Synthesis of amorphous Fe2O3 nanoparticles by microwave irradiation

Amorphous Fe₂O₃ nanoparticles of about 3–5 nm in size have been synthesized by microwave irradiation heating of an aqueous solution, containing ferric chloride, polyethylene glycol-2000 and urea. The Fe₂O₃ nanoparticles were characterized by the techniques of TEM, XRD, DSC, TGA and magnetization measurements.     

Infrared optical properties of Bi2Ti2O7 thin films by spectroscopic ellipsometry

Bi₂Ti₂O₇ thin films have been grown directly on n-type GaAs (1 0 0) by the chemical solution decomposition technique. X-ray diffraction analysis shows that the Bi₂Ti₂O₇ thin films are polycrystalline. The optical properties of the thin films are investigated using infrared spectroscopic ellipsometry (3.0–12.5 μm). By fitting the measured ellipsometric parameter (Ψ and Δ) data with a three-phase model (air/Bi₂Ti₂O₇/GaAs), and Lorentz–Drude dispersion relation, the optical constants and thickness of the thin films have been obtained simultaneously. The refractive index and extinction coefficient increase with increasing wavelength. The fitted plasma frequency ω_p is 1.64×10¹⁴ Hz, and the electron collision frequency γ is 1.05×10¹⁴ Hz, and it states that the electron average scattering time is 0.95×10⁻¹⁴ s. The absorption coefficient variation with respect to increasing wavelength has been obtained.     

Fe3O4-MWCNTs在环氧树脂中的定向排列

用共沉淀法制备了具有超顺磁性Fe₃O₄-MWCNTs（多壁碳纳米管）复合粒子,加入环氧树脂（EP）中,在0.6 T的弱定磁场下固化成型。采用TEM研究其定向程度及分散性,并进行动态热机械分析、差热分析和导热率测试。结果表明,MWCNTs表面包覆了磁性Fe₃O₄纳米粒子,Fe₃O₄-MWCNTs复合物按照首尾衔接的方式沿着磁场方向定向排列。Fe₃O₄-MWCNTs/EP纳米复合材料表现出明显的各向异性,垂直于Fe₃O₄-MWCNTs轴向导热率低于平行方向的导热率,Fe₃O₄-MWCNTs的加入对于平行方向的导热率影响不大。Fe₃O₄-MWCNTs的加入使环氧树脂的储能模量变小,损耗模量变大,损耗因子均大于纯环氧树脂,表现出良好的阻尼性能。当Fe₃O₄-MWCNTs与EP质量比为0.3%时,损耗因子在20 ℃的温域内大于0.7,最高值达到1.16。     

具有固-液转变的磁性Fe3O4纳米流体的制备、结构及性能

Fe3O4纳米粒子与离子型改性剂N,N-二癸基-N-甲基-N-三甲氧基硅正丙基氯化铵进行接枝反应,再采用反离子脂肪醇聚氧乙烯醚磺酸盐的长链阴离子交换Cl-,在Fe3O4纳米粒子表面得到具有阴、阳离子双电层结构的表面处理层,制备出了无溶剂Fe3O4纳米流体。分析结果表明,表面处理鏖已成功地接枝在Fe3O4纳米粒子表面,改...     

原子层沉积工艺制备催化薄膜厚度对生长碳纳米管阵列的影响

通过原子层沉积(ALD)工艺在硅基底依次沉积氧化铝缓冲层薄膜和氧化铁催化薄膜, 然后利用管式炉进行水辅助化学气相沉积(WACVD)生长垂直碳纳米管阵列(VACNTs)。结果表明: ALD工艺制备的氧化铁薄膜经还原气氛热处理可形成碳纳米管阵列生长所需的纳米催化颗粒; 氧化铁薄膜厚度与纳米催化颗粒大小以及生长出的碳纳米管阵列的结构密切相关。当氧化铁薄膜厚度为1.2 nm时, 生长出的碳纳米管阵列管外径约为10 nm, 管壁层数约为5层, 阵列高度约为400 μm。增大氧化铁薄膜的厚度, 生长出的碳纳米管阵列外径和管壁数增加, 阵列高度降低。实验还在硅基底侧面观察到了VACNTs, 表明ALD工艺可在三维结构上制备催化薄膜用于生长VACNTs。     

自组装法制备磺化聚苯乙烯@Fe3O4磁性复合颗粒及其磁性能

实现结构可控、均匀包覆是制备核-壳复合材料的关键。采用离子交换法完成了磺化聚苯乙烯(PSS)表面Na+与溶液中Fe2+和Fe3+的交换,于碱性条件下制备了PSS表面负载Fe₃O₄(PSS@Fe₃O₄)的磁性复合颗粒。通过称重法计算了Fe₃O₄最大包覆率;通过振动样品磁强计(VSM)测试了不同负载含量下PSS@Fe₃O₄复合颗粒的磁性能;通过XRD、衰减全反射-FTIR (ATR-FTIR)、SEM-EDS分析了PSS@Fe₃O₄磁性复合颗粒的化学组成和微观结构。结果表明,随着Fe2+/Fe3+浓度增加,PSS@Fe₃O₄磁性颗粒的饱和磁化强度也随之增大,最大饱和磁化强度为7.51 emu/g,并具有明显的磁响应性;Fe₃O₄均匀包覆在PSS表面,最大包覆率为8.3 wt%。PSS@Fe₃O₄磁性复合颗粒有望用于磁流变、医学及水处理领域。      

Femtosecond Z-scan measurements of nonlinear refraction in nonlinear optical crystals

We report an investigation of third-order optical nonlinearities in several nonlinear optical crystals using the Z-scan technique with femtosecond laser pulses at 780 nm wavelength. The crystals studied include LiNbO₃:MgO, KTiOAsO₄, KTiOPO₄, β-BaB₂O₄ and LiB₃O₅, which are extensively used for ultrashort-pulse second-harmonic generation and optical parametric oscillation. The nonlinear refractive index n₂ in these crystals has been determined to be in the range from 10⁻¹⁶ to 10⁻¹⁵ cm²/W. No two-photon absorption has been observed. The experimental results are compared with the two-band model for the bound electronic Kerr nonlinearity. It is shown that the measured n₂ values in β-BaB₂O₄ and LiB₃O₅ are one order of magnitude smaller than those of LiNbO₃:MgO, KTiOAsO₄, KTiOPO₄, which is in agreement with the theoretical prediction.     

改性氧化石墨烯/Fe3O4复合材料的制备及电磁吸收性能

为改善氧化石墨烯（GO）/Fe₃O₄复合材料的分散程度,利用三苯基膦（PPh3）对GO表面进行功能化改性得到改性氧化石墨烯（GOP）,然后采用共沉淀法一步合成GOP/Fe₃O₄复合材料。通过场发射SEM、高分辨TEM、XRD、FTIR、Raman和VSM对GOP/Fe₃O₄复合材料的形貌、结构和磁性能进行表征。利用矢量网络分析仪（PNA）测试了GOP/Fe₃O₄复合材料的电磁参数并模拟计算其对电磁波的吸收性能。结果显示:GOP/Fe₃O₄复合材料的最大电磁波吸收强度值达到-25.4 dB,有效吸收频宽为6.0 GHz,较未改性GO/Fe₃O₄复合材料均有大幅度提高。      

Structural and optical properties of (100 − x)(Li2B4O7) − x(SrO–Bi2O3–0.7Nb2O5–0.3V2O5) glasses and glass nanocrystal composites

Glasses of various compositions in the system (100 − x)(Li₂B₄O₇) − x(SrO–Bi₂O₃–0.7Nb₂O₅–0.3V₂O₅) (10  x  60, in molar ratio) were prepared by splat quenching technique. The glassy nature of the as-quenched samples was established by differential thermal analyses (DTA). The amorphous nature of the as-quenched glasses and crystallinity of glass nanocrystal composites were confirmed by X-ray powder diffraction studies. Glass composites comprising strontium bismuth niobate doped with vanadium (SrBi₂(Nb_0.7V_0.3)₂O_9−δ (SBVN)) nanocrystallites were obtained by controlled heat-treatment of the as-quenched glasses at 783 K for 6 h. High resolution transmission electron microscopy (HRTEM) of the glass nanocrystal composites (heat-treated at 783 K/6 h) confirm the presence of rod shaped crystallites of SBVN embedded in Li₂B₄O₇ glass matrix. The optical transmission spectra of these glasses and glass nanocrystal composites of various compositions were recorded in the wavelength range 190–900 nm. Various optical parameters such as optical band gap (E_opt), Urbach energy (ΔE), refractive index (n), optical dielectric constant and ratio of carrier concentration to the effective mass (N/m^*) were determined. The effects of composition of the glasses and glass nanocrystal composites on these parameters were studied.     

不同晶型Fe2O3催化H2O2湿法脱硝的实验研究

研究了以α-Fe₂O₃、β-Fe₂O₃和γ-Fe₂O₃为催化剂的类Fenton试剂溶液氧化吸收NO的过程,分析了3种Fe₂O₃的晶相结构和表面性质对NO脱除效率的影响机理。脱硝性能测试结果表明：γ-Fe₂O₃的活性最好,在H₂O₂浓度为1.5 mol/L、催化剂浓度为20 mmol/L、pH值为5以及反应温度为55℃等条件下,γ-Fe₂O₃的脱硝率可达87.5%。机理研究表明：3种Fe₂O₃催化H₂O₂分解湿法脱除NO的反应发生在催化剂表面,反应过程中存在氧化还原循环,H₂O₂催化分解的主要产物是·OH。活性差异分析结果表明：Fe₂O₃的晶相结构和表面性质对NO的脱除效果具有显著的影响,γ-Fe₂O₃的活性最高是由于比表面积大、分散性高和表面的Fe²⁺含量更多,而β-Fe₂O₃的活性高于α-Fe₂O₃是由于表面的氧空位含量更多。     

Fe3O4/MnO2磁性复合氧化物催化剂的制备及性能

具有磁性的非均相催化剂价格低廉、低污染、高能效、容易从溶液中分离出来。经过水热合成法合成的Fe₃O₄/MnO₂磁性复合氧化物催化剂在活化过一硫酸盐（2KHSO₅·KHSO₄·K₂SO₄）产生硫酸根自由基（SO₄-）降解水中有机污染物表现出了优良的性能。把不同质量的磁性Fe₃O₄微球与线状的MnO₂负载到一起,合成三种Fe₃O₄:MnO₂质量比分别为1:3、2:3、1:1的Fe₃O₄/MnO₂催化剂,经过XRD、SEM和TEM表征,表明这两种金属氧化物负载到一起。对比不同Fe₃O₄:MnO₂质量比的Fe₃O₄/MnO₂磁性复合氧化物催化剂活化2KHSO₅·KHSO₄·K₂SO₄的活性,发现Fe₃O₄/MnO₂（2:3）催化剂催化活性最高。通过考察不同因素对Fe₃O₄/MnO₂（2:3）催化活性的影响得出,水中罗丹明B（Rh B）降解的最佳条件为10 mg/L Rh B、0.4 g/L Fe₃O₄/MnO₂催化剂、0.3 g/L 2KHSO₅·KHSO₄·K₂SO₄、pH=8。Fe₃O₄/MnO₂（2:3）磁性复合氧化物催化剂经过3次循环利用后,催化活性没有明显下降。SO₄-在降解水中Rh B起主要作用。      

模板法制备多孔核/壳结构的Fe2O3/Al纳米铝热薄膜

通过聚苯乙烯(PS)胶晶球模板法制备出三维有序大孔(3DOM)α-Fe₂O₃薄膜骨架, 再利用磁控溅射将Al沉积到3DOM α-Fe₂O₃骨架上得到核/壳结构的Fe₂O₃/Al纳米铝热复合薄膜。扫描电镜(SEM)测试结果表明: 纳米Al均匀地附着在α-Fe₂O₃骨架表面, 骨架孔结构由原先的近圆形转变为Al沉积后的类菱形, 孔壁的厚度从32 nm增加到100 nm; 采用X射线能谱(EDS)对Fe₂O₃/Al纳米铝热薄膜的元素含量进行了分析; 由差示扫描量热法(DSC)分析显示铝热薄膜在490℃开始反应, 经历固-固和固-液两个反应阶段, 总放热量达到1374.7 J/g; 使用激光点火器对铝热薄膜进行点火, 薄膜飞溅出火花并伴有明亮刺眼的亮光, 整个发火时间达2.6 ms, 显示其能被点火并发生自蔓延反应, 可作为一种理想的点火材料。     

NiFe2O4/TiO2纳米棒阵列薄膜光电化学性能和光催化性能研究

用水热法制备一维有序纳米棒状TiO₂薄膜(TiO₂ NRAs), 并采用浸渍沉积煅烧得到NiFe₂O₄/TiO₂ NRAs。借助SEM、TEM、XRD、Raman、XPS、UV-Vis等对样品的物相和形貌结构进行了表征, 结果表明: NiFe₂O₄纳米颗粒均匀沉积在金红石相TiO₂ NRAs表面, 使TiO₂光谱吸收范围拓展至可见光区。利用电化学工作站对其光电转换性能进行研究, 发现NiFe₂O₄改性后的TiO₂在可见光下光电流响应显著增大, 在电压-电流曲线和电流随时间开关灯变化中, NiFe₂O₄/TiO₂ NRAs的光电流密度分别是纯TiO₂ NRAs的12倍和8倍。NiFe₂O₄/TiO₂ NRAs可见光下降解偏二甲肼(UDMH)的效率是单纯TiO₂ NRAs降解率的3倍, 并对光催化降解机理进行了探讨。     

Fe2O3对聚芳基乙炔树脂石墨化的影响研究

用不同催化剂催化聚芳基乙炔树脂石墨化,重点研究了Fe2O3含量和热处理温度对PAA石墨化的影响。通过XRD、Raman、SEM和HRTEM分析了PAA热处理温前后的结构和形貌变化。实验结果显示：Fe2O3在热处理过程中转换成铁单质,有效地促进了PAA树脂的石墨化;Fe203含量的增加和热处理温度的升高均可促使石墨结构形...     

Fe3O4复合材料对Cd2+的吸附性能研究

在碱性条件下,以共沉淀法合成Fe₃O₄,再以正硅酸乙酯和二乙烯三胺为原料,制备出Fe₃O₄复合材料(Fe₃O₄-SiO₂-NH₂)。采用FT-IR、VSM和SEM对其结构进行表征,并研究了复合材料对Cd2+的吸附性能。实验结果表明,在T=55℃、t=60 min、Cd2+溶液的初始浓度为100 mg·L-1、Fe₃O₄-SiO₂-NH₂的添加量为0.1 g时,该材料对Cd2+的吸附容量为71.4 mg·g-1。其吸附动力学行为更符合准二级动力学,热力学更适合用Langmuir等温吸附模型描述。Fe₃O₄-SiO₂-NH₂吸附Cd2+后洗脱再生,经过5次循环使用后,其对Cd2+的去除率仍然大于70%。      

Effect of PWVA/Sb2O3 complex inhibitor on the corrosion behavior of carbon steel in 55%LiBr solution

The inhibition performance of PWVA/Sb₂O₃ complex inhibitor on carbon steel was studied in 55%LiBr + 0.07 mol L⁻¹ LiOH solution. Results indicated that the complex inhibitor decreased both anodic and cathodic polarization current density and widened the passive potential region of carbon steel in test solution and can be classified as mixed inhibitor. The complex inhibitor exhibited excellent inhibition performance on carbon steel when the concentrations of PWVA and Sb₂O₃ were 300 and 200 mg L⁻¹, respectively. With the solution temperature increasing from 145 to 240 °C, the corrosion rates of carbon steel increased from 4.71 to 120.66 μm y⁻¹. In solution containing the complex inhibitor, the relationship between relative coverage ratio of inhibitor on carbon steel surface and inhibition efficiency at 145 °C was obtained as the equation μ = 0.94η, it was a direct proportion. This result proved that the complex inhibitor inhibited the corrosion of carbon steel by geometric blocking effect. When solution temperature was 160 °C, the adsorption Gibbs free energy of PWVA and Sb₂O₃ on carbon steel were −49.59 and −44.29 kJ mol⁻¹, respectively. It indicated that the adsorption processes of PWVA and Sb₂O₃ on carbon steel surface were spontaneous processes. As a strong oxidant, PWVA facilitated the compact passive film comprising of FeO, Fe₂O₃ and Fe₃O₄ forming on the surface and itself was reduced to heteropoly blue. Sb₂O₃ adsorbed on carbon steel surface formed an adsorption film. PWVA and Sb₂O₃ behaved synergistic effect. The corrosion resistance performance of carbon steel in 55%LiBr + 0.07 mol L⁻¹ LiOH solution was improved by PWVA/Sb₂O₃ complex inhibitor.     

多层陶瓷结构Al2O3-Fe2O3/3Y-TZP梯度复合陶瓷的制备及性能

为更好地实现口腔修复体的美学修复效果,采用掺杂不同含量Fe₂O₃（0.01wt%~0.09wt%）和Al₂O₃（0.1wt%）的3 mol% Y₂O₃稳定的ZrO₂（3Y-TZP）粉体为原料,经过铺粉、压制、烧结等工艺制得色度渐变的多层陶瓷结构Al₂O₃-Fe₂O₃/3Y-TZP梯度复合陶瓷。对该梯度复合陶瓷的色度分布、烧结性能和力学性能进行检测,同时研究了Fe₂O₃和Al₂O₃的掺杂对3Y-TZP陶瓷组织和性能的影响。结果表明,制得的Al₂O₃-Fe₂O₃/3Y-TZP梯度复合陶瓷色度由红黄向白色沿成分变化方向呈梯度变化,与天然牙齿色度分布规律一致;力学性能呈梯度变化并从无色端到有色端逐渐降低,但仍满足牙科使用需求（≥ 800 MPa）;在无色瓷层中掺杂微量Al₂O₃（0.1wt%）可以改善Al₂O₃-Fe₂O₃/3Y-TZP梯度复合陶瓷的烧结性能,避免在预烧结过程中发生开裂。微量Fe₂O₃和Al₂O₃的掺杂会促进其在烧结过程中的致密化及晶粒长大;微量Fe₂O₃（0.01wt%）和Al₂O₃（0.1wt%）的掺杂有助于提高3Y-TZP陶瓷的挠曲强度,然而随着Fe₂O₃掺杂量的继续增多（≤ 0.09wt%）挠曲强度降低。      

Dopamine-mimetic-coated polyamidoamine-functionalized Fe3O4 nanoparticles for safe and efficient gene delivery

Fe₃O₄ nanoparticles (NPs) are widely used in the construction of drug and gene delivery vectors because of their particular physicochemical properties. Surface modification can not only reduce the cytotoxicity of Fe₃O₄, but also further improve the biocompatibility and delivery efficiency. In this work, firstly, polydopamine (PDA)-coated Fe₃O₄ NPs (named Fe₃O₄@PDA) were prepared by using the self-polymerization characteristics of dopamine in alkaline environment. Then, polyamidoamine (PAMAM) was modified by the Michael addition reaction to prepare water-soluble core‒shell magnetic NPs of Fe₃O₄@PDA@PAMAM, and its potential as gene vector was further evaluated. The results revealed that Fe₃O₄@PDA@PAMAM had the ability to condense and protect DNA, and showed lower cytotoxicity, higher cell uptake and transfection efficiency than those of PAMAM. It has the potential to become a magnetic targeted gene vector for further study.     

可磁分离Fe3O4/g-C3N4复合材料的制备及其性能

为了利用Fe₃O₄的磁响应性及石墨相C₃N₄（g-C₃N₄）优良的光催化活性,首先采用高温热聚合法,以尿素为前驱体制备g-C₃N₄,然后采用水热法合成了可磁分离Fe₃O₄/g-C₃N₄复合材料。利用TEM、XRD、TGA、BET和振动样品磁强计（VSM）等多种测试手段表征分析Fe₃O₄/g-C₃N₄复合材料的形貌、晶型结构、比表面积、成分、饱和磁化强度等。通过模拟太阳光下Fe₃O₄/g-C₃N₄复合材料光催化吸附降解亚甲基蓝（MB）的实验,评价了Fe₃O₄/g-C₃N₄复合材料的吸附性能及光催化性能。结果表明,可磁分离Fe₃O₄/g-C₃N₄复合材料具有较大的比表面积,约为71.89 m²/g;且具有较好的磁性,饱和磁化强度为18.79 emu/g,可实现复合材料的分离回收;光照240 min时,Fe₃O₄/g-C₃N₄复合材料对MB的去除率为56.54%。所制备的Fe₃O₄/g-C₃N₄复合材料具有优良的吸附性能、光催化活性和磁性,并可通过外加磁场进行分离与回收。     

Fe3O4/PNIPAM纳米复合微球的制备

用化学共沉淀法制备Fe₃O₄磁性纳米粒子,以N-异丙基丙烯酰胺（NIPAM）、N,N′-亚甲基双丙烯酰胺（MBA）和偶氮二异丁腈（AIBN）为原料,用种子乳液聚合法制备了具有温敏性的Fe₃O₄/PNIPAM纳米复合微球。用红外光谱仪（FTIR）、透射电镜（TEM）、热重分析仪（TGA）及Zeta粒度仪（DTS）等手段对复合微球进行了表征,研究了单体（NIPAM）、交联剂（MBA）、乳化剂（SDBS）用量对复合微球粒径及磁含量的影响。结果表明:Fe₃O₄/PNIPAM纳米复合微球呈球形,具有温敏性,反应条件对复合微球的结构和形貌有较为显著的影响,其粒径和磁含量随着单体浓度的减少、交联剂和乳化剂用量的增加而变小。