Synthesis of Neodymium-Doped Yttrium Aluminum Garnet (Nd∶YAG) Nano-Sized Powders by Low Temperature Combustion

The homogeneously dispersed, less agglomerated (Nd0.01Y0.99)3Al5O12 nano-sized powders were synthesized by the low temperature combustion (LCS), using Nd2O3, Y2O3, Al(NO3)3·9H2O, ammonia water and citric acid as starting materials. This method effectively solves the problems caused by solid-state reaction at high temperature and hard agglomerates brought by the chemical precipitation method. The powders were characterized by TG-DTA, XRD, FT-IR, TEM respectively and the photoluminescence (PL) spectra of (Nd0.01Y0.99)3Al5O12 green and sintered ceramic disks were measured. The results show that the forming temperature of YAG crystal phase is 850 ℃ and YAP crystal phase appearing during the calcinations transforms to pure YAG at 1050 ℃. The particle size of the powders synthesized by the LCS is in a range of 20～50 nm depending on the thermal treatment temperatures. The effectively induced cross section (σin) with the value 4.03×10-19 cm2 of (Nd0.01Y0.99)3Al5O12 ceramics is about 44% higher than that of single crystal.

Application of Stereology on Neodymium-Doped Yttrium Aluminum Garnet (Nd∶YAG) Transparent Ceramics

Nd ： YAG precursor powders were synthesized by homogeneous precipitation, and Nd ： YAG transparent ceramics were prepared by vacuum sintering at 1700 ℃ for 5 h. The ceramic materials were characterized by light transmittance and field emission gun-environment scanning microscope. Using statistics and stereology theory, study was carried out on the quantitative relationships between light transmittance and stereological parameters in three-dimensional Euclidean space. It is found that the transmittance of Nd：YAG with 1 mm in thickness is about 45% and 58% in visible and near-infrared wavelength, respectively. The transmittance linearly increases with increasing equivalent sphere diameter and reaches the theoretical value of single crystal when the equivalent sphere diameter is 20μm. The transmittance decreases with the increasing of mean specific area per unit volume of grain and discrete grains, and the transmittance decreases with increasing mean free distance of grains in Nd：YAG ceramics.

Preparation of Neodymium-Doped Yttrium Aluminum Garnet Transparent Ceramics by Homogeneous Precipitation Method

substitutes tion, high loosely dis Neodymium doped-yttrium aluminum garnet （Nd ： YAG） transparent polycrystalline ceramics already become of single crystals because they are provided with easy fabrication, low cost, large size, highly doped concentraheat conductivity, mass fabrication, multi-layers and multi-filnctions. The Nd：YAG precursor powders with persed , slightly agglomerated, super fine and YAG cubic crystal phase were synthesized at 1100 ℃ by the homogeneous precipitation method, using Nd2O3, Y2O3, Al（NO3）3·9H2O and urea as raw materials, （NH4）2SO4 as electrical stabilizer, TEOS as sintering additive. The Nd：YAG transparent ceramics were prepared after being vacuum sintered at 1700 ℃ for 5 h. The Nd：YAG ceramic materials were characterized by the TG-DTA, XRD, FT-IR, TEM, FEG-ESEM and FT-PL. The results show that the crystallization temperature of YAG is 850 ℃ and the intermediate crystal phase YAP forming during the heat treatment transforms to YAG cubic crystal phase at 1050 ℃. The lasing wavelength of （Nd0.01 Y0.99）3Al5O12 transparent ceramics is 1.065 μm and there exists a slight red-shift compared to the single crystal with the same chemical composition. The optical transmittance is 45 % in the visible light and 58 % in the near infrared light and the optical transmittance descends with the decreasing the wavelength.

Neodymium-doped Yttrium Aluminum Garnet Transparent Laser Ceramics Prepared by Co-precipitation Method

Transparent polycrystaUine neodymiumdoped yttrium aluminum garnet ceramics （Nd：YAG） with better chemical stability, excellent optical and high temperature mechanical property is becoming a new laser host material. The Nd：YAG precursor powders with loosely dispersed, slightly agglomerated and YAG cubic crystal phase were synthesized at 1100 ℃ by the co-precipitation method combined with the reverse strike,

Application of Fractals on Microstructure of Neodymium-Doped Yttrium Aluminum (Nd∶YAG) Transparent Ceramics

Nd∶YAG precursor powders were synthesized by homogeneous precipitation and Nd∶YAG transparent ceramics were prepared by vacuum sintering at 1700 ℃ for 5 h. The ceramic materials were characterized by light transmittance, field emission gun-environment scanning microscope. Fractal geometry was used to study the quantitative relationships between light transmittance and fractal dimensions of Nd∶YAG transparent ceramics. It was found that the transmittance of Nd∶YAG with 1 mm in thickness was about 45% and 58% in visible and near-infrared region respectively. The microstructures of Nd∶YAG transparent ceramics were obvious fractal characteristic and fractal dimensions depart a little from two-dimension. The light transmittance decreased with increasing of fractal dimension and nonlinear fit curve was y=1350-1185x+269x2 between fractal dimension and light transmittance of Nd∶YAG transparent ceramics.

Er:YAG激光和传统车针去龋后牙本质粘接强度的比较

目的:比较使用不同模式Er:YAG激光以及传统车针去龋后牙本质与复合树脂的粘接强度。方法:选用人类离体磨牙模拟龋坏,分别采用Er:YAG激光中短脉冲(medium short pulse,MSP)模式、Er:YAG激光超短脉冲(super short pulse,SSP)模式和传统车针去除模拟的龋坏后,采用自酸蚀粘接剂将牙体标本与复合树脂粘接制成试件。使用万能试验机对试件进行拉伸试验,测得断裂负荷和粘接强度,并采用单因素方差分析和Tukey多重比较进行统计学分析。采用扫描电子显微镜观察3种不同去龋方式处理后的牙本质表面形态,以及涂布自酸蚀粘接剂并固化后试件的横截面形态。结果:使用Er:YAG激光MSP模式处理后牙本质与复合树脂的粘接强度最高,SSP模式处理后次之,传统车针处理后最低,但差异无统计学意义(P>0.05)。扫描电子显微镜图像显示,Er:YAG激光MSP模式处理后的牙本质表面较平坦,牙本质小管内几乎没有残屑;Er:YAG激光SSP模式处理后的牙本质表面呈现鳞片状,牙本质小管内可见少量碎屑;而传统车针处理后牙本质小管大部分处于被表面牙本质部分甚至完全遮盖的状态,牙本质小管内充满残屑。结论:使用Er:YAG激光去龋相比传统车针去龋可以获得较好的牙本质粘接强度,且对牙本质小管的处理深度和洁净度明显优于传统车针去龋,其中MSP模式更佳。

Successful Treatment of Mutinucleate Cell Angiohistiocytoma with Nd:YAG Laser

A 50-year-old man had noticed the gradual appearance of asymptomatic skin lesions on the dorsal aspects of the hands during the last 3 years. Physical examination revealed clusters of multiple purplish dome-shaped infiltrated papules. Histopathological examination was compatible mutinucleate cell angiohistiocytoma. We treated him with 10,464 nm Nd:YAG laser, after the second session, some of the lesions had disappeared completely while the rest has gained substantial improvement. There were no adverse reactions and no recurrence after two years of follow-up. MCAH is a rare vascular fibrohistiocytic proliferation. No standard of care exists. We believe that Nd:YAG laser should be considered the treatment of choice.

Nd:YAG激光爆破模式对后囊膜切开术效果的影响

目的探讨掺钕钇铝石榴石(Nd:YAG)激光不同爆破模式对后囊膜切开术效果的影响。方法收集2017年12月至2019年12月承德医学院附属医院治疗的后囊膜混浊患者59例59眼,采用随机数字表法将其分为单脉冲组(29例)和多脉冲组(30例)。比较两组手术前后最佳矫正视力(BCVA)、眼压、前房闪辉和前房细胞发生等级、黄斑中心区视网膜厚度和生活质量等。结果术后1周,两组BCVA均高于术前(P<0.05)。两组不同时间点眼压比较,差异有统计学意义(P<0.05)。术后1周,两组前房闪辉和前房细胞发生等级均低于术后1 h(P<0.05)。单脉冲组Nd:YAG激光总能量低于多脉冲组(P<0.05)。两组不同时间点黄斑中心区视网膜厚度比较,差异有统计学意义(P<0.05)。结论后囊膜切开术中Nd:YAG激光单脉冲模式较多脉冲模式节省激光能量,减轻眼内光损伤,临床中可首选应用。

Synthesis and Characterization of Neodymium and Ytterbium-doped Yttrium Aluminum Garnet Nano-powder

Nd/Yb-co-doped YAG transparent ceramic nano-powder was prepared by a sol-gel combustion method.The structure,morphology and properties were characterized by thermogravimetric-differential thermal analysis,X-ray diffraction,transmission electron microscopy,infrared spectroscopy,absorption analysis and fluorescence spectroscopy,respectively.The results show that the mass loss of the powder calcinated at 900 ℃ for 3 h is 49.56%.A well-crystallized Nd/Yb:YAG nano-powder with the superior sintering performance and high purity is obtained,and the morphology of the particles with the average diameter in the range of 60-100 runs appears regular.The nano-powder exhibits an intense absorption at 808 nm,corresponding to the 4I/9/2-4F7/2 transition of Nd^(^(3+) ions,which is suitable to absorb the wavelength of 808 nm from a laser diode source.The emission peak at 1046 nm of the Nd/Yb:YAG powder is more intense than that of Nd^(^(3+):YAG powder.It is indicated that the energy absorbed by Yb^(^(3+) ions from the laser diode source can be transmitted to Nd^(^(3+) ions based on the cross relaxation process of[(4F3/2)Nd,(2F7/2)Yb]-[(479/2)Nd,(2F5/2)Yb].

稀土氧化物掺杂对Y_(3)Al_(5)O_(12)热障涂层材料热膨胀性能的影响

采用固相烧结法制备稀土氧化物(Gd_(2)O_(3),Er_(2)O_(3),Sc_(2)O_(3))掺杂钇铝石榴石(YAG)热障涂层材料.通过X射线衍射仪、扫描电镜和热膨胀仪研究掺杂离子种类、含量和掺杂位置对材料物相组成、微观形貌和热膨胀性能的影响规律.结果显示:阳离子半径小于Y^(3+)的Sc_(2)O_(3)掺杂YAG陶瓷材料热膨胀性能最优.当掺杂量x为0.6时,(Y_(0.4)Sc_(0.6))_(3)Al_(5)O_(12)陶瓷的平均热膨胀系数最大,约为12.34×10^(-6)K^(-1),比纯YAG陶瓷的平均热膨胀系数(~8×10^(-6)K^(-1))提高了约50%.

掺钕钇铝石榴石激光联合脱敏牙膏封闭牙本质小管后抗酸蚀的效果评价

目的 评估掺钕钇铝石榴石(Nd∶YAG)激光和含有氟化亚锡系统的脱敏牙膏不同应用顺序对牙本质小管封闭效果的影响。方法 选择12颗完整的新鲜拔除的人第三磨牙制备成0.8 mm厚牙本质片,将每个牙本质片再分为4小片,取其中3小片,用6%的柠檬酸进行腐蚀,随机分配至以下3组(n=12):(1)对照组:无处理;(2)Nd∶YAG激光+牙膏(TB)组:先用Nd∶YAG激光照射,后用脱敏牙膏刷牙;(3)TB+Nd∶YAG组:先用脱敏牙膏刷牙,后用Nd∶YAG激光照射。Nd∶YAG激光照射参数均为:1 W,15脉冲/s,脉冲宽度150μs,照射10 s, 6个循环。经上述处理后,将Nd∶YAG+TB组和TB+Nd∶YAG组的12个牙本质片随机分配到4个亚组(n=3),分别在可口可乐液中接受酸蚀0、5、10、15 min。采用扫描电子显微镜观察各组牙本质片并拍片,由8名单盲检查员根据统一标准给出评分,采用方差分析对各组评分进行比较。结果 酸蚀前,Nd∶YAG+TB组和TB+Nd∶YAG组的牙本质小管封闭评分分别为(4.83±0.09)分和(3.85±0.66)分,均明显高于对照组的(0.10±0.07)分(P均<0.0001),Nd∶YAG+TB组与TB+Nd∶YAG组差异无统计学意义(P=0.0590)。Nd∶YAG+TB组酸蚀5、10、15 min牙本质小管封闭评分分别为(4.33±0.60)、(4.27±0.24)、(3.63±0.07)分,与TB+Nd∶YAG组的(4.04±0.10)、(3.76±0.59)、(3.17±0.29)分差异均无统计学意义(P均>0.05)。在Nd∶YAG+TB亚组中,酸蚀15 min牙本质小管封闭评分明显低于酸蚀前(P=0.0011)。在TB+Nd∶YAG组中,酸蚀前后牙本质小管封闭评分间差异无统计学意义(P>0.05)。结论 适当参数的Nd∶YAG激光照射结合使用脱敏牙膏,不论先后顺序,均可以产生良好的牙本质小管封闭效果,但是先用脱敏牙膏刷牙后用Nd∶YAG激光照射组在酸蚀后的牙本质封闭效果更稳定。

微乳液法制备纳米球形YAG:Ce^(3+)荧光粉及其发光性能(英文)

采用反相微乳液法,以水/曲拉通X-100/正己醇/(环己烷+正己烷)为微乳体系,铝(Al)、钇(Y)和(Ce)的硝酸盐和氯化物作为起始反应物,氨水作为沉淀剂,成功制备了纳米球形铈掺杂钇铝石榴石(cerium doped yttrium alum inum garnet,YAG:Ce3+)荧光粉。实验表明:单相YAG可以在800℃合成,比固相反应法合成温度(1500℃)大幅度降低。用失重-差热分析仪、Fourier变换红外光谱仪、X射线衍射仪、透射电镜、荧光分光光度计等对粉体特性进行了表征。结果表明:粉体颗粒粒径约为50nm,粒度分布均匀,球形度好,分散性好,粉体的激发光谱为双峰结构,主激发波长为469nm,发射波长为532nm,适用于白光发光二极管。

白光LED用Ce:YAG单晶的光学性能与掺杂浓度分析

采用提拉法生长Ce：YAG单晶,通过X射线衍射和激发发射光谱对其晶相结构和光谱特性进行了表征,研究了Ce：YAG单晶封装白光LED的最佳掺杂浓度.在455 nm蓝光激发下, Ce：YAG单晶的发射光谱可由中心波长526 nm（5d12 EgГ8g→4f12 F7/2Г8u）的宽发射带（500~650 nm）组成；激发光谱由343 nm （4f12F5/2Г7u→5d12EgГ7g）和466 nm（4f12F5/2Г7u→5d12EgГ8g）2个激发峰组成；Stokes位移为2448 cm-1, Huang-Rhys因子为6.12.研究结果表明, Ce：YAG单晶中Ce离子掺杂浓度与封装的白光LED之间有对应关系,在650 nm红粉调节下Ce离子最佳掺杂浓度范围为0.034~0.066.

Nd：Y3Al5O12透明陶瓷的超精密加工

用化学机械抛光法加工掺钕钇铝石榴石(Nd:Y3Al5O12,Nd:YAG)透明陶瓷。为了提高加工效率,在研磨阶段逐步减小B4C磨料的粒径,精密研磨和抛光阶段采用粒度为3,1μm和0.3μm氧化铝粉;最后,选用胶体二氧化硅作为抛光液进行化学机械抛光,以获得更好的表面光洁度。采用Wkyo 激光干涉仪测量加工样品的平面度,光学显微镜观察表面宏观损伤,原子力显微镜测量表面粗糙度和微观形貌。结果表明:采用该工艺可实现高效率、高精度Nd:YAG 透明陶瓷的超精密加工,加工后的 Nd:YAG 陶瓷表面粗糙度<0.2nm RMS(root mean square),平面度<λ/10 (λ=633 nm),微观损伤少。

Nd:YSAG透明陶瓷的制备及激光实验

以氧化钇(99.99%,质量分数,下同)、氧化钕(99.99%)、硝酸铝(分析纯)、乙二胺四乙酸(C10H16N2O8,分析纯,EDTA)为原料,经过成型、素烧最终在氢气气氛中用燃烧法制备了掺钕的钇铝钪石榴石[Ndx:Y3(1–x)(Scy,Al2–y)Al3O12,Nd:YSAG]粉体。结果表明:采用这种方法在900℃可以合成Nd:YSAG单相粉体。在氢气气氛中1850℃烧结6h可以获得较好的Nd:YSAG粉体,即制备的Nd:YSAG粉体具有很好的烧结活性。在Nd:YSAG透明陶瓷中,Nd的摩尔分数可达6%,甚至更高,样品的透过率依然很好。Nd:YSAG透明陶瓷具有谱线较宽的特点。实验中,用激光Ti:Sapphire作为泵浦源,采用平凹腔结构获得了激光输出为10mW。

Yb_3Al_5O_(12)激光晶体的生长

采用中频感应提拉法成功生长出Yb3Al5O12(YbAG)激光晶体。通过X射线粉末衍射分析,得出了YbAG晶体的晶胞参数:a=1.193799nm,β=90°,V=1.70135nm3;密度为6.62g/cm3。测量了室温下YbAG晶体的吸收光谱和发射光谱特性。研究表明:在938nm和968nm处存在Yb3+离子的2个吸收带,能与InGaAs激光二极管(LD)有效耦合,适合激光二极管泵浦;其荧光主峰位于1036nm附近,YbAG晶体的荧光寿命为270μs。

白光LED用Ce:YAG单晶光学性能及封装工艺的研究

采用提拉法生长了白光LED用Ce：YAG单晶，通过吸收光谱、激发发射光谱和变温光谱对其光学性能和热稳定性进行了表征，并研究了晶片用于封装白光LED光源中各因素对其光电性能的影响。Ce：YAG晶片能被466 nm波长的蓝光有效激发，产生500-700 nm范围内的宽发射带。Ce3＋的4f→5d轨道的跃迁吸收对应于202、219、247.3、347.4和455.5 nm五个吸收峰，据此量化分裂的5d能级能量，依次为21954、29154、40437、45662和49505 cm-1。温度升高， Ce3＋的2F7/2能量升高导致了发光强度的降低，可降低幅度（13.28%）不大，比肩国家标准且要优于目前商用白光光源的Ce：YAG单晶制白光LED光源的封装工艺，从芯片、驱动电流、晶片厚度和添加物四方面进行讨论。研究结果表明， Ce：YAG单晶是一种新型白光LED用荧光材料。

牙周牙髓联合病变激光与药物辅助治疗的对比研究

目的探讨双波长激光对比盐酸米诺环素治疗牙周牙髓联合病变的优越性。方法收集牙周源性牙周牙髓联合病变患者43例共48颗患牙,随机分为实验组和对照组。实验组掺铒钇铝石榴石(Er:YAG)消毒根管+掺钕钇铝石榴石固体激光(Nd:YAG)处理牙周袋;对照组碘伏消毒根管+盐酸米诺环素牙周袋上药。按视觉模拟评分法(VAS)观察两组治疗后1天疼痛差异,对比两组1周、2周、3周、3个月和6个月后牙周袋深度(PD)、牙周附着水平(CAL)、牙齿松动度,评价两组疗效。结果两组治疗后1天疼痛比较,差异有统计学意义;不同时间PD、CAL静息状态下VAS评分比较,差异有统计学意义(P<0.05);两组牙齿松动度比较,差异有统计学意义(P<0.05);实验组疗效优于对照组。结论双波长激光优于盐酸米诺环素治疗牙周牙髓联合病变素,临床应用前景良好。

共沉淀法制备掺钕钇铝石榴石透明激光陶瓷的研究

掺钕钇铝石榴石(Nd∶YAG)多晶透明陶瓷具有良好的化学稳定性、光学性能和耐高温性能,是一种很有前途的激光工作物质。以Al(NO3).9H2O,Y2O3,Nd2O3和NH4HCO3为原料,(NH4)2SO4为静电稳定剂,正硅酸乙酯为添加剂,采用共沉淀法和反滴定方式于1100℃合成出分散均匀、团聚程度轻、YAG立方晶相的Nd∶YAG纳米前驱体粉末,经1700℃真空烧结5 h制备出Nd∶YAG透明陶瓷材料。采用TG-DTA,XRD,TEM,FT-PL和FEG-ESEM等测试手段对Nd∶YAG陶瓷材料进行了表征。研究结果表明:前驱体粉末在800℃时为无定型态,当温度达到890℃时析出大量的YAlO3(YAP)和少量的Y3Al5O12(YAG)晶体,当温度达到1012℃时就全部转化为YAG立方晶相;前驱体纳米粉末中存在团聚。Nd∶YAG陶瓷材料的激光工作波长为1.065μm,和相同组分的单晶相比存在轻微的红移现象;随着透射光波长的增加,透光率逐渐增加,在可见光区透光率约为45%,在近红外光区透光率约为58%。

共沉淀法制备纳米铈掺杂钇铝石榴石荧光粉及其荧光特性

以NH4HCO3、NH3.H2O混合溶液为沉淀剂,用共沉淀法结合后续煅烧制备了铈掺杂钇铝石榴石(YAG∶Ce)荧光粉,并采用热分析、红外光谱、X射线衍射、场发射扫描电镜等对粉体进行了研究,分析了铈掺杂浓度对粉体发射光谱和激发光谱的影响。结果表明:共沉淀法制备的铈掺杂钇铝石榴石经过1 000℃煅烧2 h,得到纳米晶YAG∶Ce荧光粉;随着铈浓度的增加,荧光粉发射光谱发生红移,激发光谱基本不变。