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1.
采用水热法硼磷改性椰壳多孔炭,并对其电化学性能进行研究。通过X射线衍射、红外光谱以及氮气吸脱附表征改性前后多孔炭的结构和性能;将多孔炭制作电化学电容器负极,通过恒流充放电、循环伏安以及交流阻抗测试分析其电化学性能。结果表明,水热法硼磷改性使多孔炭的微观结构及组成发生了一定变化,比电容等电化学性能有明显的提高。渗硼剂为氧化硼,渗硼量为15(wt)%时,比电容达108 F/g,比原始样增长了92%;渗硼剂为硼酸,渗硼量为25(wt)%时,比电容达到98 F/g,比原始样增长了83%。  相似文献   

2.
研究了具有高比表面积稻壳基多孔炭(简称RHC)对人体内代谢产物肌酐(简称CR)的吸附, 将采用氢氧化钠活化稻壳制备的四种多孔炭和二种商业活性炭对肌酐的吸附进行了对比, 同时考察了盐酸、硝酸和双氧水对多孔炭进行表面处理及其经过高温处理(800 ℃)后对肌酐的吸附. 结果表明稻壳基多孔炭对肌酐的吸附超过商业炭,经过表面处理后多孔炭的吸附能力增强, 无氧化性盐酸处理后的多孔炭对肌酐的吸附量最大, 氧化性最强的硝酸处理后的多孔炭对肌酐的吸附量最小, 双氧水居中, 高温处理后的多孔炭吸附能力有所降低. 实验证实了多孔炭对CR的吸附符合Freundlich方程.  相似文献   

3.
用高温X射线衍射装置对以B4C为供硼剂、以Y2O3为催WC-20Co硬质合金渗硼表面进行了从室温到1300℃连续升温渗硼过程的XRD动态物相分析,探讨了稀土-硼共渗机制。结果表明,在真空烧结升温期间,从WC-Co压坯表面B4C分解出来的活性硼原子除在压坯表面上形成硼化物外,所形成的高浓度活性硼原子还向压坯内钴中扩散形成三元含硼相W2Co21B6化合物。同单独渗硼相比,钇在稀土-硼共渗过程中有拓宽渗硼温度范围、促进B4C脱碳分解和活性硼原子向压坯内扩散等催化渗硼作用。  相似文献   

4.
碳纤维的抗氧化处理   总被引:3,自引:1,他引:2  
用硼化合物对碳纤维进行抗氧化处理,提高了纤维的高温抗氧化性能。用热分析、电子显显微镜、表面电子能谱和X射线衍射等进行了研究,结果表明:碳纤维经过硼化合物处理后,氧化活化能提高123.4%,热氧化分解点提高268℃,高温使用寿命提高许多倍,但物理机械性能变化不大。  相似文献   

5.
本文研究了在900℃下采用稀土复合处理剂粉末包渗法对Ni_(80)Cr_(20)电热合金表面进行5h稀土-硅共渗后的抗氧化性能。结果表明,在约1050~1200℃范围内,与未渗样品相比,渗样的反应分数减小,氧化反应表观活化能增加,抗氧化性提高;扩散为反应过程的控制步骤。渗样抗氧化性提高的主要原因是,稀土元素首先渗入Ni_(80)Cr_(20)电热合金表面,并在氧化过程中使氧化膜结构得到改善。  相似文献   

6.
赵鑫  李伟  刘守新  李斌 《应用化学》2013,30(4):420-426
将苯酚和甲醛在碱性条件下聚合,然后在酸性条件下与软模板剂F127自组装形成中间相,经高温煅烧合成球形微-介双阶多孔炭。 通过扫描电子显微镜、透射电子显微镜、氮气吸附-脱附和热重分析技术对样品进行了形貌观察和性能测试。 结果表明,pH值、软模板剂用量和活化温度对样品形貌有调控作用。 当软模板剂F127的质量分数为20%、pH值为0.5和活化温度为700 ℃时,可制备出直径为100~200 nm的球形炭,球形粒子分散均匀,排列规整,呈明显蠕虫状排列的孔隙结构,比表面积为503 m2/g,孔容积0.416 cm3/g,介孔孔径集中分布在2.9 nm,微孔主要分布在1.3 nm。 随着活化温度升高,炭球的比表面积和孔容积增大,平均孔径减小。 F127的热解形成介孔结构,碳前驱体高温下的径向收缩形成微孔结构。  相似文献   

7.
以P123(EO20PO70EO20)为模板剂,NaBH_4为碱及硼源,采用液相法合成了硼掺杂的α-Ni(OH)_2纳米花.该纳米花平均尺寸在200~500nm之间,呈多孔状.研究结果表明,该B-α-Ni(OH)_2电极具有良好的电催化作用,活性高,稳定性好,在电极上对尿酸的氧化动力学过程为扩散控制过程.与Ni(OH)_2相比,其在碱性介质中电催化氧化尿素的电流密度提高了10倍以上.B-α-Ni(OH)_2纳米花在富含尿素的废水处理、制氢和燃料电池上具有潜在的应用前景.  相似文献   

8.
用浸渍法制备了不同钐含量的Ni-Sm_x/SiC催化剂,其中,镍的质量分数为9%,氧化钐的质量分数分别为0、2%、3%、4%、5%、7%。采用常压微型固定床反应器考察了不同催化剂在甲烷二氧化碳重整反应中的催化性能,并用BET、ICP、XRD、H2-TPR、TG-DTA、XPS和TEM等技术对反应前后催化剂进行表征。结果表明,加入钐后,重整反应中甲烷和二氧化碳转化率明显提高。当钐含量为5%时,Ni-Sm5/SiC表现出最好的活性和稳定性,而且反应后催化剂表面积炭量最少。其原因是钐的加入提高了活性组分与载体的相互作用,有效减少了表面积炭、提高了催化剂的稳定性。  相似文献   

9.
用稀酸水解半纤维素制得木糖母液,并通过正交实验得到最佳水解条件,即在130℃、稀酸质量分数2%、反应6 h的条件下,水解率可达到96.8%(以稻壳中的半纤维素为基准),去除杂质精制后木糖产率为62.8%.水解后的稻壳残渣用来制备稻壳基多孔炭和二氧化硅,其中多孔炭孔隙发达、孔径均一,可用来对木糖母液进行脱色处理,在脱色过程中对木糖的吸附损失小,达到精制木糖的目的.同时,在制备稻壳基多孔炭的过程中可同步制取高纯度二氧化硅.  相似文献   

10.
石油焦系活性炭的吸附脱硫   总被引:2,自引:3,他引:2  
选取独山子石油焦为原料,以物理活化法制得比表面积达500m2/g~900m2/g的活性炭,进行吸附脱硫研究。采用酸氧化法对活性炭孔结构和微观孔径分布进行改性。酸氧化使活性炭表面酸性官能团含量明显增加,增加量约为原来的5倍。活性炭吸附脱硫性能随表面酸性官能团含量的增加而增大。理想的酸化条件是浓硝酸120℃氧化40min。通过静态吸附实验,活性炭吸附脱硫的最佳条件是,温度25℃,压力1.0MPa,静态吸附6h。最佳条件下吸附脱硫可使模型化合物硫的质量分数从137.9×10-6降至3.1×10-6。从活性炭孔径匹配考察可知,平均孔直径在0.8nm~2.1nm的活性炭对模型化合物硫的质量分数降低具有明显效果。  相似文献   

11.
Nitrogen doped clews-like hierarchical porous carbon materials, fabricated by means of a one-pot hydrothermal reaction and post treatment, exhibit superior supercapacitive performances.  相似文献   

12.
植物基多孔炭具有发达的孔结构、大的表面积、较为成熟的制备工艺、丰富的来源、低廉的价格,是目前商业应用范围最广的超级电容器电极材料。然而在实际应用中仍然存在着质量/体积比容量较低、倍率性能差等问题。本文针对先进电容器件的高能量密度、优异功率性能的要求,首先介绍了近年来发展的植物基多孔炭的制备方法,讨论了植物前驱体的组成和结构对其产物结构的影响以及与其电化学性能之间的构效关系,特别总结了近年来植物基超大比表面积多孔炭、中孔炭、层次化多孔炭的制备方法和电容储能性能。针对大比表面积多孔炭用于超级电容器时的体积性能不佳这一关键问题,本文还总结了提高植物基多孔炭体积电化学性能的方法。最后,对植物基多孔电极材料存在的问题进行了分析与总结,并展望了其研究前景。  相似文献   

13.
制备了一系列硼掺杂的还原氧化态石墨烯催化剂并应用于蒽加氢反应。结果表明,随着催化剂处理温度的升高,催化剂中有序碳结构会发生变化,硼会取代材料骨架中的碳,进而影响蒽和氢气的吸附活化。经硼改性后,催化剂对蒽加氢反应表现出了很高的加氢活性,蒽的最高转化率可达97%,深度加氢产物八氢蒽的最高选择性可达19%。  相似文献   

14.
以生物质百香果皮为碳源,KHCO3为活化剂,采用同步活化碳化方法制备原位氮掺杂的分级多孔碳材料,将其与单质硫复合制得多孔碳/硫正极材料。通过X射线衍射(XRD)、X射线光电子能谱(XPS)、扫描电子显微镜(SEM)、透射电子显微镜(TEM)等表征技术对制备材料的物相组成、微观形貌、比表面积及孔结构进行研究分析。同时,利用紫外可见吸收光谱研究了多孔碳对多硫化物的吸附作用,用恒电流充放电测试了不同硫含量(60%~80%)的多孔碳/硫复合正极材料的电化学性能。结果表明,制得的多孔碳材料为无定型,具有1 093 m2·g-1的高比表面积和0.63 cm3·g-1的孔容;丰富的多孔结构和原位氮掺杂对多硫化物的物理化学协同吸附作用,有效降低了锂硫电池的“穿梭效应”,提高了电池的放电比容量和循环性能。硫含量为60%的多孔碳/硫复合材料,在0.05C和0.2C倍率下可释放1 057.7和763.4 mAh·g-1的高初始放电比容量,在1C的高倍率下循环300次后的保持率为75%。  相似文献   

15.
It is highly desirable to design advanced heteroatomic doped porous carbon for wide application. Herein, N-doped porous carbon (NPC) was developed via the fabrication of high nitrogen cross-linked triazine polymers followed by pyrolysis and activation with controllable porous structure. The as-synthesized NPC at the pyrolysis temperature of 700 °C possessed rich nitrogen content (up to 11.51 %) and high specific surface area (1353 m2 g−1), which led to a high CO2 adsorption capability at 5.67 mmol g−1 at 298.15 K and 5 bar pressure and excellent stability. When the activation temperature was at 600 °C, such NPC exhibited a superior electrochemical performance as anode for supercapacitors with a specific capacitance of 158.8 and 113 F g−1 in 6 M KOH at a current density of 1 and 10 A g−1, respectively. Notably, it delivered an excellent stability with capacity retention of 97.4 % at 20 A g−1after 6000 cycles.  相似文献   

16.
The issue of the heterogeneity of boron doping in microcrystalline diamond films was addressed by four different methods: micro-Raman spectroscopy and Raman imaging, Kelvin probe force microscopy, conducting atomic force microscopy, and scanning electrochemical microscopy. The samples were commercially available films from Windsor Scientific, with an average boron concentration of about 5 x 10(20) cm(-3). In agreement with previous works, all of the methods showed that the boron uptake was nonuniform across the surface of the electrode. Two different types of regions were evidenced, with metallic or semiconducting properties that were characterized with different types of Raman spectra. The line shape of these spectra was strongly dependent on the excitation wavelength. Local variations in electroactivity were evidenced by the SECM curves, which are related to the electronic properties of the individual grains, which, in turn, are governed by the boron content of the individual crystallites. In this study, two different micro-Raman imaging techniques were used that reveal the grain structure of the films: the images constructed from the diamond line intensity perfectly reproduced the optical image obtained by illuminating the sample in reflection. The method also allows detection of the presence of nondiamond carbon, especially in the metallic parts of the samples. Other spectral features (intensity of the boron-related broad lines, as well as the frequency and width of the diamond line) were used to construct images. In every case, the grain structure of the film was revealed, as well as twinning within individual crystallites. All approaches revealed that no enhanced doping or boron depletion occurred at the grain boundaries.  相似文献   

17.
以煤液化沥青质为碳源、硝酸为氮源、硼酸为硼源和造孔剂制备硼氮共掺杂多孔炭,研究了热处理温度对其孔结构和表面性质的影响,测试了产品作为超级电容器电极材料的性能.用X射线衍射(XRD)、拉曼光谱、扫描电镜(SEM)、透射电镜(TEM)、N2吸附、元素分析、电感耦合等离子体发射光谱(ICP-AES)、X射线光电子能谱(XPS)、电化学工作站等对材料的结构、组成及电化学性能进行了表征.结果表明:随着热处理温度的升高,产品的石墨化程度逐渐升高;比表面积、总孔容呈先增加后减小的趋势;氮含量随着热处理温度的升高逐渐降低,而硼含量则随着热处理温度的升高逐渐增加;材料的比电容随着热处理温度的升高先逐渐增加后减小.其中900°C热处理的样品比表面积达到1103 m2·g-1,总孔容为0.921 cm3·g-1,氮含量为5.256%(w),硼含量为1.703%(w),在6 mol·L-1KOH电解液中当电流密度为100 mA·g-1时质量比电容为349 F·g-1;而经过1000°C热处理的样品表现出最好的倍率特性,电流密度从100 mA·g-1增加到10A·g-1时比电容保持率为75%.  相似文献   

18.
Controlled-porosity glasses (CPGs) are often applied as sorbents in chromatography. Besides having high thermal, chemical and mechanical resistance they are characterized by a very narrow pore-size distribution and the choice of mean pore diameter and porosity covers a wide range. In spite of these advantages, their range of use in chromatography is restricted because of their strong adsorption properties, which are connected with the presence of residual boron atoms in the porous CPG skeleton. The boron concentration on the CPG surface can be increased by proper thermal treatment. When CPGs are heated in the range 400-800 degrees the residual boron atoms in the network diffuse from the bulk to the surface. The paper discusses the boron content in porous glasses of different mean pore diameters and the determination of the enrichment of boron on the GPG surface, by three independent methods: colorimetry, spectrography and isotachophoresis.  相似文献   

19.
The composition and structure of boron carbonitride (BCN) films were studied. The films were continuously deposited on fibres by atmospheric pressure CVD. The precursors were ammonia, trimethyl borate and toluene. The composition was determined by photoelectron spectra of boron 1s, nitrogen 1s, carbon 1s and oxygen 1s. By fixing the C 1s peak at 285 eV, the position of the B 1s peak and the N 1s peak in the BCN films was equal to BN films. The C content of the films increases from about 6 at% to 60 at%, leaving the stoichiometric boron/nitrogen ratio as well as the oxygen content below 10 at% unchanged. Generally, the carbon content in the films is lower than predicted by the precursor ratios. Obviously, the insertion of carbon into the film is decreased in the presence of ammonia, which is known to etch carbon. With a decreasing ammonia/toluene ratio, the undesired effect in the reaction is suppressed and the carbon deposition becomes considerable. Transmission electron microscopic studies were performed on cross-sections of the coated fibres. High-resolution images generally show a hexagonal turbostratic structure with different orientation preferences of the atomic lamellae similar to hexagonal turbostratic boron nitride and pyrolytic carbon. When a noticeable carbon concentration (20 at%) is reached, the atomic sheets become uniformly distributed in all directions in space.  相似文献   

20.
以聚丙烯腈(PAN)和三聚氰胺为原料,通过静电纺丝法制备了三聚氰胺改性聚丙烯腈纳米纤维前驱体,经预氧化、碳化后得到交联的多孔纳米碳纤维.采用红外光谱(FTIR)仪、热重分析(TGA)仪、扫描电子显微镜(SEM)、X射线衍射(XRD)仪、拉曼光谱仪和比表面积分析仪等对前驱体及纤维进行了表征.结果表明,经过三聚氰胺改性的聚丙烯腈纳米纤维前驱体在碳化后有效地交联,形成含有微孔、介孔和大孔多级的合理孔道结构,氮掺杂量高达14.3%,纤维直径大幅缩减,平均直径仅约89 nm.电化学测试结果表明,交联多孔纳米碳纤维电极在0.05 A·g-1电流密度下未经活化时的质量比电容值高达194 F·g-1(0.05 A·g-1),在2 A·g-1的电流密度下经过1000次循环充放电后的比电容仍然保持99.2%,表现出优异的电化学特性.  相似文献   

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