纳米粒子形貌与表面等离子体激元关系

通过调控纳米粒子表面形貌,研究了纳米粒子形貌与表面等离子体激元之间的关系.采用水相化学合成法制备出粗糙表面“花朵”形银纳米粒子.通过自组装形成单层阵列,并进一步组装成复合结构超材料.测试了其光学行为,并将实验结果与树枝形纳米粒子、光滑表面纳米粒子进行对比分析.结果表明:光滑表面纳米粒子不能出现超材料效应,当粗糙程度增加,纳米粒子呈类“花朵”形时,样品出现透射峰和平板聚焦行为,但强度不高|当粗糙程度继续增加,纳米粒子呈树枝状时,出现了较强的透射峰与平板聚焦行为.研究证实通过改变纳米粒子表面形貌,可以调控表面等离子体激元与入射光的相互作用,从而实现对光传播的操控.     

M型钡铁氧体陶瓷微珠核壳腔结构吸波材料

利用自反应淬熄法制备了一种M型钡铁氧体空心陶瓷微珠材料,在此基础上,对其表面进行超声波化学镀Ni-Co复合层,从而形成了具有核/壳/腔结构的材料;通过扫描电子显微镜、能谱仪和X射线衍射仪分析表明,该材料具有中空结构,主要物相BaFe12O19为M型钡铁氧体,经过化学镀后,在其表面形成了一层Ni-Co复合层;经过吸波性能测试,化学镀Ni-Co复合层后,在2~18GHz范围内,当厚度为2.10mm时,最低反射率达到了-28.62dB,反射率小于-10dB的带宽为3.33GHz。     

采用紫外光照法在磷酸盐玻璃中合成CdS/Ag复合微粒

掺杂有Ⅱ-Ⅵ族半导体纳米颗粒(如CdS)或者过渡金属(如Ag)的玻璃由于其较大的非线性光学效应而引起人们的极大兴趣,而同时掺杂有半导体/金属的复合微粒则可以进一步增强玻璃的三阶非线性效应,因此成为目前的研究热点。我们利用玻璃沉淀技术及随后的热处理和紫外光还原技术制备了含高浓度(1%)Ag微粒的玻璃,并采用X射线衍射分析了其物相,用高分辨扫描电镜分析了其形貌,以及测试了其吸收和发光性能。从CdS/Ag复合微粒的扫描照片可以发现晶粒均匀分布在玻璃中,尺寸约为1μm。X射线衍射发现经过热处理和紫外光照的样品衍射峰中含有CdS和Ag,而只进行热处理的样品则只含有CdS,未处理的样品则显非晶态。CdS/Ag复合微粒的吸收峰呈现典型的表面等离子共振峰(420nm)以及CdS的峰(600nm),只含有CdS微粒的样品的吸收峰则在480nm附近,未处理的样品在320nm附近有一个吸收峰,这可能是由于样品在快速冷却过程中的微小晶化造成的。只含有CdS微粒的样品有三个明显的发光峰,然而CdS/Ag复合微粒的发过峰则消失。我们提出了共振能量转移机制来解释该现象。讨论了紫外光照还原Ag微粒的机制。可以认为通过紫外光照,CdS表面的电子被激发出来还原Ag+,从而形成银颗粒,伴随着空穴则被表面缺陷所捕获。     

燃烧法合成La_2Zr_2O_7粉及其光谱性能

以La_2O_3,Zr(NO_3)_4和甘氨酸为原料,采用燃烧法合成La_2Zr_2O_7粉。分别用发射光谱法(ICPAES)、能谱法(EDAX)、X衍射法(XRD)、红外光谱法(IR)和热重-差热法(TG-DTA)等对La_2Zr_2O_7粉进行表征。分别研究了热处理温度对La_2Zr_2O_7粉的X衍射谱和红外光谱的影响。La_2Zr_2O_7粉的ICP-AES和EDAX分析结果表明,用燃烧法可合成出La_2Zr_2O_7粉。不同温度热处理后La_2Zr_2O_7粉的XRD分析结果表明,当热处理温度为600℃时,出现一个衍射峰,且衍射峰较宽,该结构为半晶型结构;提高热处理温度,衍射峰逐渐尖锐,峰形变窄,衍射峰逐渐增多;热处理温度在750~800℃范围,可得到烧绿石结构的La_2Zr_2O_7粉。在650~750℃热处理后La_2Zr_2O_7粉的红外光谱分析结果与XRD分析结果相同,热处理温度为750℃时,可得到烧绿石结构的La_2Zr_2O_7粉。La_2Zr_2O_7粉的TG-DTG分析结果表明,在120~1 600℃范围,La_2Zr_2O_7粉的结构稳定。     

载气组份对空心玻璃微球炉内成球过程的影响

为实现惯性约束聚变靶用空心玻璃微球的干凝胶法高效制备,从数值模拟和工艺实验两个方面研究了载气组份对干凝胶粒子炉内成球过程及最终空心玻璃微球性能的影响。结果表明:载气组份显著影响粒子/微球与载气之间的热量和质量传递过程,但载气组份对粒子/微球在炉内的下落速度影响很小;提高载气中氦气的体积分数可以显著提高干凝胶粒子在吸热阶段的升温速率,更为迅速有效地完成封装过程,这不仅使得干凝胶粒子发泡成为空心球的比例增大,而且还有利于制备得到大纵横比的空心玻璃微球;但是,在载气中保持适当体积分数的氩气,有利于提高玻璃微球的表面质量和成品率。当载气中氦气的体积分数在50%~80%时,干凝胶粒子的成球率较高,空心玻璃微球的球形度、同心度和表面粗糙度能满足制靶要求。     

氮气含量对硅基AlN薄膜结构及性能的影响

研究了直流磁控溅射法沉积AlN薄膜过程中氮气含量对AlN薄膜结构及性能的影响.实验结果表明:当真空腔的氩气含量较低时,薄膜呈非晶态,在红外波段的傅里叶变换光谱中没有明显的吸收峰,当氮气流量为75%时薄膜中出现明显的六方AlN(100)和AlN(110)衍射峰,在波数为670～700cm-1处有强烈的吸收峰;增加氮气含量,薄膜又呈现出非晶状态.薄膜的表面粗糙度和颗粒大小都随氮气含量的增加先增大后减小..     

LP-MOCVD生长(ZnCdTe,ZnSeTe)/ZnTe复合量子阱的激子发光研究

用低压金属有机化学气相沉积(LP-MOCVD)的方法在GaAs(100)衬底上生长了(ZnCdTe，ZnSeTe)／ZnTe复合量子阱结构。测量了生长样品的光致发光(PL)谱，得到两个发光峰(记为Il，I2)，分析认为高能侧的峰为Zn0．9Cd0．1Te浅阱峰，而低能侧的峰为ZnSe0．2Te0.8深阱层的发射。对样品进行了变激发强度的PL谱测量，当激发强度增加时，PL谱中两个发光峰的比值(I2／I1)开始时迅速增加，然后缓慢减小。这是由于浅阱中的电子和空穴隧穿入深阱中导致空间电荷的分离，从而在复合量子阱结构中产生了一个内建电场所引起的。     

J粒子在原子核上的散射

本文企图借助于观测J粒子在原子核上的散射来估计J粒子与核子的散射强度。计算结果表明,J粒子在轻核上的散射,没有出现第二个衍射峰;而J粒子在重核上的散射出现第二个衍射峰。因此,我们认为J粒子在重核上的散射实验有可能观测到第二个衍射峰。     

水溶性CdTe/CdS纳米晶表面SiO2壳层的反相胶束法包覆

"提出了一种水相中制备CdTe/CdS核壳结构纳米粒子的方法.用Te粉作为碲源,用Na2S作为硫源,在50 ℃下制备了CdTe/CdS核壳结构纳米粒子. 用紫外可见吸收光谱和荧光光谱分析了CdS壳层对CdTe核的影响. 随CdS壳层厚度的增加,紫外可见吸收光谱和荧光光谱均发生了红移. CdS壳层厚度较薄时,CdTe/CdS纳米晶的荧光强度较CdTe纳米粒子有显著提高;而CdS壳层厚度较厚时,CdTe/CdS纳米晶的荧光强度会逐渐降低. 用反相胶束法在CdTe/CdS核壳结构纳米粒子的表面包被一层SiO2,     

金属铁纳米粒子的液相制备表面修饰及其结构表征

报道在知性剂存大的条件下于乙醇／水的简单液相体系中以ＫＢＨ４还原制备金属铁纳米粒子,然后再用含镍盐修饰溶液进行原位粒子的表面修饰,并通过Ｘ射线衍射（ＸＲＤ）、光电子能谱分析（ＸＰＳ）、透射电子显微分析（ＴＥＭ）、选区电子衍射（ＥＤ）表征和讨论所得产物粒子的形貌结构特征和粒子大小。结果表明,初始生成的金属铁纳米粒子与修饰溶液的电化学反应形成以金属纳米铁核为中心的具有较好稳定性的多层复合结构。     

NiFe_2O_4纳米粉末的制备及磁性研究

以硝酸铁、硝酸镍以及柠檬酸为原料,采用凝胶-热分解法制备了N iFe2O4纳米粉末。利用X射线衍射确定了粉体的相结构、比表面积和晶格常数,扫描电子显微镜(SEM)观察了颗粒的形貌,振动样品磁强计(VSM)测量样品的磁性能。结果表明:所制备的样品均为尖晶石结构,颗粒粒径为36nm~68nm,且颗粒的粒径随着热处理温度的升高而增大,样品的比饱和磁化强度最大可达54.63 emu/g。同时,文章也对反应的动力学原理进行了研究,得出N iFe2O4纳米颗粒形成的活化能为15.8kJ/mol。     

Microwave absorption properties of composite powders with low density

The composites of barium ferrite coated on hollow ceramic microspheres were prepared using sol-gel technique. The crystal structure, morphology and microwave absorption properties of composite powders with different weight ratio of microspheres were studied with XRD, EDS, FESEM and vector network analyzer. The results show that the microwave absorption properties of composite powders are greatly improved. The maximum microwave loss of composite powders reaches 31 dB with an amount of 50 wt.% microspheres, and its density is only about 1.80 g/cm³. The effect of hollow ceramic microspheres on the microwave absorption property is also discussed.     

Structural and magnetic properties of ion-beam deposited NiFe/Co-oxide bilayers

The structural and magnetic properties of NiFe/Co-oxide bilayers were studied. XRD investigation indicates the NiFe (Permalloy) layers (a= 3.53 Å) grow with a (111) preferred orientation. The Co-oxide layers were fabricated with oxygen content in the deposition assist beam ranging from 8% (rock-salt CoO, a= 4.27 Å) to 34% (spinel Co3O4, a= 8.21 Å). Both the coercivity Hc and exchange bias field Hex closely follow an inverse NiFe thickness relationship. A strong temperature dependence of Hc and Hex is found in these NiFe/Co-oxide bilayers. At T= 289 K, the NiFe/CoO film exhibits an enhanced Hc relative to pure NiFe/Co or NiFe/Co3O4 bilayers, an indication of exchange coupling between the NiFe and CoO phases. At T= 10 K, the NiFe/Co3O4 film exhibits an exchange-bias loop shift of Hex∼- 200 Oe that persists to temperatures greater than 30 K (the Néel temperature of bulk Co3O4). The transition temperature of the Co3O4 film component has increased above the bulk value via exchange coupling with the permalloy. Results indicate that the exchange coupling interaction between FM and AFM layers are responsible for both enhanced coercivity and cross-tie domains.     

Electromagnetic wave absorption properties of carbonyl iron-ferrite/PMMA composites fabricated by hybridization method

The surface of carbonyl iron powder or a mixture of carbonyl iron and ferrite was coated with polymethylmethacrylate (PMMA) microspheres by a hybridization method to make hybrid powders, and then electromagnetic wave absorption properties of the hybrid composites prepared with these hybrid powders have been investigated. As for the carbonyl iron/PMMA hybrid composite, the reflection loss less than −20 dB could be achieved in a frequency range of 1.7–5.0 GHz when the composite thickness was below 5.00 mm. In the case of the carbonyl iron-ferrite/PMMA hybrid composite, a similar reflection loss was observed in a frequency range of 4.3–13.0 GHz. Thus, the addition of ferrite was found to be useful for achieving a large absorption in a wide frequency range, especially for higher frequency values. Simulated values for the minimum reflection loss are well agreed with actually measured ones, because of homogeneous distribution of carbonyl iron and/or ferrite in these hybrid composites.     

A New Silicon-Containing Arylacetylene Resin With Amine Groups as Precursor to Si−C−N Ceramic

A new preceramic precursor was prepared by chlorination and ammoniation reaction of poly(methylsilyleneethynylenephenyleneethynylene) (MSEPE), [?SiH(CH₃)? C≡C?C₆H₄?C≡C?]_n. The obtained amine-modified silicon-containing arylacetylene resin (MSEPE-An) was a liquid polymer at room temperature and could be thermally cross-linked at temperatures lower than 200°C. The chemical structure of MSEPE-An was characterized by FTIR, ¹H NMR, and GPC. The pyrolysis of the cured MSEPE-An was carried out in N₂ atmosphere up to 1450°C to produce a Si?C?N ceramic composite. The ceramic composite was analyzed by FTIR and X-ray diffraction techniques. The electromagnetic wave absorption properties of a paraffin sample with 10 vol% Si?C?N ceramic powders were characterized in a frequency range of 2–18 GHz, according to a conventional reflection/transmission technique. Experimental results demonstrated that the Si?C?N ceramic composite provided good electromagnetic wave absorption performance.     

Synthesis and characterization of nickel–manganese oxide via the hydrothermal route for electrochemical capacitors

Nano-sized and well dispersed manganese oxide and nickel–manganese oxide (Ni–Mn–O) powders are synthesized via the hydrothermal route. The addition of nickel ions significantly affects the morphology, particle size and the electrochemical properties of the obtained powders. Adding nickel ions results in a significant change in the shape of the powders from rod-like to plate-like. The electrochemical analysis of the electrode reveals that the specific capacitance of the synthesized powders is greatly increased with the addition of nickel ions. When the hydrothermal temperature is increased to 125 °C, the specific capacitance also increases to 284 F/g and decreases by about 4% after 1500 cycles of charge and recharge. Ni–Mn–O is considered to be a promising material for the electrodes used in electrochemical capacitors.     

Study on the electromagnetic propertiesof a coated radar absorbent

The sol-gel method is used to fabricate Fe crystalline powders coated with SiO2.By controlling the molar ratio R of diluted water to tetraethoxysilane(TEOS),Fe powders coated with SiO2 with different morphological characteristics are fabricated.The influence of the core diameter on electromagnetic parameters is investigated.The effect of the amount of the coating material SiO2 on electromagnetic parameters is given.Radar wave absorbing properties of Fe coated with SiO2 and TiO2 respectively are compared.     

Solid-state NMR characterisation of the thermal transformation of a Hungarian white illite

(1)H, (27)Al, (29)Si and (39)K solid-state NMR are reported from a Hungarian illite 2:1 clay for samples heated up 1600 degrees C. This single-phase sample has a small amount of aluminium substitution in the silica layer and very low iron-content ( approximately 0.4wt%). Thermal analysis shows several events that can be related to features in the NMR spectra, and hence changes in the atomic scale structure. As dehydroxylation occurs there is increasing AlO(4) and AlO(5)-contents. The silica and gibbsite layers become increasingly separated as the dehydroxylation progresses. Between 900 and 1000 degrees C the silica layer forms a potassium aluminosilicate glass. The gibbsite-layer forms spinel/gamma-Al(2)O(3) and some aluminium-rich mullite. Then on heating to 1600 degrees C changes in the (29)Si and (27)Al MAS NMR spectra are consistent with the aluminosilicate glass increasing its aluminium-content, the amount of mullite increasing probably with its silicon-content also increasing, and some alpha-Al(2)O(3) forming.     

激光熔敷镍石墨烯立方氮化硼涂层的耐磨性能

在AISI 4140基体上采用预置材料激光熔敷的方法制备了镍石墨烯立方氮化硼(Ni-Graphene-CBN)复合材料涂层。X射线衍射(XRD)和Raman测试证明了石墨烯和CBN存在于所制备的涂层材料中。扫描电镜(SEM)图片给出了所制备的复合材料涂层的表面和断面形貌。进行了复合材料涂层的纳米机械性能和耐磨性的测试。测试结果表明:随着CBN含量的增加,复合涂层的硬度及弹性模量相应提高,分别由4.3 GPa提高到6.2 GPa和101 GPa提高到140 GPa; 同时其耐磨性也有明显改善,6% CBN含量的涂层摩擦系数由基体材料的0.2降低到0.15,最大磨损量降到基体磨损量的一半。     

尖晶石型纳米铁酸镍的制备与磁性研究

以Fe（NO3）3·9H2O和Ni（NO3）2·6H2O为原料,用柠檬酸为还原剂,采用燃烧法制备了NiFe2O4纳米粉体,用X射线粉末衍射仪（XRD）、透射电子显微镜（TEM）、红外光谱（IR）和振动样品磁强计（VSM）等手段对样品进行了表征,结果表明,样品为立方晶系尖晶石铁酸镍纳米粉体,其粒径在20—40nm之间,具有超顺磁性,并探讨了焙烧温度、焙烧时间对样品磁性的影响。