CTAB-assisted synthesis of mesoporous F-N-codoped TiO2 powders with high visible-light-driven catalytic activity and adsorption capacity

This article describes the preparation of mesoporous rod-like F-N-codoped TiO₂ powder photocatalysts with anatase phase via a sol-gel route at the temperature of 373 K, using cetyltrimethyl ammonium bromide (CTAB) as surfactant. The as-prepared photocatalysts were characterized by X-ray diffraction (XRD), scanning electron microscopy (SEM), transmission electron microscopy (TEM), X-ray photoelectron spectroscopy (XPS) and UV-visible diffuse reflectance spectra (UV-vis DRS). The results showed that the photocatalysts possessed a homogeneous pore diameter and a high surface area of 106.3-160.7 m³ g⁻¹. The increasing CTAB reactive concentration extended the visible-light absorption up to 600 nm. The F-N-codoped TiO₂ powders exhibited significant higher adsorption capacity for methyl orange (MO) than that of Degussa P25 and showed more than 6 times higher visible-light-induced catalytic degradation for MO than that of P25.     

Preparation and photocatalytic activity of high-efficiency visible-light-responsive photocatalyst SnSx/TiO2

Visible-light-responsive composite photocatalysts SnS₂/TiO₂ and SnS/TiO₂ with different mass ratios were prepared by in-situ synthesis technology in solution with commercial TiO₂. The junction-based materials SnS_x (x=1, 2)/TiO₂ were found to have high visible-light photocatalytic performance and possess much better activity than the single-phase SnS_x or TiO₂. The greatly enhanced photocatalytic activity of the SnS_x/TiO₂ composites was mainly attributed to the matching band potentials and efficient charge transfer and separation at the tight-bonding interface between SnS_x and TiO₂. The fact was confirmed by the comparison of photocatalytic activities of the SnS₂/TiO₂ samples prepared by physical mixing method and in-situ synthesis technique.     

Visible-light responsive dye-modified TiO2 photocatalyst

A series of dye-modified TiO₂ photocatalysts were synthesized using dye Chrysoidine G (CG), tolylene-2,4-diisocyanate (TDI), and commercial TiO₂ (Degussa P25) as starting materials. TDI was used as a bridging molecule whose two -NCO groups reacted with Ti-OH of TiO₂ and -NH₂ groups of CG, respectively. As a result, special organic complexes were formed on the TiO₂ surface via stable π-conjugated chemical bonds between TiO₂ and dye molecules, confirmed by FT-IR, XPS, and UV-vis spectra. Due to the existence of π-conjugated surface organic complexes, the as-synthesized photocatalysts showed a great improvement in visible absorption (400-550 nm). Methylene blue, as a photodegradation target, was used to evaluate the photocatalytic performance, and the dye-modified TiO₂ exhibited much better activity under the visible light irradiation than bare TiO₂.     

等离子体修饰磁载TiO2光催化剂性能研究

以化学共沉法制备的CoFe₂O₄纳米粒子为磁核,采用TiCl₄水解包覆技术制备磁载二氧化钛纳米复合粒子CoFe₂O₄ /TiO_x(TCF),利用低温等离子体技术修饰TCF制备了CoFe₂O₄/TiO₂(PTCF)纳米复合光催化剂。运用VSM(振动样品磁强计)技术对样品磁性能进行研究,结果表明：等离子体修饰后的复合材料仍具有较高的饱和磁化强度,可在外加磁场作用下实现催化剂在水中的分离与回收;样品的XRD、TEM和UV-Vis分析测试结果表明：等离子体修饰后的复合材料有锐钛矿型TiO₂存在;TEM谱图显示磁核CoFe₂O₄的平均粒径约为20 nm,TCF复合粒子的粒径约为30~40 nm,TiO₂包覆层的厚度为10~20 nm。与纯TiO₂相比PTCF样品对光的吸收拓展到整个紫外-可见区,扩大了光谱响应范围;对甲基橙溶液降解的光催化活性评价研究表明：TCF复合粒子等离子体修饰后的PTCF纳米复合光催剂的光催化活性明显提高。     

Characterization of Visible Light Response N-F Codoped TiO2 Photocatalyst Prepared by Acid Catalyzed Hydrolysis

N-F codoped TiO₂ (TONF) photocatalysts were prepared using acid catalyzed hydrolysis method from mixed aqueous solution of TiCl₄ and NH₄F. The photocatalytic activity of the TONF was evaluated through the degradation of phenol under both visible and UV light irradiation. X-ray photoelectron spectroscopy (XPS), UV-Vis diffuse reflectance spectroscopy (DRS), X-ray diffraction (XRD), scanning electron microscope (SEM), and N₂ adsorption isotherm were used to characterize the obtained powders. The results showed that N-F codoped TiO₂ exhibited significant improvement of visible light catalytic activity. N-F codoping could improve dispersion of TiO₂, inhibit particle size agglomeration, and retard phase transformation. Doped N could extend the light response of TiO₂ to visible light region. In addition, narrower band gap formed by F-doping was beneficial to the high visible light photocatalytic activity.     

Preparation and spectroscopic characterization of visible light sensitized N doped TiO2 (rutile)

Nitrogen doped TiO₂ represents one of the most promising material for photocatalitic degradation of environmental pollutants with visible light. However, at present, a great deal of activity is devoted to the anatase polymorph while few data about rutile are available. In the present paper we report an experimental characterization of N doped polycrystalline rutile TiO₂ prepared via sol-gel synthesis. Nitrogen doping does not affect the valence band to conduction band separation but, generates intra band gap localized states which are responsible of the on set of visible light absorption. The intra band gap states correspond to a nitrogen containing defect similar but not coincident with that recently reported for N doped anatase.     

玻璃微珠/Ag/TiO2可见光催化剂的制备与表征

通过离子交换法将Ag纳米颗粒负载于玻璃微珠的表面及浅表层,并以钛酸四丁酯的乙醇溶液为前驱体,将TiO₂负载于包含银的玻璃微珠表面,制得一种玻璃微珠/Ag/TiO₂复合光催化剂。由于纳米银的表面等离子体吸收效应,该复合光催化剂具有一定的可见光响应特性。利用XRD、SEM对样品进行表征,可发现玻璃微珠表面形成一层均匀多孔的锐钛矿TiO₂,其粒径均在50 nm左右。由漫反射光谱可得出该催化剂具有较强的可见光吸收,并在降解甲基橙溶液的试验中表现出较好的可见光催化活性。     

Dependence of nitrogen doping on TiO2 precursor annealed under NH3 flow

N-doped TiO₂ photocatalysts were prepared by annealing two different precursors, P25 and a TiO₂ xerogel powder under NH₃/Ar flow at 500, 550, and 600 °C. The xerogel powder prepared by peptizing Ti(OH)₄ with HNO₃ was composed of nanoparticles and had large specific surface area. During the annealing process, the xerogel powder underwent increase in crystallinity, grain growth and phase transformation, whereas P25 did not show obvious changes. Compared with the N-doped TiO₂ photocatalysts from P25, the N-doped TiO₂ photocatalysts from the xerogel powder possessed higher concentrations of the substitutional nitrogen and exhibited more obvious absorption in the visible light region. The N-doped TiO₂ photocatalysts from the xerogel powder exhibited obvious visible-light activities for photodegrading methylene blue and the sample prepared at 500 °C achieved the best performance with a rate constant (k) about 0.44 h⁻¹, whereas those from P25 did not exhibit improved visible-light activities.     

Fabrication and photocatalytic activity of high-efficiency visible-light-responsive photocatalyst ZnTe/TiO2 nanotube arrays

A new ZnTe modified TiO₂ nanotube (NT) array catalyst was prepared by pulse potential electrodeposition of ZnTe nanoparticles (NPs) onto TiO₂ NT arrays, and its application for photocatalytic degradation of anthracene-9-carboxylic acid (9-AnCOOH) was investigated. The even distribution of ZnTe NPs was well-proportionately grown on the top surface of the TiO₂ NT while without clogging the tube entrances. Compared with the unmodified TiO₂ NT, the ZnTe modified TiO₂ NT (ZnTe/TiO₂ NT) showed significantly enhanced photocatalytic activity towards 9-AnCOOH under simulated solar light. After 70 min of irradiation, 9-AnCOOH was degraded with the removal ratio of 45% on the bare TiO₂ NT, much lower than 80%, 90%, and 100% on the ZnTe/TiO₂ NT with the ZnTe NPs prepared under the pulsed “on” potentials of −0.8, −1.0, and −2.0 V, respectively. The increased photodegradation efficiency mainly results from the improved photocurrent density as results of enhanced visible-light absorption and decreased hole-electron recombination due to the presence of narrow-band-gap p-type semiconductor ZnTe.     

静电自组装制备纳米TiO2/SiO2光催化材料

采用静电自组装方法制备了纳米TiO2/SiO2光催化材料。采用巯丙基三甲氧基硅烷偶联剂对SiO2进行干法改性,采用双氧水/冰醋酸将偶联剂巯基基团氧化为磺酸基基团。在正负电荷的吸引下,带负电荷的SiO2与带正电荷的钛聚合阳离子自发地组装在一起,经一定温度热处理得到纳米TiO2/SiO2光催化材料。采用XRD、FTIR、PL、UV-Vis DRS、SEM和ICP等对材料进行了分析和表征。采用甲基橙溶液评价材料的光催化性能。结果表明:SiO2促使锐钛矿的形成,抑制锐钛矿向金红石的转变,减小TiO2的晶粒尺寸,使得TiO2光吸收波长发生蓝移。TiO2与SiO2通过Si-O-Ti键发生结合。采用静电自组装方法制备的材料中TiO2的含量高于传统方法,导致材料的光催化性能有所提高。     

三维有序大孔CdS/TiO2薄膜的制备及其可见光催化性能

采用胶体晶体模板辅助溶胶-凝胶法以及S2-离子交换法合成了三维有序大孔CdS/TiO₂膜.结果表明,该薄膜材料在可见光催化降解污染水中罗丹明B和对氯苯酚的反应中表现出高活性.这可归因于修饰剂CdS的光敏化作用实现可见光催化,CdS-TiO₂之间形成了异质结,促进了电子和空穴的分离; 另一方面,有序大孔结构有利于光的利用以及反应物的扩散和吸附.     

Solid-phase photocatalytic degradation of polystyrene plastic with TiO2 as photocatalyst

Solid-phase photocatalytic degradation of polystyrene (PS) plastic with TiO₂ as photocatalyst was investigated in the ambient air under ultraviolet light irradiation. Higher weight loss rate, lower average molecular weight, increased carbonyl peak intensity, less volatile organics and more CO₂ emitted with irradiation in PS-TiO₂ composite sample compared to pure PS sample were observed. These facts indicated the higher photodegradation rate of PS-TiO₂ sample than that of PS sample, and emphasized the potential of the composite sample in bring about complete photodegradation of polystyrene plastic. It is implied that the degradation initially occurred over TiO₂ particles, followed by the diffusion reaction with the aid of reactive oxygen species generated on TiO₂ particle surface.     

Pt / InVO4 / TiO2可见光催化剂的制备及性能研究

采用溶胶-凝胶法制备了Pt / InVO₄ / TiO₂三元体系可见光催化剂。以乙烯为模拟目标分子，评价其光催化活性并与二元体系催化剂Pt / TiO₂ 和InVO₄ / TiO₂进行比较。用DRS，XRD对催化剂的吸收带边和晶型进行了表征。结果表明：Pt / InVO₄ / TiO₂在可见光区（λ>450 nm）的光催化比活性比Pt / TiO相似文献   

N 掺杂TiO2光催化剂的制备及其可见光活性研究

A visible-light-active photocatalyst was prepared by calcination of the hydrolysis product of tetrabutyl titanate with ammonia as precipitant. The photocatalyst was characterized by X-ray diffraction (XRD), UV-Vis diffuse reflection spectra (DRS), thermal gravimetric-differential thermal analysis (TG-DTA), X-ray photoelectron spectroscopy (XPS), scanning electron microscope (SEM). The color of the photocatalyst was yellow and could absorb light wavelength under 550 nm as measured by DRS. The catalyst calcined at higher temperature will give lower absorbance for visible light. Structures of the sample were characterized mainly to be anatase by XRD except for the sample calcined at 700 ℃ which gave mixtures of anatase and rutile. TG-DTA results showed that temperature for anatase formation was 415 ℃. XPS results showed that doped-nitrogen was presented in the sample, they are important to show visible-light absorbency. The photocatalytic activities were evaluated using methyl orange and phenol as model pollutants, the results showed that over 90% of phenol could be degraded under visible light using N/TiO₂ as the catalyst after 4 hours reaction. Almost the same activity was found for the TiO₂ photocatalyst calcined at different temperature under sunlight but activities were different when the treatment was under UV light.     

N掺杂对TiO2形态结构及光催化活性的影响

以TiCl₄为钛源,采用酸催化水解法合成TiO₂前驱体,在NH₃/N₂气氛下经不同温度处理制得浅黄色的N掺杂TiO₂(TON)光催化剂。以苯酚为模型物,考察了催化剂在紫外光区、可见光区及太阳下催化活性;采用DRS、XPS、XRD、FTIR、SEM及低温氮物理吸附对光催化剂的晶相结构、光谱特征和表面结构等进行表征。系统研究了N掺杂对TiO₂形态结构及光催化活性的影响。结果表明,掺杂N以阴离子形式进入TiO₂体相中置换晶格中的O,适宜温度下制得适量N掺杂的TON在紫外光区、可见光区及太阳光下均表现出较高的活性。N掺杂在TiO₂表面生成Ti-O-N键,形成新的能级结构,使催化剂的吸收红移至450～550 nm,诱发TiO₂可见光催化活性。同时高温下煅烧,N掺杂可抑制TiO₂晶粒生长,减缓TiO₂粒子间团聚,提高锐钛矿相向金红石相转变温度,减缓相转化速度。     

Enhancement of ethanol electrooxidation on plasmonic Au/TiO2 nanotube arrays

Novel electrocatalysts Au/TiO₂ nanotube arrays (Au/TiO₂NTs) were prepared by loading low-content(1.9 at.%) of Au nanoparticles (AuNPs) onto highly ordered TiO₂ nanotube arrays (TiO₂NTs). Ethanol electrooxidation indicates that visible-light (λ > 400 nm) irradiation can significantly enhance the activity as well as resistpoisoning of Au/TiO₂NTs electrocatalysts that are activated by plasmon resonance. Au/TiO₂NTs catalysts calcinated at 300 °C display the highest performance due to the strong synergistic interactions between TiO₂ and Au NPs. The combination of visible-light irradiation with a controllable potential offers a new strategyfor enhancing the performance of anodes in direct ethanol fuel cell (DEFC).     

TiO2光催化剂的形貌与晶面调控

二氧化钛（TiO₂）具有化学稳定性高、无毒、价格低廉、来源广泛及光电性能优异等优点,被广泛应用于太阳能电池和光催化等领域,尤其是在污染物的光催化降解方面,可很好地解决当前的环境污染问题。但一方面受带隙宽度限制,使其对太阳光的利用率不足5%,不能充分利用太阳光中的可见光;另一方面由于光生电子-空穴容易结合,催化效率低,从而使TiO₂的实际应用受到限制。因此必须采取合适的措施,一方面要增强TiO₂对可见光的吸收,提高对太阳光的利用率;另一方面要抑制光生电子-空穴的复合,提高光催化效率。目前越来越多的科学家通过控制TiO₂的形貌、晶型、特殊晶面暴露等手段来提高TiO₂光生电子-空穴的传输速率和光电转换效率。本文主要综述了近年来在TiO₂光催化剂的特殊形貌和特殊晶面暴露等方面的研究进展,对未来的研究和发展方向作了展望。     

TiO2-CoFe2O4磁性复合材料制备及太阳光催化性能

以四氯化钛、三价铁盐和二价钴盐为前驱体,采用超声波技术一步合成了TiO2-CoFe2O4新型复合光催化剂,运用VSM、XRD、TEM和UV-Vis技术进行了表征,以甲基橙为模拟污染物在太阳光照射下研究其光催化活性。结果表明:所制得的样品具有良好的顺磁性,其饱和磁化强度为212 Gs;样品中TiO2和CoFe2O4分别以锐钛矿相和尖晶石结构存在,粒径尺寸在40～50 nm之间;样品在紫外-可见区有很强的吸收。光催化结果表明复合催化剂具有较高的太阳光催化活性,循环使用3次,仍能保持良好的催化活性。     

Catalytic oxidation of no to NO2 over Cr/TiO2 and Cu/TiO2 under oxidizing atmosphere

The catalytic activity of Cr/TiO₂ and Cu/TiO₂ for the oxidation of NO under an oxidizing atmosphere has been examined. Both catalysts had excellent ability for the oxidation of NO to NO₂ in the temperature range of 350–400°C.     

TiO_2光催化剂的形貌与晶面调控

二氧化钛(TiO2)具有化学稳定性高、无毒、价格低廉、来源广泛及光电性能优异等优点,被广泛应用于太阳能电池和光催化等领域,尤其是在污染物的光催化降解方面,可很好地解决当前的环境污染问题。但一方面受带隙宽度限制,使其对太阳光的利用率不足5%,不能充分利用太阳光中的可见光;另一方面由于光生电子-空穴容易结合,催化效率低,从而使TiO2的实际应用受到限制。因此必须采取合适的措施,一方面要增强TiO2对可见光的吸收,提高对太阳光的利用率;另一方面要抑制光生电子-空穴的复合,提高光催化效率。目前越来越多的科学家通过控制TiO2的形貌、晶型、特殊晶面暴露等手段来提高TiO2光生电子-空穴的传输速率和光电转换效率。本文主要综述了近年来在TiO2光催化剂的特殊形貌和特殊晶面暴露等方面的研究进展,对未来的研究和发展方向作了展望。