Monoclinic KNbO3 Nanowires for Photocatalytic Methane Production and Dye Degradation

The room temperature stabled monoclinic KNbO3 nanowires were found to act as photocatalyst for photocatalytic methane production and dye degradation in this work. Higher activities have been observed for monoclinic phase compared to the reference（orthorhombic phase）. In the photoreduction of CO2 reaction, the monoclinic KNbO3 nanowires exhibited a CH4 evolution rate of 0.025 μmol·g-1·h-1, which was higher than 0.021 μmol·g-1·h-1 of orthorhombic KNbO3 nanowires. In the photodegradation of rhodamine B（Rh B）, almost all the Rh B were degraded after 90 min light illumination for monoclinic KNbO3 nanowires. But for orthorhombic KNbO3 nanowires, the concentration of Rh B only decreased to 62% of the initial value.

Evaluation of Morphology-Stable Critical Size of KNbO3 Crystals

Skeletal form of KNbO3 crystals growing in Li2B4O7 solvent was in-situ observed at 900℃ and it was found that shallow depression started to develop on the surface of KNbO3 crystals when the crystal size exceeded several micron, typically 7 micron. Based on the quantitative criterion derived by Chernov, the estimated critical size of KNbO3 crystals was 1 micron, which was consistent with the experimental measurement. The kinetic coefficients, kcorner and kcr, in the criterion were experimentally obtained in the diffusive-convective and diffusive-advective flow states respectively.

Ag2CO3/KNbO3复合材料的制备及其光催化降解性能研究

利用水热法并结合共沉淀法成功制备了Ag2CO3/KNbO3复合光催化剂,利用X射线衍射仪(XRD)测定样品的晶体结构,利用扫描电子显微镜(SEM)观察样品形貌,并在紫外光照射下,以罗丹明B(RhB)为模型颜料,研究了Ag2CO3/KNbO3催化剂的光催化降解性能。测试表明,Ag2CO3/KNbO3异质结纳米材料的光催化性能远高于纯的KNbO3,Ag2CO3/KNbO3催化剂的反应速率常数是0.34min^-1,大约是纯KNbO3的85倍。

Low-temperature processing of screen-printed piezoelectric KNbO3 with integration onto biodegradable paper substrates

The development of fully solution-processed,biodegradable piezoelectrics is a critical step in the development of green electronics towards the worldwide reduction of harmful electronic waste.However,recent printing processes for piezoelectrics are hindered by the high sintering temperatures required for conventional perovskite fabrication techniques.Thus,a process was developed to manufacture lead-free printed piezoelectric devices at low temperatures to enable integration with eco-friendly substrates and electrodes.A printable ink was developed for screen printing potassium niobate(KNbO3)piezoelectric layers in microns of thickness at a maximum processing temperature of 120℃ with high reproducibility.Characteristic parallel plate capacitor and cantilever devices were designed and manufactured to assess the quality of this ink and evaluate its physical,dielectric,and piezoelectric characteristics;including a comparison of behaviour between conventional silicon and biodegradable paper substrates.The printed layers were 10.7–11.2μm thick,with acceptable surface roughness values in the range of 0.4-1.1μm.The relative permittivity of the piezoelectric layer was 29.3.The poling parameters were optimised for the piezoelectric response,with an average longitudinal piezoelectric coefficient for samples printed on paper substrates measured as d33,eff,paper=13.57±2.84 pC/N;the largest measured value was 18.37 pC/N on paper substrates.This approach to printable biodegradable piezoelectrics opens the way forward for fully solution-processed green piezoelectric devices.

核壳结构KNbO3@Co(OH)2的制备及其活化过一硫酸盐降解帕珠沙星的研究

制备了以KNbO3为载体材料的Co(OH)2复合材料并对其进行了详细的表征,分析了材料的组成成分、组成形态进而确定了其为核壳结构形貌的KNbO3@Co(OH)2.利用合成的样品作为催化剂活化过一硫酸盐(peroxymonosulfate,PMS)来降解帕珠沙星(pazufloxacin,PZF),结果表明制备的催化剂对PZF的去除效率显著增加.讨论了不同初始PMS剂量对降解效率的影响,发现随着PMS增加可活化生成更多的硫酸根自由基(sulfate radicals,SO4·-)和羟基自由基(hydroxyl radicals,HO·)来降解PZF,但继续增大PMS用量降解效率未见明显提升.酸性和中性pH值条件下利于反应活化PMS降解PZF,而碱性体系减缓反应,甚至强碱体系更易形成Co(OH)2沉淀不利于反应体系中活性组分CoOH+的形成,大大抑制了催化性能.此外,在体系中加入淬灭剂叔丁醇(tert-Butanol,TBA)或者乙醇(ethanol,ETOH)进行自由基的淬灭实验,结果表明SO4·-自由基为体系降解PZF过程中主要贡献的自由基,而HO·自由基的贡献较少.催化剂具有较好的稳定性5次循环之后仍能在10 min之内完全去除PZF.本研究提出了新的思路为制备其他载体的Co(OH)2核壳结构提供参考依据,同时将该催化剂结合高级氧化技术应用到水体新兴有机污染物净化领域具有很好的应用前景.

Fabrication of Z-Scheme WO3/KNbO3 Photocatalyst with Enhanced Separation of Charge Carriers

Z-Schemc photocatalysts as a research locus pertomi strong redox capability and high photocatalytic peribnnance.WO3/KNbO3 photocatalysts were fabricated by ball milling method,and performed higlier photocatalytic activity in liquid degradation(rhodamine B,methylene blue and bisphenol A),compared with WO3 or KNbO3 monomer.This is due to that Z-scheme heterojunction is lonned between WO3 and KNbO3,and the holes photo-excited in valence band of KNbO?are quickly combined with the electrons in conduction band of WO3.The electrons accumulated in conduction band of KNbO3 show high reducibility,thereby reducing O2 to·O 2-,and the holes in valence band of WO3 show high oxidative to oxidize H2O to·OH,respectively.Furthermore,it is proved by means of electron spin resonaiice(ESR)spectra,terephthalic acid photolumiiiescence probing technique(TA・PL),and UV-Vis absorption spectra of nitroblue tetrazolium.This work indicates that the iabrication of Z-scheme structure can improve the photocatalytic activity by efficiently separating the photogenerated electrons and holes in the photocatalytic reaction system,which is helpful to deeply understand the migration mechanism of photoexcited cairier(band-band transfer and Z-scheme transfer)in heterojunction photocatalysts.

用KNbO3对二极管激光输出倍频

据苏黎世瑞士联邦理工学院冈特（P.Gunter）和美国北美菲利浦公司阿斯贝克（P.Asbek）和科茨（S.K.Kurtz）说,用铌酸钾（KNbO3）对GaAlAs二极管激光器的860毫微米输出倍频,已产生输出为350微瓦的蓝色430毫微米二次谐波。冈特说,用785毫瓦的多模激光输入5.

铌酸钠钾基无铅压电陶瓷制备技术新进展

碱金属铌酸盐系无铅压电陶瓷以其优越的压电性能和较高居里温度倍受关注。结合目前有关KNbO3-NaNbO3(KNN)基无铅压电陶瓷的报道,综述了近年来铌酸钠钾基无铅压电陶瓷在粉体制备、陶瓷的成型、烧结以及晶粒取向等制备技术研究的新进展,并从不同方面展望了今后铌酸钠钾基无铅压电陶瓷性能研究及其制备技术上可能的进展。

铌酸钾钠基无铅压电陶瓷的相变特性和掺杂改性研究进展

人类社会可持续发展的要求以及一些发达国家有关电子产品无铅化法规的全面实施,近年来无铅压电陶瓷的研究与开发受到极大关注。碱金属铌酸盐系压电陶瓷以其优越的压电性能和较高居里温度受到人们高度重视。结合近年有关KNbO3-NaNbO3(KNN)基无铅压电陶瓷的报道,着重从KNN基压电陶瓷的相变特性、掺杂改性和引入第三组元等几个方面,介绍了相关研究的现状,并对KNN基压电陶瓷的发展趋势进行了展望。

激光二极管泵浦Nd∶YAG 946nm激光器及倍频研究(英文)

提出如何克服准三能级再吸收损耗和抑制寄生振荡实现 LD泵浦的 Nd∶YAG946nm激光器 .在室温下 946nm连续输出大于 1 2 0 m W,斜率效率接近 1 0 %,同时采用 KNb O3 晶体实现了腔内倍频的蓝色激光输出 .

对流效应和溶质浓度对KNbO_3晶体界面形貌稳定性的影响

研究了在不同对流形态对ＫＮｂＯ３晶体生长形貌的影响．在温度梯度较小的扩散－平 流区域，晶体以枝蔓晶的形态生长；而在温度梯度较大的扩散－对流区域，生长出的晶体呈现 光滑晶面．通过测定不同区域ＫＮｂＯ３晶体界面附近的溶质浓度分布，从对流效应降低晶体界 面附近的溶质浓度分布的不均匀性的角度研究了对流效应对晶体界面形貌稳定性的影响，证明 对流效应提高了晶体界面形貌稳定性，与晶体界面弥散度的理论计算结果相一致．同时解释了 扩散－对流区域的晶体尺寸大于扩散－平流区域的晶体尺寸的原因．观察并定性地解释了不同 溶质浓度ＫＮｂＯ３形成不同的界面非稳定形貌，当 ＫＮｂＯ３重量百分比为２０ｗｔ％时形成骸晶， ３０ｗｔ％时形成枝蔓晶．

磁场对KNbO_3熔体中温度分布影响的实验研究

研究了磁场对ＫＮｂＯ３熔体中的温度分布的影响．利用加磁场的休仑微分干涉显微实时观察装置及一种近似的间接测温方法，对在不同磁场强度０、７０、１１７、１３５ｍＴ下，ＫＮｂＯ３熔体中的径向温度分布进行测量．发现随着磁场强度的增大，熔体中的径向温度梯度减小，尤其在坩埚－熔体界面附近，浮力驱动对流占主要作用的区域，温度梯度的减小更加明显．这可能是由于磁场对熔体中浮力驱动对流抑制的结果．

高温KNbO_3熔液内速度场和温度场的实验研究及其数字模拟分析

在重力对流作用的情况下,本文对实验所用的铂金坩埚中的高温熔液内的速度分布和温度分布进行了数字模拟研究,结果表明:借助实验边界条件和Boussinesq近似,铌酸钾高温熔液中的速度分布及温度分布的数字模拟结果与实验结果基本吻合,流体运动的轨迹与实验示踪粒子轨迹也基本一致.

水热-溶剂热法合成铌酸钾粉体的研究

以分析纯Nb2O5,KOH为原料,通过添加无水乙醇利用水热-溶剂热法合成了结晶度高、晶粒发育完整的KNbO3粉体。借助X射线衍射仪、扫描电子显微镜以及透射电镜对所得粉体进行了表征,研究了合成时间对产物晶相、粒径大小以及形貌的影响。实验结果表明:采用水热-溶剂热法,在矿化剂浓度为6mol/L的条件下反应3h得到了纯正交相结构的KNbO3粉体,反应时间对产物形貌影响较大,随着反应时间的延长KNbO3由棒状晶体转化为规则的六边形晶体。

KNbO_3:Fe晶体的最佳二波耦合

本文在分析光折变晶体KNbO_3:Fe的最佳二波耦合条件的基础上,通过计算和实验研究了晶体KNbO_3:Fe的二波耦合增益系数Γ与两光束的夹角2θ、光栅矢量的取向β及不同电光系数r51或r42的关系,获得了在特定掺杂浓度N～10^(16)cm^(-3)条件下KNbO_3:Fe晶体的最佳二波耦合条件为:θm～4°—8°并且βm～45°.

KNb_(0.9)Mg_(0.1)O_(3-a)固体电解质的合成及其离子导电性

利用高温高压法制备了具有正交钙钛矿结构的KNb0 9Mg0 1 O3 a固体电解质。阻抗谱分析发现 ,样品的晶界效应比较明显 ,电导率主要取决于晶界电导。根据测得的阻抗谱 ,提出了等效电路。通过对阻抗谱数据进行拟合 ,获得了晶粒、晶界及总电导率。在测量温度范围内 ,电导率与温度成线性关系 ,满足Arrhenius经验公式。Mg2 + 掺杂显著提高了样品的电性能 ,70 0℃时KNb0 9Mg0 1 O3-a的氧离子电导率为 1 2× 10 - 3S cm。

水热合成KNbO_3粉体的理论设计与实验研究

以K-Nb-H2O三元体系为研究系统,在Lencka-Riman热力学模型的框架内,对水热法合成KNbO3粉体进行了理论设计,得到了体系稳定产出相图和优化的合成条件包括反应温度、反应物浓度和溶液的pH控制等重要信息.研究结果表明,前驱物浓度和pH调节(矿化剂KOH浓度)是形成纯相KNbO3必需的条件.在此基础上,利用简单的五氧化二铌和KOH做前驱物,在523K反应温度,高强碱性溶液条件下,常规水热法成功合成了纯相的KNbO3粉体.实验研究和理论设计十分吻合.

KNbO_3粉体的低温合成研究

以尿素为燃烧剂,采用低温燃烧法在较低的温度下合成了纯相的KNbO3粉体。采用XRD、SEM和TG-DSC研究了KN晶相的形成过程。结果表明,采用该法可在550℃下合成纯相的KN粉体,当煅烧温度升高至700℃时,立方相的KN粉体转变成了正交相的KN粉体。本研究还就工艺参数对粉体物相的影响进行了讨论。