平面型乙醇快速响应气敏传感器的制备

采用水热法合成了纳米In₂O₃颗粒,将其旋涂于陶瓷基片上经氮化处理获得InN基片,再对InN基片进行氧化,合成出气敏材料并在一种微型平面电极片上制备了传感器件.采用扫描电子显微镜（SEM）、透射电子显微镜（TEM）、X射线衍射（XRD）仪、X射线光电子能谱（XPS）等手段对材料的形貌、组成进行了表征与分析,结果表明,最终获得了松枝状结构的InN-In₂O₃纳米复合材料.对器件的气敏性能进行了测试,发现基于此材料制备的平面型气敏传感器对乙醇气体具有良好的气敏性能：检测浓度为1.025 mg/m³（500 ppb）的乙醇蒸汽的灵敏度可达18;检测2.05 mg/m³（1 ppm）的乙醇的响应-恢复时间最快仅为1 s;最佳工作温度低,仅为50℃.     

Preparation and photoelectrochemical characterization of nano-particulate TiO2 and polyaniline composite films on Au

TiO₂ and polyaniline(PANI) composite film was obtained by electrochemical methods^[1] and investigated for solar energy conversion application. A strong rectifying effect was found in the cyclic voltammogram of the film in dark when the scan speed was slow enough (5 mV/s) and a quasi-reversible voltammogram of the film was observed when the scan speed was fast (100 mV/s). The results of both the cyclic voltammograms and the SEM images of the composite film show that the PANI film is almost completely covered with nano-particulate TiO₂. Two anodic photocurrent bands and a cathodic band was observed in the spectra of the photocurrent of the TiO₂/PANI/PATP(p-aminothiophenol)/Au film in 0.05 mol/L Fe(CN)₆^3-/Fe(CN)₆^4- solution. The band at 300~400 nm (3.1~4.1 eV) can be ascribed to the photocurrent band of TiO₂ particles and the bands at 450~730 nm (1.7~2.8 eV) can be ascribed to those of the PANI. The partially-oxidized PANI has internal photoemission function and the insulating matrix of PANI is verified to be reduced PANI with a 3.33 eV bandgap energy. The flat-band potentials of partially-oxidized PANI and TiO₂/PANI composite film in 1.0 mol/LHClO₄ solution are determined as 0.87 V and 0.09(SHE) from Mott-Schottky plots, respectively.     

耐高温核/壳结构TiO2/SiO2复合气凝胶的制备及其光催化性能

以钛酸四丁酯为源, 采用苯胺-丙酮原位生成水溶胶-凝胶法, 在乙醇超临界干燥过程中用部分水解的钛醇盐和硅醇盐对TiO₂凝胶进行超临界修饰制备了具有核/壳纳米结构的块体TiO₂/SiO₂复合气凝胶. 制备的复合气凝胶具有优异的机械性能, 其杨氏模量可达4.5 MPa. 复合气凝胶同时具有极好的高温热稳定性. 经过1000 ℃热处理后, 线性收缩由纯TiO₂气凝胶的31%降至复合气凝胶的10%, 且比表面积由纯TiO₂气凝胶的31 m²·g^-1提升至复合气凝胶的143 m²·g^-1. 此外, 该复合气凝胶经1000 ℃热处理后具有优异的光催化降解亚甲基蓝的性能. 其优异的光催化性能得益于TiO₂/SiO₂复合气凝胶1000 ℃处理后高的比表面积和小的颗粒尺寸. 优良的耐热性能、力学性能和光催化性能使获得的具有核/壳纳米结构的TiO₂/SiO₂复合气凝胶在光催化领域具有良好的应用前景.     

Thin-layered MoS2/polyaniline nanocomposite for highly sensitive electrochemical detection of chloramphenicol

In this study, we synthesized molybdenum disulfide/polyaniline (MoS₂/PANI) nanocomposite via in situ polymerization of aniline in the presence of thin-layered MoS₂. The as-prepared MoS₂/PANI nanocomposite obtained an improved electrochemical performance due to the physisorption interaction between aromatic aniline and the basal plane of MoS₂. Furthermore, we constructed a new kind of electrochemical sensor based on MoS₂/PANI nanocomposite for the detection of chloramphenicol, which showed an excellent performance. The sensor has a high sensitivity and wide detection range from 1×10^-7 mol/L to 1×10^-4 mol/L, with a low detection limit of 6.9×10^-8 mol/L.     

锂离子电池用Cr2O3/TiO2复合材料的电化学性能

采用高温固相反应法合成了Cr₂O₃/TiO₂复合材料, 运用X射线衍射(XRD)、扫描电子显微镜(SEM)、充放电测试、循环伏安(CV)、电化学阻抗谱(EIS)等对其结构、形貌和电化学性能进行了表征. 研究结果表明: TiO₂掺杂能够显著改善Cr₂O₃的充放电循环性能, Cr₂O₃/TiO₂复合材料在充放电循环22周后仍有454 mAh·g^-1的可逆循环容量, 容量保持率达到了73.6%, 主要归因于TiO₂掺杂能够显著提高Cr₂O₃的电导率. Cr₂O₃/TiO₂复合材料首次放电过程中由于电极体积膨胀导致的固体电解质相界面(SEI)膜迅速增厚和活性材料电导率的降低可能是其首次充放电过程中存在较大不可逆容量和循环容量衰减的重要原因.     

新型室温硫化氢纳米传感器的制备及性能

采用溶胶-凝胶法在叉指金电极表面制备纳米二氧化钛(TiO₂)多孔薄膜, 并用浓度为2.5×10⁴ mol/L的花青素对其进行敏化, 制备了一种能在室温条件下检测硫化氢(H₂S)的高灵敏度传感器. 从材料的光谱特性、 微观结构和传感器的灵敏度等方面对该传感器的性能进行了评价, 并讨论了传感器的响应机理以及温度和湿度对灵敏度的影响. 结果表明, 材料表面的可见吸收光谱比花青素红移了约50 nm, 吸收能力有所提高; 纳米TiO₂颗粒呈层状堆积排列, 颗粒之间具有较多缝隙, 比表面积大. 在室温下, 该气体传感器对浓度为5~50 mL/m³的H₂S具有良好的敏感特性, 传感器灵敏度与H₂S浓度呈线性相关, 相关系数为0.939, 响应时间为50~70 s, 恢复时间为160~180 s. 计算和测试结果表明, 环境湿度约为50%时传感器的灵敏度最佳; 在10~50 ℃范围内, 温度与传感器的灵敏度存在负相关性. 该方法为简单、 经济制备室温条件下工作的气体传感器提供了新思路和新方法.     

Electrochemical and gas-phase photocatalytic performance of nanostructured TiO2(B) prepared by novel synthetic route

Nanostructured phase pure TiO₂(B) with microfibrous morphology was synthesized by newly developed protocol employing amorphous TiO₂ as a precursor. Compared to traditional syntheses from K₂Ti₄O₉, the new product exhibited better electrochemical performance and stability. Cyclic voltammetry of Li-insertion into the TiO₂(B) evidences a pseudocapacitive faradaic process of Li accommodation which is basically different from the diffusion-controlled lithium storage in anatase or rutile. The presence of two pairs of peaks in cyclic voltammogram with formal potentials of ca. 1.5 and 1.6 V is specific for TiO₂(B). This enables to use cyclic voltammetry for identification of this phase in a broad palette of TiO₂ materials of various origin.

The photocatalytic activity of TiO₂(B) in a gas phase was evaluated using the total oxidation of propane with oxygen and the photocatalytic reduction of NO to N₂ in an oxygen rich gas mixture. For the total oxidation of propane in the gas mixture containing 300 ppm propane and 20% oxygen, the reaction rates per 1 m²/g of the BET surface area of the catalyst for TiO₂(B) prepared by our protocol and Hombifine N (anatase, S_BET = 300 m²/g) are comparable. For the photocatalytic NO reduction to N₂ in an atmosphere containing 20% oxygen the ratio of quantum yields for TiO₂(B) and Hombifine N was found to be 0.08, which is roughly equivalent to the ratio of their BET surface areas (0.09), despite different phase composition of both materials. In comparison with the standard catalyst our material exhibited higher selectivity in the reduction of NO to N₂.     

金属与N元素共掺杂TiO2复合材料光催化结晶紫

通过溶胶-凝胶法制备出系列金属元素与非金属元素共掺杂TiO₂复合材料,采用扫描电子显微镜(SEM)、X-射线衍射(XRD)、紫外-可见漫反射吸收光谱(UV-vis/DRS)等对样品进行表征。结果表明,复合材料呈现团聚的块状结构,其中TiO₂为典型锐钛矿结构,N和In、Ce、Mn等元素以离子的形式存在。相比于TiO₂,复合材料的光吸收能力明显增强,同时非金属离子的掺杂提高了复合材料的可见光区吸收,金属离子的掺杂增加了复合材料的活性位点。复合材料在125 W高压汞灯照射下120 min结晶紫被降解82%。     

瓶状InN-In2O3纳米复合材料的制备及增强的甲醛气敏性能

采用溶胶-凝胶法制备了In₂O₃纳米粉体, 通入NH₃进行反应得到了中间产物InN基底材料, 再通过原位氧化过程最终获得了InN-In₂O₃纳米复合材料, 并利用X射线衍射仪(XRD)、 扫描电子显微镜(SEM)、 透射电子显微镜(TEM)、 X射线光电子能谱仪(XPS)等对所制备材料的组成、 形貌及结构等进行了表征测试. 结果表明, 该纳米复合材料呈瓶状结构. 气敏性能测试结果表明, 其在较低工作温度(75 ℃)下对甲醛气体的检出限可低至ppb级(1 ppb=1.3 μg/m³), 具有灵敏度较高(对0.13 mg/m³即100 ppb甲醛的灵敏度为12)、 响应时间较短(2 s)以及选择性和稳定性较强的优良性能. 在湿度对传感器灵敏度的影响测试中, 由于甲醛的水溶特性, 随着湿度的变化, 传感器的灵敏度发生变化. 在低甲醛浓度时湿度的变化对灵敏度的影响较大, 高浓度时影响反而较小.     

NiO/TiO2异质结构纳米管阵列膜对不锈钢的光生阴极保护及其储能性能

本工作通过修饰TiO₂制备半导体复合膜,提高其光吸收和光电化学性能,以期应用于光生阴极保护。先采用阳极氧化法在Ti表面制备TiO₂纳米管阵列膜,再应用水热处理法在膜表面沉积NiO纳米颗粒,形成具有异质结构纳米管复合膜。利用扫描电子显微镜、X-射线衍射、X-射线光电子能谱、紫外-可见吸收光谱、光致发光谱和光电化学技术对制备的纳米膜进行表征。结果表明,与纯TiO₂纳米管膜比较,NiO/TiO₂纳米管复合膜的光吸收扩展到可见光区。白光照射下,其在0.5 mol·L^?1 KOH和1 mol·L^?1 CH3OH混合液中的光电流密度达到176μA·cm^?2,是纯TiO₂纳米管膜的2倍。复合膜具有良好的光生阴极保护作用,与0.5 mol·L^?1 NaCl溶液中的403不锈钢耦连后,可使其电极电位下降440 mV,在光照2.5 h再转为暗态后,因具有电荷储存能力还可继续提供约15.5 h的阴极保护效应。     

Synthesis of Gd-N Codoped Porous TiO2 Photocatalyst and Its Enhanced Photocatalytic Activities

Visible-light-active Gd-N codoped porous TiO₂(Gd-N-TiO₂) photocatalyst was fabricated by an evapora-tion-induced self-assembly route using surfactants as structure-directed agents. As-prepared samples were characterized by X-ray diffraction, field-emission scanning electron microscopy, transmission electron microscopy(TEM), X-ray photoelectron spectroscopy, Brunauer-Emmett-Teller(BET) method, and ultraviolet-visible absorption spectroscopy. The results indicated that synergistic reaction occurred when codoping with Gd³⁺ and N, which enhanced the light absorption properties of TiO₂. Irregular worm-like particles with wide interparticle spaces were clearly observed by TEM. The average particle size of Gd-N-TiO₂ decreased to ca. 8 nm because co-doping inhibited the particles growth significantly. Thus, the specific surface area of Gd-N-TiO₂(198.7 m²/g) was higher than that of Degussa P25 TiO₂(50 m²/g). Gd-N-TiO₂ exhibited a high photocatalytic activity toward methyl orange degradation under UV-Vis or visible-light irradiation. The Gd-N-TiO₂ catalyst also presented a stable performance without losing activity after four successive photocatalytic experiments. The facile synthesis and excellent activity of Gd-N-TiO₂ indicated its great potential as industrial catalysts for wastewater treatment.     

Studies on QCM-type NO2 Gas Sensor Based on Graphene Composites at Room Temperature

Synthetic graphene composite was modified on a transducer of quartz crystal microbalance(QCM) to fabricate a gas sensor for low concentration nitrogen dioxide(NO₂) detection. The gas sensing properties of the QCM coated with SnO₂-rGO and AgNPs-SnO₂-rGO composites were investigated when exposing QCM to low NO₂ con-centration(2.05-20.5 mg/m³) atmosphere at room temperature. The sensing performances of the QCM with AgNPs-SnO₂-rGO composites were enhanced by the introduction of Ag nanoparticles, and the QCM modified with AgNPs-SnO₂-rGO composites could detect NO₂ at room temperature.     

ZnSe/MoO_3/TiO_2复合膜的制备及其光生阴极保护效应

针对TiO_2半导体不能有效吸收可见光,光电转换效率较低等问题,可通过对TiO_2半导体进行修饰和改性,制备TiO_2复合材料,提高其光电化学性能。因此,本工作以Ti表面制备的TiO_2纳米管膜为基础,分别应用循环伏安电沉积法和脉冲电沉积法在膜表面先后沉积MoO3和ZnSe颗粒,获得具有级联能带结构的ZnSe/MoO3/TiO_2纳米管复合膜,并将其应用于对403不锈钢(403SS)实施光生阴极保护。相较于纯TiO_2纳米管膜,紫外-可见(UV-Vis)吸收光谱和光致发光(PL)谱测试表明,ZnSe/MoO3/TiO_2复合膜的吸收边红移,在可见光区具有良好的光吸收性能,光生载流子复合得到更有效抑制。光电化学测试表明,白光照射下,处于0.5 mol·L~(-1) KOH溶液中的ZnSe/MoO3/TiO_2复合膜的光电流密度达到了同条件下纯TiO_2膜的2倍,可使与之耦连的浸泡于0.5 mol·L-1 NaCl溶液中的403SS电极电位下降470 mV,显示出良好的光生阴极保护效应。复合膜还具有一定的储能特性,在光照后又转为暗态的22.5 h内仍对403SS具有一定阴极保护作用。     

γ-Fe2O3纳米纤维的丙酮敏感特性

采用静电纺丝法制备了PVP/FeC₆H₅O₇复合纳米纤维, 并将复合纤维在500 ℃高温烧结3 h, X射线衍射分析(XRD)表明, 烧结后的产物为正尖晶石结构的γ-Fe₂O₃晶体. 扫描电子显微镜(SEM)观测结果表明, 制得了直径均匀、 连续的复合纳米纤维, 其平均直径约为1000 nm; 烧结后的γ-Fe₂O₃纳米纤维保持了其连续性, 但纤维发生了收缩, 直径较烧结前小, 平均约为600 nm. 比表面积分析表明, γ-Fe₂O₃纳米纤维比表面积为57.18 m²/g. 气敏性能测试结果表明, 230 ℃为γ-Fe₂O₃纳米纤维检测丙酮气体的最佳工作温度. 在此温度下, γ-Fe₂O₃纳米纤维对丙酮气体表现出高响应度[S=6.9, c(Acetone)=7.88×10⁴ mg/m³]和线性度(7.88×10²~1.58×10⁵ mg/m³浓度范围内). 同时, γ-Fe₂O₃纳米纤维气体传感器件还表现出良好的长期稳定性.     

用于直接甲醇燃料电池的高活性PtCo-CNT@TiO_2复合纳米阳极催化剂

采用溶胶凝胶法制备CNT@TiO_2载体,利用电沉积法制备用于直接甲醇燃料电池的PtCo-CNT@TiO_2阳极催化剂。采用透射电子显微镜(TEM)、X射线衍射(XRD)和电化学工作站对其进行表征。结果表明,PtCo-CNT@TiO_2复合纳米材料有明显的结晶,且金属粒子围绕在TiO_2包覆的碳纳米管的周围,用于直接甲醇燃料电池阳极催化剂具有较高的活性与稳定性。该PtCo-CNT@TiO_2催化剂的电化学比表面积为164 m~2/g,65℃时甲醇的氧化峰电流达到45 mA/cm~2,计时电流曲线表明300 s后PtCo-CNT@TiO_2的氧化电流趋于24 mA/cm~2,在碱性条件下甲醇的氧化峰电流为39.7 mA/cm~2。     

MoS_2/TiO_2复合催化剂的制备及其在紫外光下的光催化制氢活性

为了研究复合光催化剂在光催化中的制氢效率,采用水热法制备了Mo S2纳米片,然后通过水热法在Mo S2纳米片上负载了TiO_2纳米颗粒,形成了Mo S2/TiO_2异质结复合催化剂。采用冷场发射扫描电子显微镜(FE-SEM)、透射电子显微镜(TEM)、X射线衍射(XRD)、紫外-可见吸收光谱(UV-Vis)、拉曼光谱(Raman),X射线光电子能谱(XPS)对材料的结构和光学性能表征并进行分析。通过光催化制氢测试对光催化剂进行评价,实验结果表明,在波长为365 nm的紫外光照射下,最高光催化制氢速率为1004μmol·h-1·g-1,对应的催化剂的Mo S2含量为30%,其催化速率远大于单一的Mo S2和TiO_2,表明Mo S2/TiO_2复合催化剂在紫外光照下能显著提高光催化产氢性能。基于Mo S2/TiO_2复合光催化剂优越的光催化产氢性能,本文对复合光催化剂的产氢机理做了研究和分析。     

氟钒锰共掺对TiO2柱撑膨润土光催化脱硝性能的影响

采用溶胶-凝胶法制备氟钒锰共掺改性的TiO₂柱撑膨润土，使用XRD、氮吸附、UV-vis光谱和SEM等手段对其进行了表征测试，并对其室温下的可见光催化脱硝性能进行了评价研究。结果表明，对于NO质量浓度为661 μg/m³的气体，F-V-Mn共掺TiO₂柱撑膨润土的光催化脱除效率近似达到100%，而NO质量浓度提升至1657 μg/m³时，光催化效率为81.9%，与未柱撑的F-V-Mn共掺TiO₂相比提高了33.8%。F-V-Mn共掺TiO₂柱撑膨润土上光催化脱反应速率常数最大，是V-Mn共掺TiO₂柱撑膨润土的2倍，且前者的抗水和抗SO₂中毒能力也更强。TiO₂柱撑不仅保留了膨润土的片状晶体结构，而且使膨润土层间距由0.667 nm增大至0.710 nm，吸附能力增强；同时，掺杂元素能抑制TiO₂金红石相生长，降低TiO₂禁带宽度，提高可见光响应，延长使用寿命，拓宽应用范围。     

聚苯胺复合二氧化钛的制备及其降解硝基苯研究

以苯胺和二氧化钛为原料,采用化学氧化法,合成光降解复合材料聚苯胺(PANI)/二氧化钛(TiO₂),并对其进行表征。采用该复合材料对50mg·L^-1的硝基苯模拟废水进行自然光催化降解研究,实验结果显示,当二氧化钛和苯胺用量摩尔数之比为10∶1,在自然光条件下获得最佳的催化效果,同时讨论了不同pH值和投加量对降解效果的影响,发现当pH=7,投加量为0.5g·L^-1时,2h自然光降解效率达到95.2%,反应速率常数增长了3.25倍。     

Ru(Ⅱ) Bipyridyl Complex and TiO2 Nanocomposite Based Biomolecule-free Photoelectrochemical Sensor for Highly Selective Determination of Ultra-trace Hg^2+ in Aqueous Systems

A biomolecule-free photoelectrochemical(PEC) probe(denoted as Ru-1) was designed, synthesized and coupled with TiO2 nanoparticles(NPs) for the highly sensitive and selective PEC detection of Hg^2+, a model analyte with hypertoxicity to both human health and ecosystem. The probe Ru-1 was designed with Ru(Ⅱ) bipyridyl complex as the chromophore, thiocyanate ligand as the recognition unit, and carboxylate group as the linkage site to connect Ru-1 to TiO2 nanoparticles. Under irradiation, Ru-1 shows strong affinity to TiO2 and good photophysical properties of strong visible light absorption, slow electron-hole(e-h^+) recombination, and fast photoelectron injection to TiO2 nanoparticles via the bridge of 4-(2,2-bipyridin)-4-yl-thiophene moiety. However, the specific coordination of Hg^2+ with Ru-1 via the thiol moiety in the thiocyanate enlarges the band gap of tlie complex and reduces the photocurrent significantly. The synergistic interaction between TiO2 nanoparticles and the Ru-1 complex led to a selective PEC sensing strategy for Hg^2+ detection. Detectable linear ranges from 10^-12 g/mL to 10^-7 g/mL and from 10^-7g/mL to 10^-3 g/mL were obtained without the interference from possibly co-existed metal ions. The good analytical performances indicate the chemical probe based biomolecule-free PEC platform may offer a new route for the detection of biologically and environmentally important small molecules.     

基于PbS QDs/TiO2 NPs构建新型谷胱甘肽光电化学传感器

通过高温煅烧将二氧化钛纳米颗粒(TiO₂ NPs)修饰到ITO电极表面制成TiO₂ NPs/ITO电极, 再采用连续离子层吸附反应(SILAR)循环将硫化铅量子点(PbS QDs)修饰到TiO₂/ITO电极表面制得PbS QDs/TiO₂ NPs/ITO电极, 并将该电极应用于检测谷胱甘肽(GSH)的光电化学传感器. 在该传感器中, 当PbS QDs受470 nm可见光的激发时将产生电子(e)和光生空穴(h ⁺), 光生空穴可被溶液中的GSH捕获, 并将GSH氧化成GSSH, 有效避免电子和空穴的复合, 显著提高了光电效率. 该传感器对GSH的检测具有较高的灵敏度和选择性, 线性检测范围为0.06~1 mmol/L, 检出限(LOD)为4.6×10 ^-3 mmol/L(S/N=3).