含二氧化钛氧化锌防晒乳对敏感性皮肤光子嫩肤术后的防晒作用

探讨外用含二氧化钛氧化锌防晒乳在光子嫩肤治疗敏感性皮肤术后应用的有效性及安全性。2021年6—10月,在首都医科大学附属北京友谊医院、同仁医院、佑安医院、北京市中医医院皮肤科接受光子嫩肤治疗敏感性皮肤受试者64例[男3例、女61例,年龄20~60(34.0±8.3)岁],分为对照组和观察组各32例。两组光子嫩肤后均给予医用膏剂敷料外用,对照组术后采取常规物理性防晒,观察组外用含二氧化钛氧化锌防晒乳。于治疗前及治疗后28 d进行临床医师评估,记录观察组受试者应用防晒乳的温和性、使用感、疗效评估;于治疗前及治疗后28 d使用VISIA皮肤检测仪进行检测。观察组中有30例对防晒整体防护性感到满意,占93.75%;术后28 d观察组不适症状较对照组改善明显,差异有统计学意义(P<0.05);光子治疗前后VISIA检测的紫外线色斑、棕色斑、红色区比较,观察组明显优于对照组。光子嫩肤术后使用含二氧化钛氧化锌防晒乳,安全性良好,能减少术后晒红晒黑不良反应发生。

纳米二氧化钛-氧化锌/硅溶胶/导电胶复合材料固定联吡啶钌制备磷酸可待因电化学发光传感器

利用硅溶胶的成膜性、纳米二氧化钛-氧化锌大的比表面积及导电胶的粘结性,制备了纳米二氧化钛-氧化锌/硅溶胶/导电胶复合材料,基于此复合材料将联吡啶钌固定到金电极表面,制备了磷酸可待因电化学发光（ECL）传感器。在优化的实验条件（800 V负高压、扫描速度100 m V/s,磷酸盐缓冲体系（p H 6.5））下,可待因浓度在1.0×10^-7-1.0×10^-4mol/L范围内与电化学发光强度呈良好的线性关系（r^2=0.9973）,检出限为2.56×10^-8mol/L（S/N=3）。传感器表现出良好的重现性与稳定性,连续平行测定1.28×10^-5mol/L可待因溶液10次,发光强度的相对标准偏差（RSD）为2.7%;室温下保存10天后,发光强度为初始值的92%以上。测定可待因药物实际样品的加标回收率在99.3%-102.5%之间。

微波协同氧化锌/二氧化钛复合材料对羽绒的抗菌工艺

利用高温分解法合成氧化锌/二氧化钛复合材料,并测定在不同微波条件下,该复合材料对羽绒的抗菌效果,探讨了最佳抗菌工艺条件(羽绒与复合材料的质量比、微波功率、微波温度和微波时间);同时也对所合成复合材料进行回收,研究其回收后抗菌效果。实验结果表明,微波协同氧化锌/二氧化钛复合材料的最佳抗菌工艺条件为:羽绒与复合材料的质量比1∶1,微波功率400 W,微波温度47℃,微波作用时间1 min,最佳抑菌率为78.89%,一次回收抑菌率为64.71%,至少可回收2次。

氧化锌、二氧化钛小颗粒悬浮液显现手印的研究

应用小颗粒悬浮液显现汗潜手印的基本原理,实验采用氧化锌、二氧化钛最佳配方配制了悬浮液,用小颗粒悬浮液法显现手印的不同的客体、不同放置时间和不同物质进行了大量实验,该方法不仅适应干燥客体上的手印,还适用于常规方法无法奏效的某些潮湿、水浸客体上的手印显现。

TiO2、ZnO和TiO2/ZnO三种氧化物粉体材料的抗菌性能对比

氧化物具有化学性质稳定、原材料丰富易得的优点,其作为抗菌材料日益受到关注。对氧化物的抗菌性能及影响因素开展深入研究,能够为新型抗菌材料的开发提供科学依据。通过溶胶-凝胶法制备出了TiO_2/ZnO复合粉体,并将其与TiO_2、ZnO进行对比,分别对它们的晶相结构、微观形貌和粒径进行了表征。利用大肠杆菌ATCC25922作为受试菌株,通过抑菌环试验和菌液接触试验对3种氧化物粉体材料的抗菌性能进行测试。考察了钛锌比、光照等条件对抗菌效果的影响。结果表明,所使用的TiO_2主要由锐钛矿相和金红石相组成,ZnO主要为六方纤锌矿相,制备出的TiO_2/ZnO则主要是锐钛矿型TiO_2在六方纤锌矿型ZnO的孔隙间沉积而成,这3种粉体材料的粒径由大到小分别为TiO_2/ZnO、TiO_2和ZnO。从抑菌环和菌液接触试验的结果可以看出,ZnO粉体材料的抗菌效果明显优于TiO_2粉体材料,ZnO和TiO_2/ZnO在黑暗条件下仍有良好的抗菌性能,但在可见光照射条件下抗菌效果更佳。ZnO含量是TiO_2/ZnO复合材料抗菌性能的关键因素。制备TiO_2/ZnO粉体材料时的煅烧温度对其抗菌性能没有明显影响。

ZnO异质复合对纳米TiO_2晶型转变和晶粒生长的影响

以TiCl4,ZnSO4溶液为原料,采用液相沉淀法制备了不同ZnO/TiO2摩尔比的纳米复合粉体。对合成的纳米复合晶的相变、晶粒生长过程以及紫外-可见光吸收性能进行了研究。结果表明:纳米TiO2经ZnO复合后,其晶型转变和晶粒生长均受到抑制。当ZnO为30%(摩尔分数)时,且采用氨水滴入TiCl4和ZnSO4溶液中的沉淀方式制备的ZnO/TiO2纳米复合晶的晶型转变和晶粒生长最缓慢。紫外-可见光吸收测试表明:800℃煅烧的ZnO/TiO2复合粉体的吸收强度比纯TiO2的高;900～1050℃煅烧的复合粉体,虽然紫外区的吸收强度有所下降,但其光吸收带边比纯TiO2纳米晶的有显著红移。

ZnO-TiO_2系微波介质陶瓷的相结构及研究进展

对ZnO-TiO2体系相结构进行了分析,并从制备工艺、掺杂改性和低温烧结三个方面综述了ZnO-TiO2系微波介质陶瓷的研究进展,提出ZnO-TiO2系微波介质陶瓷的主要发展方向:①掺杂金属阳离子改性;②采用物理方法(包括半化学法)降低颗粒半径,在提高反应活性的基础上,掺杂适量助烧剂,实现陶瓷的低温烧结。

Enhanced Photoelectrochemical Property of Zn Loaded TiO2 Nanotube Arrays Electrode

TiO2 nanotube arrays （TNTs） electrode loaded with Zn nanoparticles was prepared by anodization and the size of Zn nanoparticle loaded on TNTs electrode was controlled by chronoamperometry deposition time. Results of SEM and XRD analysis show that Zn nanoparticles had a diameter of about 15-25 nm when the deposition time was 3-5 s. The UV-Vis diffuse reflectance spectra show the Zn loaded harvest light with 480-780 nm more effectively than the unloaded sample. The photocurrent response of Zn loaded TNTs electrodes were studied, the results showed that TNTs electrodes loaded with Zn nanoparti-cles has 50% increased photocurrent response under high-pressure mercury lamp irradiation compared with unloaded TNTs electrode.

Multichannel charge separation promoted ZnO /P25 heterojunctions for the photocatalytic oxidation of toluene

The fabrication of multicomponent heterojunctions is an effective strategy to improve the performance of TiO2 based photocatalysts. We provide a new strategy for improving the charge separation and photocatalytic performance of ZnO /TiO2 composites by the formation of multichannel charge separated heterojunctions. ZnO /P25 composites were prepared by an incipient wetness impregnation method, and applied for the photocatalytic destruction of gaseous toluene. The ZnO /P25 composites consist of anatase TiO2（ATiO2）, rutile TiO2（RTiO2） and hexagonal zincite structures. The parasitic phase of ZnO in P25 leads to the formation of ZnO（002）/ATiO2（101）/RTiO2（110） heterojunctions that exhibit enhanced light absorption and improved multichannel electron/hole separation. ZnO /P25 heterojunctions can completely oxidize toluene into CO2 and H2O under ultraviolet light irradiation at room temperature, and show enhanced photocatalytic activity in comparison with P25 owing to the efficient electron-hole separation. Such a multichannel charge separated design strategy may provide new insight into the design of highly effective photocatalysts and their potential technological applications.

无甲醛免烫整理剂在纯棉高支府绸上的应用

对高支纯棉府绸进行无甲醛免烫整理,选用多元羧酸作为整理剂、氧化锌包覆纳米二氧化钛固 体超强酸为催化剂的整理工艺。对影响整理效果的工艺因素进行了初步探讨。

Degradation of Antibiotics in Aqueous Solution by Photocatalytic Process： Comparing the Efficiency in the Use of ZnO or TiO2

The study examined the photodegradative efficiency of ZnO and TiO2 in degradation of antibiotics in aqueous matrices. Among several types of antibiotics, four antibiotics were chosen to feature the major classes of these compounds： amoxicillin, erythromycin, streptomycin and ciprofloxacin. Degradation of antibiotic solutions was carried out mainly under UV-light irradiation in a set time with the presence of small quantity of zinc oxide or titanium dioxide. Solutions were analyzed with HPLC chromatography and degradation percentages were calculated from ratio between pick area associated to no degraded drug solution and degraded drug solution＇s pick area. Meanwhile, toxicity of antibiotics and degrading compounds were investigated using a biosensor system, consisting of Clark＇s electrode associated with a portion of agar medium culture containing Saccharomyces Cerevisiae yeast cells. This way, it was possible to define the oxygen that was consumed by yeast cells. Toxicity associated to antibiotics and degrading products are related to decrease of oxygen concentration in solution. It is clear that zinc oxide is slower than titanium dioxide to degrade antibiotics, but zinc oxide shows better photodegradation efficiency than titanium dioxide in spite of its small specific superficial area.

污水处理中MB光催化降解研究

水污染是人类面临的重要环境问题,光催化是缓解该问题的有效措施之一,因此研究适用于水污染的光催化剂是关键问题.本研究利用水热法制备了氧化锌(ZnO)纳米棒薄膜,探究了不同比例Zn^2+前驱体对薄膜生长情况的影响.然后在薄膜上利用溶胶凝胶法淀积了一层二氧化钛(TiO2),得到ZnO/TiO2复合薄膜.利用X射线衍射仪、扫描电镜对纯氧化锌薄膜及淀积二氧化钛后的复合薄膜的结构和形貌进行表征,利用紫外可见光谱仪检测ZnO/TiO2复合薄膜光催化降解有机物的效果.本研究解决了单一光催化剂的电子-空穴对复合率高、污水中光催化剂难以回收的难题,设计的催化剂具有绿色无污染、易于制备、催化效率高的特点.