SiO3的荧光强度起敏化作用.Sm3+和Bi3+的最佳物质的量分数分别为3%和0.5%.  相似文献   

8.
在氧离子导体La2Mo1.7W0.3O9的基础上,采用固相法合成了La位掺杂的Ca系列新型氧化物La2-xCaxMo1.7W0.3O9-δ(0≤x≤0.2)。通过XRD、Raman和XPS等手段对化合物结构进行表征,交流阻抗谱测试其电性能。结果表明:掺杂离子Ca2+的半径小于基质离子La3+的半径导致晶格收缩;Ca的掺杂在La2Mo1.7W0.3O9自身内置氧空位的基础上增加了额外的氧空位,提高了氧离子导体的电导率,550 ℃电导率由0.79 × 10-4 S·cm-1 (x=0.0)增加到1.5 × 10-4 S·cm-1 (x=0.16,0.2),电导率增加89.9%。  相似文献   

9.
利用菲咯啉酮衍生物4-氯-2-(1H-咪唑并[4,5-f][1,10]菲咯啉)苯酚(HL)设计合成了一种新的单核铜配合物[Cu (L)(5-Cl-sal)(DMF)]ClO4·DMF (5-Cl-Hsal=5-氯-水杨醛),用元素分析和X射线单晶衍射等手段对配合物进行了表征。该配合物晶体属三斜晶系,P1空间群。用紫外吸收光谱、荧光光谱和凝胶电泳等方法研究了配合物与DNA的相互作用。结果表明,配合物以插入方式与CT-DNA结合,结合常数为1.02×103 L·mol-1。同时配合物也能较大程度淬灭EB-DNA复合物的荧光,表观键合常数为4.37×105 L·mol-1,略小于经典键合常数107 L·mol-1。淬灭机理为动态淬灭。凝胶电泳实验研究表明配合物在H2O2存在下可将pBR322质粒DNA切割为开环缺口型DNA和线型DNA,配合物浓度越大,切割效果越好。机理研究显示,配合物切割DNA的反应是由羟基自由基(·OH)和单线态氧(1O2)作为活性物种的氧化切割过程。  相似文献   

10.
采用硅酸盐作为基质材料,通过高温固相法合成了Li4SrCa(SiO42:Eu3+红色荧光粉。通过X射线粉末衍射、X射线光电子能谱、透射电镜和荧光光谱,对所得样品的物相、形貌及其发光性能进行了表征分析。结果表明,掺入Eu3+后,Li4SrCa(SiO42的晶体结构并没有发生改变。在393 nm光激发下,荧光粉的荧光光谱中693 nm处发射峰强度最强。以693 nm作为监测波长,荧光激发峰分别为361 nm(7F05D4)、375 nm(7F05G3)、413 nm(7F05D3)、393 nm(7F05L6)和464 nm(7F05D2),即样品对近紫外和蓝光有较好的吸收。利用发射光谱研究了Eu3+掺杂浓度(物质的量分数)对荧光粉发光强度的影响。当Eu3+的掺杂浓度x=0.10时,样品发射强度最强,发射红光,其色坐标为(0.637 5,0.353 7)。通过Dexter强度与浓度关系分析了浓度猝灭机制。  相似文献   

11.
钟欣  黄紫洋  赵梦阳 《无机化学学报》2020,36(11):2041-2047
采用区带电泳法电泳羟基磷灰石(HA)、壳聚糖(CS)、ZnO和SiO2悬浊液,接着施予反向电场进行电泳沉积从而在钛基材表面获得HA/CS/ZnO/SiO2复合涂层材料,而后经710℃焙烧2 h后得到HA/ZnO/SiO2涂层材料(Z1)。同时也仅用电泳沉积法直接制得HA/ZnO/SiO2涂层材料(E1)作为对比。X射线能谱分析发现Si和Zn两种元素在Z1的径向上均呈现梯度分布,初步说明Z1具有一定的梯度。结合扫描电子显微镜、粉末X射线衍射、傅里叶红外光谱等手段对2种材料进行表征,发现Z1的各种性能较E1更为优异,主要表现在Z1与钛基材表面的结合强度达31.2 MPa,且在HEPES模拟体液中培养14 d后Z1表面碳磷灰石化程度更加完全。另外,抑菌实验发现Z1粉末对大肠杆菌和金黄色葡萄球菌的抑菌率分别为81.7%和89.4%。  相似文献   

12.
A series of highly efficient semiconductor nanocrystal (NC) photocatalysts have been synthesized by growing wurtzite‐ZnO tetrahedrons around pre‐formed CdS, CdSe, and CdTe quantum dots (QDs). The resulting contact between two small but high‐quality crystals creates novel CdX/ZnO heterostructured semiconductor nanocrystals (HSNCs) with extensive type‐II nanojunctions that exhibit more efficient photocatalytic decomposition of aqueous organic molecules under UV irradiation. Catalytic testing and characterization indicate that catalytic activity increases as a result of a combination of both the intrinsic chemistry of the chalcogenide anions and the heterojunction structure. Atomic probe tomography (APT) is employed for the first time to probe the spatial characteristics of the nanojunction between cadmium chalcogenide and ZnO crystalline phases, which reveals various degrees of ion exchange between the two crystals to relax large lattice mismatches. In the most extreme case, total encapsulation of CdTe by ZnO as a result of interfacial alloying is observed, with the expected advantage of facilitating hole transport for enhanced exciton separation during catalysis.  相似文献   

13.
The photoreduction of Cu2+ at the surface of ZnO nanoparticles and ZnO/Ag nanostructures was investigated. The spectral characteristics of the obtained ZnO/Cu and ZnO/Ag/Cu composites were studied in relation to the reaction conditions. It was shown that the ZnO/Ag nanoparticles have higher photocatalytic activity in the reduction of Cu2+ ions than the individual ZnO particles.  相似文献   

14.
采用低温水热法在掺氟SnO2 (FTO)导电玻璃表面制备ZnO纳米阵列, 研究了前驱体溶液浓度摩尔配比对ZnO纳米阵列形貌、光学性能及其生长机理的影响. 研究发现, 随着前驱体溶液浓度摩尔配比的增加, ZnO纳米阵列形貌及光学性能也随之变化. ZnO纳米阵列高度逐渐降低, ZnO纳米阵列直径和光学带隙值大体上出现先增大后降低的趋势. 而当前驱体溶液(Zn(NO3)2:环六亚甲基四胺(HMT, C6H12N4))浓度摩尔配比为5:5时, 其光学禁带值(3.2 eV)接近于理论值. 结果显示制备ZnO纳米阵列的最优浓度摩尔配比为5:5. 随后选用最优浓度摩尔配比下制备的ZnO纳米阵列为基底, 通过一种两步溶液法成功在其表面制备刺突状CuO/ZnO异质结.从场发射扫描电镜(FE-SEM)结果中可以清楚看见, 大量的CuO纳米粒子沉积在ZnO纳米阵列表面形成刺突状异质结结构.研究发现该CuO/ZnO纳米异质结相对于纯ZnO纳米阵列在紫外光下光催化性能明显增加. 最后, 讨论了CuO/ZnO纳米异质结光催化机理.  相似文献   

15.
A series of highly efficient semiconductor nanocrystal (NC) photocatalysts have been synthesized by growing wurtzite‐ZnO tetrahedrons around pre‐formed CdS, CdSe, and CdTe quantum dots (QDs). The resulting contact between two small but high‐quality crystals creates novel CdX/ZnO heterostructured semiconductor nanocrystals (HSNCs) with extensive type‐II nanojunctions that exhibit more efficient photocatalytic decomposition of aqueous organic molecules under UV irradiation. Catalytic testing and characterization indicate that catalytic activity increases as a result of a combination of both the intrinsic chemistry of the chalcogenide anions and the heterojunction structure. Atomic probe tomography (APT) is employed for the first time to probe the spatial characteristics of the nanojunction between cadmium chalcogenide and ZnO crystalline phases, which reveals various degrees of ion exchange between the two crystals to relax large lattice mismatches. In the most extreme case, total encapsulation of CdTe by ZnO as a result of interfacial alloying is observed, with the expected advantage of facilitating hole transport for enhanced exciton separation during catalysis.  相似文献   

16.
Ti-loaded ZnO and Ti-loaded ZnO/ZnO nanoparticles have been synthesized by sol–gel method and analyzed for photocatalyst application. The phase confirmation was analyzed by powder XRD and surface morphology with HR-SEM and EDAX spectrum. The particle size measured using HR-TEM and SAED pattern confirms the crystalline nature of Ti-loaded ZnO and Ti-loaded ZnO/ZnO nanoparticles. The optical properties were studied with UV–visible diffuse reflectance spectra. The DRS of Ti-loaded ZnO/ZnO nanoparticles are similar to those of pristine ZnO nanoparticles. The KM plots show both the synthesized Ti-loaded ZnO/ZnO and Ti-loaded ZnO exhibit in UV-A region. The electric properties are studied with impedance analyzer, and the results show the charge-transfer resistance of Ti-loaded ZnO/ZnO is larger than that of Ti-loaded ZnO nanoparticles. The photocatalytic activity was studied with methylene blue dye and phenol degradation by Ti-loaded ZnO/ZnO, Ti-loaded ZnO, TiO2 and ZnO nanoparticles. The photocatalytic activity of Ti-loaded ZnO/ZnO nanospheres is slightly higher than that of other nanoparticles, which shows that they have excellent application as photocatalyst.  相似文献   

17.
In this paper, we report (a) the development of ZnO thin films prepared by pulsed laser deposition and partially covered with nano-particles Pd or Au and (b) their physicochemical study, in order to investigate their catalytic and/or adsorptive properties. It is the first time where two different and popular methods, namely pulsed laser deposition and reversed flow-inverse gas chromatography, are combined. The inverse gas chromatographic technique with the corresponding time-resolved analysis is used for the first time in order to characterise compounds in the nano-scale domain. We focus on the determination of physicochemical quantities mainly concerning the adsorption in thin films, with (Pd/ZnO) or without (Au/ZnO) catalytic behaviour. Thus, entropy and other important physicochemical quantities are calculated which reveal the mechanism of adsorption as well as of isomerization-hydrogenation of 1-butene and contribute to the study of heterogeneity of thin film surfaces. The programs used have been written in Fortran. An important achievement is also the determination of the standard deviations of the kinetic constants.  相似文献   

18.
Chemical Vapor Transport of Solid Solutions. 3 Chemical Transport of MnO/ZnO, FeO/ZnO, and CoO/ZnO Mixed Crystals By means of chemical vapor transport using HCl as transport agent (950 → 750 °C) it is possible to prepare solid solutions of MnO, FeO, and CoO in the lattice of ZnO (wurtzite type). Preparation of solutions of ZnO in MnO, FeO resp. CoO however was possible only in the case of FeO. Single crystals up to 10 mm length could be prepared by this way. Lattice parameters have been determined. UV-Vis spectra have been measured and been discussed. Mössbauer spectra of the FeO containining compound have been recorded.  相似文献   

19.
用焙烧前驱物碱式碳酸锌的方法制备了ZnO纳米粒子,采用光还原沉积贵金属的方法分别得到了质量分数为0.5%的Pd/ZnO和Ag/ZnO复合纳米粒子,并利用XRD、TEM、XPS和SPS等测试技术对样品进行表征.初步探讨了贵金属在ZnO纳米粒子表面形成原子簇的原因及沉积贵金属对ZnO纳米粒子表面光电压信号的影响.以光催化氧化气相正庚烷为模型反应,考察了沉积贵金属对ZnO纳米粒子光催化活性的影响,并探讨了光催化活性有所提高的内在原因.结果表明, ZnO纳米粒子沉积贵金属后,其表面光电压信号明显下降,而光催化活性却大大地提高,这说明可以通过表面光电压谱的测试来初步的评估纳米粒子的光催化活性,即粒子的表面光电压信号越弱,其光催化活性越高.  相似文献   

20.
Pd/ZnO和Ag/ZnO复合纳米粒子的制备、表征及光催化活性   总被引:11,自引:0,他引:11  
 用焙烧前驱物碱式碳酸锌的方法制备了ZnO纳米粒子,采用光还原沉积贵金属的方法制备了Pd/ZnO和Ag/ZnO复合纳米粒子,并利用ICP,XRD,TEM和XPS等测试技术对样品进行了表征,初步探讨了贵金属在ZnO纳米粒子表面形成原子簇的原因.以光催化氧化气相正庚烷为模型反应,考察了样品的光催化活性以及贵金属沉积量对催化剂活性的影响.结果表明:沉积适量的贵金属,ZnO纳米粒子光催化剂的活性大幅度提高.同时,深入探讨了表面沉积贵金属的ZnO纳米粒子光催化剂活性有所提高的内在原因.  相似文献   

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