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1.
通过液相共沉淀法获得Zn和Co的前驱,经过600℃煅烧处理获得ZnCo2O4纳米颗粒组装的毛线团状的微球。电化学测试表明,在0.5 A·g-1的电流密度下循环200次可逆比容量保持为965 mAh·g-1;在0.8 A·g-1的电流密度下循环350次可逆比容量保持为882 mAh·g-1。倍率性能测试表明在2 A·g-1的电流密度时可逆比容量为736 mAh·g-1。  相似文献   

2.
为探索一种高性能的锂离子电池负极材料,采用酸刻蚀法制备了高导电性、高稳定性的二维层状Ti3C2Tx,通过溶剂热法制备了具有高理论比容量的花瓣状VS2纳米片,再经过简单的液相混合得到了二维层状Ti3C2Tx-MXene@VS2复合物。通过扫描电子显微镜、透射电子显微镜、X射线光电子能谱、X射线衍射和能谱分析对复合材料的形貌和结构进行了表征,采用循环伏安、恒流充放电、长循环和交流阻抗谱对复合材料的电化学性能进行了研究。结果表明:VS2纳米片均匀地分布在Ti3C2Tx的层间及表面,该复合物具有高的可逆容量(电流密度为0.1A·g-1时,比容量为610.5mAh·g-1)、良好的倍率性能(电流密度为2A·g-1时,比容量为197.1mAh·g-1)和良好的循环稳定性(电流密度为0.2 A·g-1时,循环600圈后比容量为874.9 mAh·g-1;电流密度为2 A·g-1时,循环1 500圈后比容量为115.9mAh·g-1)。  相似文献   

3.
王瑛  林宁 《无机化学学报》2016,32(12):2191-2197
通过液相共沉淀法获得Zn和Co的前驱,经过600℃煅烧处理获得ZnCo2O4纳米颗粒组装的毛线团状的微球。电化学测试表明,在0.5 A·g-1的电流密度下循环200次可逆比容量保持为965 mAh·g-1;在0.8 A·g-1的电流密度下循环350次可逆比容量保持为882 mAh·g-1。倍率性能测试表明在2 A·g-1的电流密度时可逆比容量为736 mAh·g-1。  相似文献   

4.
采用碳布(CC)为柔性基底,通过水热法制备了MnO2/CC及N掺杂MnO2/CC无黏结剂负极材料,借助X射线衍射(XRD)、扫描电镜(SEM)、X射线光电子能谱(XPS)、比表面积测试和恒电流充放电对材料进行了结构表征及电化学性能测试。结果表明N掺杂MnO2/CC具有良好的倍率性能和循环稳定性。在0.1 A·g-1的电流密度下,其首次充电比容量为948.8 mAh·g-1,经过不同倍率测试后电流密度恢复至0.1 A·g-1时仍然保持有907.9 mAh·g-1的可逆比容量,容量保持率为95.7%。在1 A·g-1的大电流密度下,其首次充电比容量为640.3 mAh·g-1,循环100次后仍然保持有529.9 mAh·g-1的可逆比容量,容量保持率为82.8%,可逆比容量远高于商用MnO2。  相似文献   

5.
以氯化钨和氧化石墨烯(GO)为原料,乙醇为溶剂,一步合成了WO3纳米棒/石墨烯纳米复合材料(WO3/RGO). 将WO3/RGO纳米复合材料用于锂离子电池负极,并通过充放电测试、循环伏安(CV)和电化学阻抗谱(EIS)技术综合考察了该材料的储锂性能. 结果显示,在0.1C (1C=638 mA·g-1)倍率下,复合物的首次放电比容量达到761.4 mAh·g-1,100次循环后可逆容量仍保持在635 mAh·g-1,保持率为83.4%. 即使在5C倍率下容量仍高达460 mAh·g-1. 由此说明,WO3/RGO纳米复合物具有优异的循环稳定性及倍率性能,可望用于高性能锂离子电池.  相似文献   

6.
以乙二胺四乙酸(EDTA)为配位剂,采用溶胶凝胶和溶剂热法相结合的方法合成了Li2MnSiO4/C纳米复合正极材料。经过EDTA配位的锂锰硅前驱体在氩气中经过700℃煅烧后,产生为颗粒尺寸约为50nm的Li2MnSiO4/C纳米复合粉体。在0.1C=33mA·g-1进行充放电测试时,其首次充电和放电比容量分别为223和140mAh·g-1,第5次循环放电比容量仍为138mAh·g-1;电流密度升至0.2C=66mA·g-1时,在第20次循环的放电比容量仍可稳定在80mAh·g-1左右。这些结果表明,EDTA的配位作用可抑制杂相的形成,这种分散性相对较好的纳米复合粉体Li2MnSiO4正极材料表现出提高的循环稳定性。  相似文献   

7.
通过溶胶-凝胶法制备了Li2FeSiO4@C/CNTs(LFS@C/CNTs)纳米复合材料,其中三嵌段共聚物P123用作结构导向剂和碳源,碳纳米管作为导电线提高材料的导电性。LFS@C/CNTs不仅具有海绵状纳米孔,能够与电解液充分接触改善锂离子的传输路径,同时由非晶碳和碳纳米管构成的三维桥联导电网络利于电子的快速传递,提高了材料大电流充放电能力和循环稳定性。复合后的LFS@C/CNTs的高倍率性能相比LFS@C明显提高, 当CNTs的掺量为4%,电压窗口为1.5~4.5 V,0.1C电流密度下放电比容量为182 mAh·g-1。在10C经70次循环后该材料的放电比容量能保持在117 mAh·g-1,是LFS@C放电比容量(55 mAh·g-1)的两倍。  相似文献   

8.
通过溶胶-凝胶法制备了Li2FeSiO4@C/CNTs(LFS@C/CNTs)纳米复合材料,其中三嵌段共聚物P123用作结构导向剂和碳源,碳纳米管作为导电线提高材料的导电性。LFS@C/CNTs不仅具有海绵状纳米孔,能够与电解液充分接触改善锂离子的传输路径,同时由非晶碳和碳纳米管构成的三维桥联导电网络利于电子的快速传递,提高了材料大电流充放电能力和循环稳定性。复合后的LFS@C/CNTs的高倍率性能相比LFS@C明显提高, 当CNTs的掺量为4%,电压窗口为1.5~4.5 V,0.1C电流密度下放电比容量为182 mAh·g-1。在10C经70次循环后该材料的放电比容量能保持在117 mAh·g-1,是LFS@C放电比容量(55 mAh·g-1)的两倍。  相似文献   

9.
采用水基流变相辅助的固相法,以异质碳蔗糖和石墨为碳源,合成了LiMn0.8Fe0.2PO4/C复合材料,研究了不同石墨加入方式对所制复合材料电化学性能的影响,并对所制备的LiMn0.8Fe0.2PO4/C复合材料进行了X射线衍射(XRD)、比表面积测试、扫描电子显微镜(SEM)、透射电子显微镜(TEM)等表征。结果表明,不同石墨包覆工艺对材料结构和电化学性能具有显著影响。前驱体煅烧后再加入石墨获得的样品纯度高,形貌呈均一的椭圆形,在0.1C下的放电比容量为149 mAh·g-1,达到其理论比容量的 87%;在 5C 下最大的放电比容量为 133 mAh·g-1;在 2C 倍率下经过 300 次循环后比容量维持在 127 mAh·g-1,衰减率仅为1.9%,表现出了优良的循环稳定性。  相似文献   

10.
以碳布(CC)作为柔性基底,采用水热法在其表面原位生长松针状网络结构NiCo2O4,制得NiCo2O4@CC复合材料,并应用于锂硫电池。NiCo2O4在碳纤维表面竖直生长形成三维纳米针簇网络,为硫的存储提供更多的空间,有效缓解硫电极的体积膨胀。通过吸附实验,证明了NiCo2O4@CC能有效吸附多硫化物,从而抑制多硫化物的穿梭效应。与CC/S相比(933 mAh·g-1),NiCo2O4@CC/S复合材料用于锂硫电池具有更优异的电池性能,在0.1C下初始放电比容量高达1 467 mAh·g-1,在0.2C下初始放电比容量为1 098 mAh·g-1,经200次循环后,放电比容量仍然保持在879 mAh·g-1,平均每圈衰减率为0.09%,表现出良好的循环性能。  相似文献   

11.
以水杨酸为模板剂和还原剂,采用水热法制备得到了一种MoO3纳米带/RGO复合材料。利用XRD、SEM、TEM、拉曼光谱、恒流充放电、交流阻抗等手段对样品的结构、形貌以及电化学性能进行表征。测试结果表明,MoO3纳米带/RGO复合材料作为锂离子电池负极材料,在50 m A·g-1的电流密度下可逆比容量为1 000 m Ah·g-1,循环50次后比容量还保持在950 m Ah·g-1,相比于MoO3纳米带其容量保持能力和循环性能得到了显著改善。  相似文献   

12.
采用简单的超声自组装法制备了石墨烯/三氧化钼纳米带复合材料。最终产物的组成和结构采用多种不同的手段进行了表征,包括扫描电镜、透射电镜、X射线衍射、拉曼光谱以及热分析等。该复合材料可以用作超级电容器电极材料。电化学实验结果表明石墨烯/三氧化钼纳米带复合材料比电容可达到285.5 F·g-1,且在电流密度为1 A·g-1时经过1 000次循环后其电容值能保持初始值的99.5%.  相似文献   

13.
采用简单的超声自组装法制备了石墨烯/三氧化钼纳米带复合材料。最终产物的组成和结构采用多种不同的手段进行了表征,包括扫描电镜、透射电镜、X射线衍射、拉曼光谱以及热分析等。该复合材料可以用作超级电容器电极材料。电化学实验结果表明石墨烯/三氧化钼纳米带复合材料比电容可达到285.5 F·g-1,且在电流密度为1 A·g-1时经过1 000次循环后其电容值能保持初始值的99.5%.  相似文献   

14.
Molybdenum trioxide (MoO3) has attracted considerable attention due to their typical two-dimensional layered structure consisting of double layers of edge- and vertex-sharing MoO6 octahedral being weakly held together by van der Waals bonds. These MoO3 nanostructures and their polymer composites are currently drawing interest for the potential applications of Li batteries, supercapacitors, and other electrochemical as well as electrochromic display devices. In this paper, we report the synthesis of MoO3 nanobelts and polyethylene glycol (PEG) surfactant MoO3 nanobelts by hydrothermal method. Structure and morphology of the samples were investigated by X-ray diffraction, Fourier transform spectroscopy, scanning electron microscopy, and transmission electron microscopy (TEM). The pure MoO3 nanobelts show an initial specific capacity of 275 mAh g−1, whereas the 0.5 mol% PEG surfactant MoO3 nanobelts show 307 mAh g−1 at constant current density of 30.7 mA g−1 with the 1.0–3.0 V vs. Li/Li+ potential range. It was found that PEG surfactant MoO3 nanobelts show not only a high initial specific capacity but also show better cyclic performance compared with that of pure MoO3 nanobelts. The PEG surfactant MoO3 nanobelts show stability and improvement of the specific capacity due to decreasing the length, width, and thickness of the nanobelts by surface reaction. Electrochemical impedance spectroscopy reveals that the PEG surfactant MoO3 nanobelts exhibit low electrode resistance compared with pure MoO3 nanobelts.  相似文献   

15.
The orthorhombic molybdenum trioxide (α-MoO3) nanobelts and polyvinyl pyrrolidone (PVP) surfactant MoO3 nanobelts with high quality were prepared through hydrothermal synthesis. The morphology and microstructure of the samples were investigated by X-ray diffraction (XRD), Fourier transform infrared spectroscopy (FTIR), Raman spectroscopy, field-emission scanning electron microscopy (FE-SEM) and transmission electron microscopy (TEM). The nanobelts with rectangular cross-section have an orthorhombic phase structure, preferentially grow in [001] direction. The results showed that the H atoms in polyvinyl pyrrolidone are H-bonded with the O atoms in the MoO bonds of MoO3 nanobelts. When MoO3 is modified by the intercalation of PVP, it is effectively shielded against electrostatic interaction between the MoO3 interlayer and Li+ ions. The specific capacity of pure MoO3 nanobelts battery and (PVP)0.2MoO3 nanobelts exhibit as 195 mAh g−1 and 237 mAh g−1, respectively after 14 cycles, suggests that the stability of surfactant material is worthy.  相似文献   

16.
Orthorhombic MoO3 and W-doped MoO3 nanobelts were successfully synthesized by a hydrothermal method. The effect of W dopant on the photocatalytic performance of W-doped MoO3 nanobelts was studied. The phase, morphology, and oxidation state of the products were characterized by X-ray diffraction analysis, Fourier-transform infrared and Raman spectroscopy, scanning electron microscopy, transmission electron microscopy, and X-ray photoelectron spectroscopy. In this research, MoO3 and W-doped MoO3 exhibited the same phase and morphology of orthorhombic nanobelts with growth along the [001] direction, including detection of Mo6+, O2?, and W6+ in the 3 mol% W-doped MoO3 sample. The photocatalytic performance of the as-synthesized MoO3 and W-doped MoO3 nanobelts was monitored through photodegradation of methylene blue (MB) under visible radiation. W-doped MoO3 nanobelts showed better photocatalytic performance than pure MoO3. The 3 mol% W-doped MoO3 photocatalyst exhibited very good visible-light-driven activity for photodegradation of MB, as high as 99 % within 60 min.  相似文献   

17.
采用氨蒸发诱导法成功制备出纳米结构LiNi1/3Co1/3Mn1/3O2正极材料,借助X射线衍射(XRD)分析、扫描电镜(SEM)、透射电镜(TEM)、高分辨率透射电镜(HRTEM)、能量分散谱(EDS)和比表面测试等表征手段及恒电流充放电测试研究了其晶体结构、微观形貌和电化学性能. 研究表明该方法制备出的材料具有良好的α-NaFeO2层状结构,阳离子混排程度低. 纳米片交错堆积而成核桃仁状形貌,片与片之间形成许多纳米孔,而且纳米片的侧面属于{010}活性面,能够提供较多的锂离子的脱嵌通道. 在室温下及3.0-4.6 V充放电范围内,该材料在电流密度为0.5C、1C、3C、5C和10C时放电比容量分别为172.90、153.95、147.09、142.16 和131.23mAh·g-1. 说明其具有优异的电化学性能,非常有潜力用于动力汽车等高功率密度锂离子电池中.  相似文献   

18.
Rare-earth ions (Eu3+, Tb3+) doped AMoO4 (A=Sr, Ba) particles with uniform morphologies were successfully prepared through a facile solvothermal process using ethylene glycol (EG) as protecting agent. X-ray diffraction (XRD), scanning electron microscopy (SEM), transmission electron microscopy (TEM), X-ray photoelectron spectra (XPS), Fourier transform infrared spectroscopy (FT-IR), photoluminescence (PL) spectra and the kinetic decays were performed to characterize these samples. The XRD results reveal that all the doped samples are of high purity and crystallinity and assigned to the tetragonal scheelite-type structure of the AMoO4 phase. It has been shown that the as-synthesized SrMoO4:Ln and BaMoO4:Ln samples show respective uniform peanut-like and oval morphologies with narrow size distribution. The possible growth process of the AMoO4:Ln has been investigated in detail. The EG/H2O volume ratio, reaction temperature and time have obvious effect on the morphologies and sizes of the as-synthesized products. Upon excitation by ultraviolet radiation, the AMoO4:Eu3+ phosphors show the characteristic 5D07F1–4 emission lines of Eu3+, while the AMoO4:Tb3+ phosphors exhibit the characteristic 5D47F3–6 emission lines of Tb3+. These phosphors exhibit potential applications in the fields of fluorescent lamps and light emitting diodes (LEDs).  相似文献   

19.
采用简单的两步水热法制备出了锆基金属有机骨架和钼酸铋的复合材料MOF-808/Bi2MoO6。通过X射线粉末衍射、傅里叶红外光谱、扫描电子显微镜、透射电子显微镜、X射线光电子能谱、紫外可见漫反射光谱、N2吸附-脱附测试和电化学测试对所制备材料的组成、微观结构、光学性质以及光生载流子的复合效率进行了分析。与纯Bi2MoO6和MOF-808相比,0.5%-MOF-808/Bi2MoO6复合材料展示出了较高的光催化活性,在可见光照射120 min时对抗生素环丙沙星(CIP)的降解率达89.7%。通过自由基捕获实验,证明了·O2-是主要活性物种,基于此我们提出了可能的光催化降解机理。  相似文献   

20.
采用简单的两步水热法制备出了锆基金属有机骨架和钼酸铋的复合材料MOF-808/Bi2MoO6。通过X射线粉末衍射、傅里叶红外光谱、扫描电子显微镜、透射电子显微镜、X射线光电子能谱、紫外可见漫反射光谱、N2吸附-脱附测试和电化学测试对所制备材料的组成、微观结构、光学性质以及光生载流子的复合效率进行了分析。与纯Bi2MoO6和MOF-808相比,0.5%-MOF-808/Bi2MoO6复合材料展示出了较高的光催化活性,在可见光照射120 min时对抗生素环丙沙星(CIP)的降解率达89.7%。通过自由基捕获实验,证明了·O2-是主要活性物种,基于此我们提出了可能的光催化降解机理。  相似文献   

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