共查询到17条相似文献,搜索用时 109 毫秒
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采用基于密度泛函理论的第一性原理计算方法,对掺杂Fe和(或)V的金红石型TiO2的电子结构进行了计算。理论模拟的结果表明,纯金红石的禁带宽度为1.98 eV;Fe掺杂金红石型TiO2的禁带宽度为2.18 eV,由Fe3d和O2p轨道杂化在禁带中间形成了两条杂质能级;V掺杂金红石型TiO2的禁带宽度减小为1.80 eV,由V3d和O2p轨道杂化形成的杂质能级位于金红石的导带底,引入了一个浅施主能级;Fe和V共掺杂的金红石禁带中存在一个较宽的杂质能带,禁带宽度减小为1.73 eV。杂质能级的出现以及禁带宽度的减小使得Fe和V掺杂的金红石具有更好的可见光响应能力。同时,Fe和V的类质同像替代使得金红石中MO6八面体具有较大的畸变程度,有助于表面缺陷的增加,从而为光催化反应提供天然活性位。为进一步深入揭示含铁、钒等杂质的天然金红石的可见光催化机制提供了理论支持。 相似文献
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《矿物岩石地球化学通报》2017,(3)
锰氧化物是常见的半导体材料之一,本文利用XRD、Raman、X射线吸收-发射谱及Zeta电位测试技术对合成的4种锰氧化物矿物(酸性水钠锰矿、碱性水钠锰矿、δ-MnO_2、锰钾矿)的能带结构进行了理论计算。结果表明,4种矿物均是可见光响应的半导体矿物,其禁带宽度分别为2.32 eV、1.77 eV、1.36 eV、1.23 eV;在p H等于6时,4种锰氧化物矿物对应的导带电势分别为-0.32 V、0.09 V、0.39 V、0.46 V(vs.NHE),价带电势分别为2.00 V、1.86 V、1.75 V、1.69 V(vs.NHE)。与腐殖质氧化还原电势相比较,4种锰氧化物矿物在任何pH条件下均能吸收可见光催化氧化腐殖质。从结构上比较,层状结构比隧道结构的锰氧化物可见光催化氧化还原能力更强。 相似文献
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采用基于密度泛函理论的第一性原理计算方法,对掺Fe和(或)Cd的闪锌矿型Zn S的电子结构进行了计算。计算结果表明,纯闪锌矿的禁带宽度为2.85 e V;掺Fe浓度为3.125%的闪锌矿禁带宽度为2.58 e V,且Fe的3d和S的3p轨道杂化在禁带中引入了两条杂质能级;随着掺Fe量的增加,杂质能级的宽度和峰高也随之增大;掺Cd闪锌矿的禁带宽度为2.68 e V,并在下价带底引入一条杂质能级;Fe/Cd共掺杂的闪锌矿禁带宽度为2.49 e V,在禁带中出现的两条施主杂质能级可提高闪锌矿的可见光响应及催化能力。计算结果为深入探讨天然闪锌矿的可见光催化机制提供了理论支持。 相似文献
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基于密度泛函理论(DFT)的平面波超软赝势方法,从第一性原理计算的角度,应用GGA对TiO2的高压相α-PbO2型TiO2的晶格参数和电子结构作了比较系统的计算,得到优化后的晶格参数与实验值十分符合.电子结构计算表明α-PbO2型TiO2属于间接带隙半导体,其禁带宽度为2.47 eV,大于锐钛矿型TiO2计算的带隙值Eg=2.12eV,主要原因在于α-PbO2型TiO2结构具有较低的晶体对称性,并且其Ti-O平均键长更长,Ti与O离子的正负电荷数较少,Ti3d轨道与O2p轨道杂化程度较弱.在理论上确认对称性较低的高压矿物-α-PbO2型TiO2高压相的光催化效果不及常态相锐钛矿型TiO2好. 相似文献
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《吉林大学学报(地球科学版)》2015,(Z1)
<正>针铁矿在地表环境中分布广泛,具有吸附能力强、催化降解污染物、参与氧化还原等方面的性质,这些特征使其在地球化学、环境化学、生物学、矿物学、土壤科学等研究方面有着重要的意义。此外针铁矿具有半导体材料的性质,其禁带宽度为2.10~2.50 e V,能够利用太阳光中的紫外及可见波段发生空穴–电子的分离,从而进一步发生矿物自溶解或与环境中有机污染物等物质发生反应。同时地表环境中的针铁矿常常为纳米尺度,因此对纳米针铁矿的半导体性能研究有助于我们进一步了解探讨环境的天然自净化功能, 相似文献
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天然半导体矿物具有优良的日光催化特性。本研究选取天然钨酸盐作为研究对象,对武鸣、栗木、崇义3个不同矿区的天然黑钨矿进行了矿物学及光催化实验探究。利用X射线衍射、拉曼光谱、红外光谱、电子探针微区分析对天然样品的结构与成分进行分析,鉴定其主要矿物相为黑钨矿(Fe,Mn)[WO4],从武鸣、栗木到崇义矿区,Fe/Mn摩尔分数比从7.1、0.9到0.3依次降低。利用紫外可见漫反射测得武鸣、栗木、崇义地区样品禁带宽度分别为1.5、1.6和1.7eV,说明其具有良好的可见光响应。在pH为7的条件下用质量浓度为1g/L的样品对5mg/L的有机染料亚甲基蓝(MB)进行光催化实验(含0.01mol/L H2O2 ),结果表明武鸣地区黑钨矿实验组降解MB的效果最佳,3h后其效率分别是栗木、崇义地区样品的1.1倍和1.6倍。电子顺磁共振谱检测结果显示,反应过程中均产生氧化性羟自由基(·OH),其中效果最好的武鸣黑钨矿产生的·OH信号更强;不同自由基捕获实验证明·OH在光催化反应过程中起主要作用。进一步选取武鸣黑钨矿开展光催化降解机制研究,实验结果显示:光照下黑钨矿与H2O2共存的实验组对MB的脱色降解率可达99%(3h),只有黑钨矿的对照组降解7%的MB,只有H2O2 的对照组降解31%的MB;黑暗条件下,同时添加黑钨矿与H2O2的对照组对MB的去除率为34%。不同H2O2 浓度条件下黑钨矿降解MB符合准一级动力学方程,说明降解过程与催化剂含量无关,H2O2 更多的是充当电子受体。分析认为,不同产地黑钨矿日光催化效率与矿物铁含量呈正相关,与禁带宽度呈负相关,推测其反应机理是光催化与芬顿反应协同产生的·OH将MB氧化降解。本研究为开发利用天然矿物治理环境污染提出了新方法。 相似文献
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为探究"矿物膜"中半导体矿物与光合色素间的日光响应协同作用,对采自安徽潜山市郊的"矿物膜"样品进行了矿物组成和色素组成分析。同步辐射X射线粉末衍射测定表明,样品富含锐钛矿、赤铁矿等半导体矿物;拉曼光谱证实其中存在地表广泛分布的光合色素:β-胡萝卜素。在此基础上开展锐钛矿-β-胡萝卜素协同增强日光响应模拟实验。合成锐钛矿电极并对其进行系统的矿物学表征,紫外-可见漫反射吸收谱计算其禁带宽度约为3.07 eV;莫特-肖特基计算得到的平带电位约为-0.16 V,载流子浓度约为3.25×1026 cm-3;光电化学测试结果显示其具有一定可见光光电转化能力。经β-胡萝卜素敏化处理后,锐钛矿电极平均光电流密度提升了400%,在425~550 nm间光吸收值提高,该波段位于日光辐射能量集中的波长范围内,且与β-胡萝卜素吸收范围吻合,表明二者间存在日光吸收及光电响应协同增强作用。 相似文献
8.
本文采集了我国19个产地的天然闪锌矿进行矿物学和光催化性能研究。样品皆为立方Zn S结构,化学成分变化较大,其中Fe对闪锌矿中Zn的替代范围为0.235%~14.826%(质量分数,下同),Cd对闪锌矿中Zn的替代范围为0.133%~1.576%。闪锌矿中Fe含量由低到高,导致颜色由浅变深直至呈黑色,半导体禁带宽度由大变小,估算获得天然闪锌矿的禁带宽度范围为3.18~2.28 e V,明显低于纯Zn S禁带宽度3.68 e V,光催化响应均在可见光范围。验证光催化实验结果表明含Fe较低、含Cd较高的天然闪锌矿可见光催化还原降解甲基橙的效果较佳,如可见光下1 g/L闪锌矿样品(含铁4.262%,含镉1.576%)对30 mg/L甲基橙催化反应4 h后的脱色降解率达到82.11%。天然闪锌矿中Fe含量影响着禁带宽度和光响应范围,Cd含量影响着光催化性能,为高附加值开发利用贱金属资源天然闪锌矿提供了科学依据。 相似文献
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David M. Sherman 《Geochimica et cosmochimica acta》2005,69(13):3249-3255
Sunlight-induced reduction and dissolution of colloidal Fe-Mn (hydr)oxide minerals yields elevated concentrations of Fe2+ and Mn2+ in natural waters. Since these elements may be biolimiting micronutrients, photochemical reactions might play a significant role in biogeochemical cycles. Reductive photodissolution of Fe (hydr)oxide minerals may also release sorbed metals. The reactivity of Fe-Mn (hydr)oxide minerals to sunlight-induced photochemical dissolution is determined by the electronic structure of the mineral-water interface. In this work, oxygen K-edge absorption and emission spectra were used to determine the electronic structures of iron(III) (hydr)oxides (hematite, goethite, lepidocrocite, akaganeite and schwertmannite) and manganese(IV) oxides (pyrolusite, birnessite, cryptomelane). The band gaps in the iron(III) (hydr)oxide minerals are near 2.0-2.5 eV; the band gaps in the manganese (IV) oxide phases are 1.0-1.8 eV. Using published values for the electrochemical flat-band potential for hematite together with experimental pHpzc values for the (hydr)oxides, it is possible to predict the electrochemical potentials of the conduction and valence bands in aqueous solutions as a function of pH. The band potentials enable semiquantitative predictions of the susceptibilities of these minerals to photochemical dissolution in aqueous solutions. At pH 2 (e.g., acid-mine waters), photoreduction of iron(III) (hydr)oxides could yield millimolal concentrations of aqueous Fe2+ (assuming surface detachment of Fe2+ is not rate limiting). In seawater (pH 8.3), however, the direct photo-reduction of colloidal iron(III) (hydr)oxides to give nanomolal concentrations of dissolved, uncomplexed, Fe2+ is not thermodynamically feasible. This supports the hypothesis that the apparent photodissolution of iron(III) (hydr)oxides in marines systems results from Fe3+ reduction by photochemically produced superoxide. In contrast, the direct photoreduction of manganese oxides should be energetically feasible at pH 2 and 8.3. 相似文献
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Cronobacter sakazakii还原作用对针铁矿晶体结构的影响 总被引:1,自引:0,他引:1
厌氧条件下,Cronobacter sakazakii以乙酸钠作为电子供体,针铁矿中Fe(Ⅲ)作为电子受体进行生命活动,其新陈代谢过程伴随Fe(Ⅲ)的还原。细菌增殖和稳定生长过程中不停还原针铁矿并大量累积Fe(Ⅱ);当细菌衰亡时,Fe(Ⅱ)的产生随之减缓;细菌的活动停止时,Fe(Ⅱ)不再积累并最终保持稳定。同步辐射XRD测试表明,微生物还原作用后针铁矿出现了一系列新衍射峰:4.8、6.03、6.13、6.84、7.7和11.4 峰,可能形成具层状结构的新物相。在XANES图谱中Fe主吸收峰向低能量方向移动1 eV,边前峰峰位中心向低能量方向移动且峰面积减小,表明Cronobacter sakazakii的异化Fe(Ⅲ)还原作用使针铁矿中Fe氧化态降低,矿物晶体结构发生了变化。 相似文献
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The adsorption of Cu, Pb, Zn, and Cd on goethite (αFeOOH) from NaNO3 solutions and from major ion seawater was compared to assess the effect of the major ions of seawater (Na, Mg, Ca, K, Cl, and SO4) on the adsorption behavior of the metals. Magnesium and sulphate are the principal seawater ions which enhance or inhibit adsorption relative to the inert system. Their effect, as determined from the site-binding model of Davis et al. (1978), was a combination of changing the electrostatic conditions at the interface and decreasing the available binding sites.The basic differences between the experimental system of major ion seawater and natural seawater were examined. It was concluded that: 1) although the experimental metal concentrations in major ion seawater were higher than those found in natural seawater, estimates of the binding energy of Cu, Zn, and Cd with αFeOOH for natural seawater concentrations could be made from the data, 2) Cu, Pb, Zn, and Cd showed little or no competition for surface sites on goethite, and 3) the presence of carbonate, phosphate, and silicate had little or no effect on the adsorption of Zn and Cd on goethite. 相似文献
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《Geochimica et cosmochimica acta》1999,63(19-20):2971-2987
Many sediment and soil systems have become significantly contaminated with cadmium, and earth scientists are now required to make increasingly accurate predictions of the risks that this contamination poses. This necessitates an improved understanding of the processes that control the mobility and bioavailability of cadmium in the environment. With this in mind, we have studied the composition and structure of aqueous cadmium sorption complexes on the iron oxyhydroxide minerals goethite (α-FeOOH), lepidocrocite (γ-FeOOH), akaganeite (β-FeOOH), and schwertmannite (Fe8O8(OH)6SO4) using extended X-ray adsorption fine structure spectroscopy. The results show that adsorption to all of the studied minerals occurs via inner sphere adsorption over a wide range of pH and cadmium concentrations. The bonding mechanism varies between minerals and appears to be governed by the availability of different types of adsorption site at the mineral surface. The geometry and relative stability of cadmium adsorption complexes on the goethite surface was predicted with ab initio quantum mechanical modelling. The modelling results, used in combination with the extended X-ray adsorption fine structure data, allow an unambiguous determination of the mechanism by which cadmium bonds to goethite.Cadmium adsorbs to goethite by the formation of bidentate surface complexes at corner sharing sites on the predominant (110) crystallographic surface. There is no evidence for significant cadmium adsorption to goethite at the supposedly more reactive edge sharing sites. This is probably because the edge sharing sites are only available on the (021) crystallographic surface, which comprises just ∼2% of the total mineral surface area. Conversely, cadmium adsorption on lepidocrocite occurs predominately by the formation of surface complexes at bi- and/or tridentate edge sharing sites. We explain the difference in extended X-ray adsorption fine structure results for cadmium adsorption on goethite and lepidocrocite by the greater availability of reactive edge sharing sites on lepidocrocite than on goethite. The structures of cadmium adsorption complexes on goethite and lepidocrocite appear to be unaffected by changes in pH and surface loading. There is no support for cadmium sorption to any of the studied minerals via the formation of an ordered precipitate, even at high pH and high cadmium concentration. Cadmium adsorption on akaganeite and schwertmannite also occurs via inner sphere bonding, but the mechanism(s) by which this occurs remains ambiguous. 相似文献
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Electronic and optical properties of Fe, Zn and Pb sulfides 总被引:1,自引:0,他引:1
Ab initio quantum-chemical calculations of the spatial and electronic structures of sphalerite (ZnS), pyrite (FeS2) and galena (PbS), using the density functional theory (DFT) local density approximation (LDA) and generalized gradient approximation (GGA), the Hartree–Fock (HF) method and the hybrid functional B3LYP, have been carried out. For galena, the DFT LDA and GGA functionals provided the best estimate of the band gap, from within –0.1 eV to +0.4 eV of the measured value. B3LYP and RHF gave rise to errors of +1.3 and +5.4 eV, respectively. The unit cell parameter error varied from between –1.1% and +2.3% for all the functionals examined. For sphalerite the B3LYP functional provided the best estimate of the band gap (error +0.3 eV). The unit cell parameter error varied between –2.1% and +2.0% for the various DFT functionals and B3LYP. RHF gave rise to an error of +3.8%. For FeS2, the DFT-GGA approach provides the best results for both the unit cell and the band gap. This may be due to mutual cancellation of the crystal field splitting and band separation force, which are of equal but opposite magnitudes. The calculated density of states (DOS) for the conduction band is used to interpret the experimental features of the S 1s XANES (X-ray absorption near-edge structure) spectra obtained using synchrotron radiation. Because of the l = ±1 selection rule for electron excitation, the S K-edge XANES spectra represent a transition of the S 1s electron to conduction band S p-like orbitals. The near-edge region, up to 15 eV past the edge is approximated well by the DOS. Individual peaks in the DOS correlate with peaks in the XANES spectra. In addition, the imaginary part of the dielectric function, which reflects the transitions from occupied to unoccupied levels, is used to model the near-edge region of the XANES, using the DFT-GGA formalism. Individual peaks in the XANES spectrum are moderately well resolved using the dielectric function, especially for ZnS and FeS2, while the DOS for the conduction band is more successful in predicting the shape of the XANES spectra for all three minerals. 相似文献
16.
《矿物学报》2013,(Z1)
A. Ennaoui proposed that FeS2 owns an appropriate band gap (0.95 eV) and large absorption coefficient, it can be used for solar materials. People had studied the light absorption characteristics of the FeS2 prepared by different methods, and believed that crystal grain size, defect density and crystalline quality are important factors that affect the light absorption properties. In order to take a depth study of the absorption properties, the research group has taken a study on light absorption characteristics of natural pyrite, the existence of Co, Ni impurities results in lower band gap and conversion efficiency. 相似文献
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Magneticmineralsintheloess paleosolseriesaccountforabout 1 % -2 %ofthetotal (LiuTungshengandZhangZhonghu ,1 962 ) .Duetotheiraerolianorigin ,themagneticmineralsarecomplicatedincomposition ,largeingrainsizerange ,andsignificantlydifferentincrystallinity .Asaresult,researchonthesemagneticmineralswouldbesetwithalotofdifficulties.Previousre searchersemployedopticalmicroscopic ,X raydiffractionandM ssbauerspectrometrictechniquestostudythemagneticmineralsintheloess paleosolseries,andchieflyontheb… 相似文献