Interface and energy band manipulation of Bi2O3-Bi2S3 electrode enabling advanced magnesium-ion storage

Rechargeable magnesium-ion(Mg-ion)batteries have attracted wide attention for energy storage.However,magnesium anode is still limited by the irreversible Mg plating/stripping procedure.Herein,a well-designed binary Bi_(2)O_(3)-Bi_(2)S_(3)(BO-BS)heterostructure is fulfilled by virtue of the cooperative interface and energy band engineering targeted fast Mg-ion storage.The built-in electronic field resulting from the asymmetrical electron distribution at the interface of electron-rich S center at Bi_(2)S_(3) side and electron-poor O center at Bi_(2)O_(3) side effectively accelerates the electrochemical reaction kinetics in the Mg-ion battery system.Moreover,the as-designed heterogenous interface also benefits to maintaining the electrode integrity.With these advantages,the BO-BS electrode displays a remarkable capacity of 150.36 mAh g^(−1) at 0.67 A g^(-1) and a superior cycling stability.This investigation would offer novel insights into the rational design of functional heterogenous electrode materials targeted the fast reaction kinetics for energy storage systems.

Yb^(3+)掺杂SiO_2-Bi_2O_3-B_2O_3玻璃的物理性质及光谱性质

选取玻璃组分60SiO_2-xBi_2O_3-(30-x)B_2O_3-2K_2O-7Na_2O-1Yb_2O_3(以mol％记,x=0,5,10,15,20,25,30)为研究对象。通过测试试样的物理性质和光谱性质,应用倒易法(reciprocity method)计算Yb^(3+)离子的受激发射截面(σemi),并且计算了Yb^(3+)的自发辐射几率(A_(rad)),2F5/2能级的辐射寿命(T_(rad))。讨论了玻璃中Bi_2O_3和B_2O_3的组成变化对其物理性质、Yb^(3+)离子的吸收特性、发光特性以及OH^-离子对实测Yb^(3+)荧光寿命(T_f)的影响。结果表明:Yb^(3+)掺杂的Si_2-Bi_2O_3-B_2O_3具有较好的光谱性能,是一种新型的Yb^(3+)掺杂双包层光纤候选基质材料。

甲醛乙炔化反应中CuO-Bi_2O_3/SiO_2-MgO催化剂活化过程研究

甲醛与乙炔发生炔化反应合成1,4-丁炔二醇,选用铜铋作为催化剂。模拟最具代表性的工业炔化催化剂以研究甲醛乙炔化反应的活化过程,制备高性能CuO-Bi2O3/SiO2-MgO催化剂,结合XRD、H2-TPR、TG-DTA和N2-TPD-MS等表征,研究炔化催化剂活化过程中铜物种的转变,获得最优催化剂活化方法。结果表明,CuO在甲醛溶液中无乙炔存在下可定向转化为Cu2O,但经乙炔活化后活性较低,归因于还原过程中Cu物种的流失及晶粒长大。而在甲醛与乙炔协同作用下,CuO可快速转变为Cu的炔化物种,表现出较高的炔化活性。表明炔化催化剂的活化过程必须在甲醛与乙炔同时存在的条件下进行。

Na_(2)O对锂铝硅微晶玻璃析晶及性能的影响

采用熔融法制备了不同Na_(2)O含量的透明锂铝硅微晶玻璃,通过DSC、XRD、FESEM等测试方法研究了不同Na_(2)O含量对玻璃析晶及性能的影响。结果表明:Na_(2)O的引入能显著降低玻璃的转变温度和析晶温度,抑制LiAlSi_(4)O_(10)晶相的析出。但Na_(2)O的引入促使微晶玻璃中析出Li_(2)Si_(2)O_(5)新相,并且随着Na_(2)O引入量的增加,Li_(2)Si_(2)O_(5)转变为主晶相。由于晶体尺寸均为纳米级,主晶相的转变对透过率影响较小,微晶玻璃的可见光透过率均高于85%。主晶相的转变有效增强了微晶玻璃的机械性能,其弯曲强度由300 MPa提升至331 MPa。Na_(2)O的引入有效增强了Na-K交换,Na_(2)O含量为4%(质量分数)的Li 2O-Al_(2)O_(3)-SiO_(2)微晶玻璃在410℃的KNO_(3)熔盐中交换6 h后,维氏硬度由7.108 GPa提升至7.403 GPa,弯曲强度由331 MPa提升至470 MPa。

α-Bi_2Mo_3O_(12)和γ-Bi_2MoO_6的水热合成及可见光催化性能

采用水热法经调控nBi/nMo比和pH值,制备了α-Bi2Mo3O12钠米板和γ-Bi2MoO6纳米片2种钼酸铋材料。结果表明:在低pH值和较高的钼浓度下可合成α-Bi2Mo3O12,高pH值和低的钼浓度导致了γ-Bi2MoO6的形成,并对其形成机理进行了探讨;光物理和光催化性能研究表明,Aurivillius结构的γ-Bi2MoO6在可见光区有较强的吸收和较高的光催化性能,同时对影响2种钼酸铋光催化活性的因素进行了讨论。

Ce^(3+)和Tb^(3+)掺杂的BaO-La_2O_3-B_2O_3-SiO_2玻璃的发光性质

采用传统熔体冷却技术制备Ce3+和Tb3+掺杂的BaO-La2O3-B2O3-SiO2玻璃,并测试样品的吸收光谱和荧光光谱。实验结果表明:由于Ce3+在5d-4f轨道之间的电子跃迁,基础玻璃掺Ce3+后吸收截止边明显红移;掺Ce3+的BaO-La2O3-B2O3-SiO2玻璃的荧光发射光谱为峰值位于410nm附近的宽带,对应于Ce3+的5d-4f跃迁;由于SiO2比B2O3的光碱度大,玻璃的荧光发射波长,体现出随硼硅比的降低而略有红移;还原性气氛有利于提高玻璃中Ce3+的含量,从而增强发光强度;对Ce3+和Tb3+共掺玻璃,Ce3+和Tb3+在波长200～311nm间有激发带重叠,因存在竞争吸收,导致以此区间波长激发时Tb3+的发光有所减弱;Ce3+和Tb3+在311～444nm间也有激发带(或激发带与发射带)部分重叠,因Ce3+和Tb3+之间存在的辐射和无辐射能量传递导致Ce3+强烈敏化Tb3+的发光。

Effect of Fe_2O_3 on non-isothermal crystallization of CaO-MgO-Al_2O_3-SiO_2 glass

The crystallization behavior and kinetics of CaO-MgO-Al2O3 SiO2（CMAS） glass with the Fe2O3 content ranging from zero to 5%were investigated by differential scanning calorimetry（DSC）.The structure and phase analyses were made by Fourier transform infrared spectroscopy（FT-IR） and X-ray diffraction（XRD）.The experiment results show that the endothermic peak temperature about 760℃ is associated with transition and the exothermic peak temperature about 1000℃ is associated with crystallization.The crystallization peak temperature decreases with increasing the Fe203 content.The crystallization mechanism is changed from two-dimensional crystallization to one-dimensional growth,and the intensity of diopside peaks becomes stronger gradually.There is a saltation for the crystallization temperature with the addition of 0.5%Fe2O3 due to the decomposition of Fe2O3.Si-O-Si,O-Si-O and T-O-T（T=Si,Fe,Al） linkages are observed in Fe2O3-CaO-MgO-Al2O3-SiO2 glass.

Ag/SnO_2-La_2O_3-Bi_2O_3触头材料的研究

采用粉末冶金方法制备了新型银-稀土氧化物触头材料Ag/SnO2-La2O3-Bi2O3。利用扫描电镜(SEM)及能谱分析(EDS),对Ag/SnO2-La2O3-Bi2O3触头材料的显微组织进行了分析,并对其进行了通断能力、温升及侵蚀量的实验。新型材料Ag/SnO2-La2O3-Bi2O3通过了通断能力实验,与Ag/CdO相比平均温升相近,但侵蚀量仅约为Ag/CdO的2/3。由实验结果可知,此材料具有较好的物理、机械、电气性能及较低的成本,具有很好的应用前景和经济效益,有望成为一种可替代Ag/CdO的无毒新型触头材料。

多孔β-Bi_2O_3的制备及光催化性能研究

采用直接热分解醋酸铋,在低温下制备了亚稳相β-Bi2O3,采用XRD、TEM、SEM、BET等手段对其进行表征,并研究了水溶液中其光催化降解有机物的性能。结果显示,热分解温度为300℃可得到纯的四方相β-Bi2O3,提高热处理温度(350℃)或延长热处理时间则产物变为α-Bi2O3。TEM和SEM观察发现,所制备的β-Bi2O3为纳米多孔片层结构,孔径大约为30 nm。UV-Vis漫反射谱显示其对可见光有显著的吸收,带隙宽度为2.72 eV。在可见光照射下,该纳米多孔片层β-Bi2O3对甲基橙、罗丹明和4-氯苯酚溶液(10 mg.L-1)的光催化降解均显示了很高的催化活性,当加入0.05 g催化剂时,上述三种有机物能够分别在2 h,2 h,和4 h以内降解。β-Bi2O3的高光催化活性可归因于其高比表面积以及纳米级结构。

R_2O-RO-Al_2O_3-B_2O_3-SiO_2系统快烧自生乳浊釉的化学组成与分相行为

本研究选择具有大范围实用分相区、适合快速烧成的R2 O(K2 O ,Na2 O) -RO(CaO ,MgO ,ZnO) -Al2 O3-B2 O3-SiO2 系统 ,研究了该多元系统全熔块乳浊釉组成与结构间的相互关系。通过优化组成设计及物理化学过程的控制 ,使釉熔体在快速烧成过程中自发产生分相 ,形成微米 -亚微米级液 -液不混溶结构 ,从而产生良好的乳浊效果。本文对各氧化物对分相过程的影响进行了讨论。

γ-Bi2O3/TiO2复合纤维的制备及光催化性能

采用静电纺丝技术与溶剂热法相结合制备了γ-Bi2O3/TiO2复合纤维光催化材料.利用X射线衍射(XRD)、扫描电镜(SEM)、电子能谱(EDS)、透射电镜(TEM)、高分辨透射电镜(HRTEM)和紫外–可见吸收光谱(UV-Vis)等分析测试手段对材料进行了表征,并以罗丹明B(RB)的脱色降解为模式反应,考察了材料的可见光催化性能.结果表明:γ-Bi2O3纳米片均匀地生长在TiO2纤维上,形成了具有异质结构的γ-Bi2O3/TiO2复合纤维光催化材料,其光谱响应范围拓宽至可见光区,有利于TiO2光生电子和空穴的分离,增强了体系的量子效率.与纯TiO2纤维相比可见光催化活性明显提高,对RB的脱色率达87.8%.

共沉淀法制备α-Bi_2Mo_3O_(12)和γ-Bi_2MoO_6及可见光催化性能

文章采用共沉淀法经调控pH值,在400℃煅烧下,制备了α-Bi2Mo3O12和γ-Bi2MoO62种钼酸铋材料,并对不同产物的形成机理进行了探讨,同时讨论了影响α-Bi2Mo3O12和γ-Bi2MoO62种钼酸铋光催化活性的因素。结果表明:当nBi/nMo=1∶2时,在低的pH值(3和5)时产物为α-Bi2Mo3O12;pH=7时,产物为β-Bi2Mo2O9和γ-Bi2MoO6两相的混合物;pH=9时,产物为γ-Bi2MoO6。光催化性能研究表明,Aurivillius结构的γ-Bi2MoO6在可见光区有较强的吸收和较高的光催化性能。

Pr掺杂α-Bi_2O_3光催化剂的第一性原理研究

采用基于密度泛函理论的第一性原理平面波超软赝势方法研究了Pr掺杂α-Bi2O3的晶体结构、电子结构和光学性质,结果表明Pr掺杂α-Bi2O3后,Pr4f轨道发生分裂,高能轨道进入导带并与O2p、Bi6p轨道发生作用,低能轨道进入禁带形成新的杂质能级,从而使得禁带宽度减小,光吸收带边发生红移,理论计算结果与文献报道的实验结果一致,较好地阐明了Pr掺杂提高α-Bi2O3光催化性能的机理。

BaO-PbO-Nd_2O_3-Bi_2O_3-TiO_2系物相组成与介电性能关系的研究

以五元系统BaO PbO Nd2 O3 Bi2 O3 TiO2 为研究对象探讨化合物相与介电性能的定量关系。系统的主次晶相分别为BaNd2 Ti5O14 和Bi4 Ti3O12 。对系统进行X射线分析 ,用X射线衍射峰强度计算出系统中各物相的体积分数 ,再运用李赫德涅凯对数混合定则进行定量计算 ,得出的系统的介电性能与用仪器实测的系统参数相符。在本研究系统中 ,X衍射射线分析可以测定和定量表征烧结介质瓷中化合物含量 ,经过对系统中各化合物成分的介电性能测定 ,可计算出所研究系统的介电性能 ,从而可以作为一种介质的设计方法。本系统主要是BaO PbO Nd2 O3 Bi2 O3 TiO2 系。Nd和Bi对Ba的取代是异价取代 ,故能准确定量测出和算出其化合物的含量。Pb和Ba是等价取代 ,其化合物的含量可用X射线衍射等方法测出 ,在本系统中因其加入量小 。

ZnO-B_2O_3-SiO_2玻璃对硅酸锌陶瓷结构与微波介电性能的影响

研究了不同添加量的ZnO-B2O3-SiO2(ZBS)玻璃作为烧结助剂对硅酸锌陶瓷的结构及微波介电性能的影响。研究结果表明:添加ZnO-B2O3-SiO2玻璃的陶瓷烧结后其主晶相仍呈硅锌矿结构,并且硅酸锌陶瓷的烧结温度从1300℃降低到900℃。随着玻璃添加量的增加,陶瓷的介电常数(εr)和品质因数(Qf)呈逐渐降低的趋势,当玻璃添加量为20 wt%时,900℃保温2 h所制备的陶瓷具有较优良的微波介电性能:εr=6.85,Qf=31690 GHz,τf=-28×10-6/℃,在低温共烧陶瓷领域有着潜在的应用价值。

BaFe_(12)O_(19)/SiO_2-B_2O_3-K_2O微晶玻璃陶瓷的低温合成及其微波性能

采用柠檬酸sol-gel工艺合成了BaFe12O19/SiO2-B2O3-K2O微晶玻璃陶瓷,并对其介电常数及其磁导率在100MHz～6GHz下的变化规律进行了研究。结果表明:BaFe12O19/SiO2-B2O3-K2O微晶玻璃陶瓷可以在850℃/5h的条件下烧结而成,其合成过程与体系中的Ba/Fe密切相关;其介电常数基本不随测试频率的变化而变化;其磁导率实部随测试频率的增加而下降。

Preparation of α-Bi_2O_3 from bismuth powders through low-temperature oxidation

α-Bi2O3 powders were prepared from nanometer Bi powders through low-temperature oxidation at less than 873.15 K. XRD, SEM, TEM and HRTEM were used to characterize the structure and morphology of Bi powders and Bi2O3 particles. Kinetic studies on the bismuth oxidation at low-temperatures were carried out by TGA method. The results show that bismuth beads should be reunited and oxidized to become irregular Bi2O3 powders. The bismuth oxidation follows shrinking core model, and its controlling mechanism varies at different reaction time. Within 0-10 min, the kinetics is controlled by chemical reaction, after that it is controlled by O2 diffusion in the solid α-Bi2O3 layer. The apparent activation energy is determined as 55.19 kJ/mol in liquid-phase oxidation.

低温制备超细γ-Bi_2O_3粉末

In this paper, the electrochemical synthesis method was used to prepare γ-Bi2O3. Ultrafine Bi metal powder was first synthesized by electrochemical method at room temperature in a single cell .The anode comprised the sacrificial metal Bi; the cathode was Pt; the NaOH solution was used as the electrolyte. The ultrafine Bi metal powder had a special chemical reactivity. Then γ-Bi2O3 was prepared by the reaction of ultrafine Bi and NaOH solution. The effect of the concentration of NaOH solution, reaction temperature and additive were studied. The principle of the reaction was discussed. The component of the product was determined by atomic emission spectrometry and EDTA titration analysis. XRD, SEM ,TEM and DTA were employed for the characterization of the obtained products.

Y_2O_3-Bi_2O_3可见光催化降解甲基橙

采用固相合成法制备了Y2O3-Bi2O3复合可见光催化剂,用XRD、DRS对复合催化剂进行了表征。以甲基橙为模拟废水,在日光色镝灯光照下,研究了废水浓度、催化剂投加量、温度、pH等对Y2O3-Bi2O3光催化活性的影响。实验结果表明:在甲基橙质量浓度为20mg/L、Y2O3-Bi2O3催化剂投加质量浓度为8g/L、pH=1、光照时间为1h的条件下,甲基橙降解率最大,可达到84.30%,比不加入催化剂提高了83.9%。

α-Bi_2O_3/TiO_2纳米粒子的制备及其光催化性能的研究

采用两步水热法合成了α-Bi2O3/TiO_2纳米粒子,利用透射电子显微镜(TEM)、X-射线光电子能谱仪(XPS)、X射线衍射仪(XRD)和紫外-可见固体漫反射光谱(DRS)对其进行了表征,以罗丹明B(Rh B)为模型污染物评价了其光催化活性,结果表明:在模拟可见光源的照射下,α-Bi2O3/TiO_2比α-Bi2O3、TiO_2单体具有更好地光催化活性,当α-Bi_2O_3与TiO_2的摩尔比为1︰5时复合纳米粒子的光催化活性最佳,光照150 min降解率为98.5%.经过3次循环利用,α-Bi2O3/TiO_2纳米粒子具有较好的稳定性.