功能材料
功能材料
공능재료
JOURNAL OF FUNCTIONAL MATERIALS
2013年
19期
2854-2858,2863
,共6页
樊剑章%崔青霞%石伟%周佳盼%米红宇
樊劍章%崔青霞%石偉%週佳盼%米紅宇
번검장%최청하%석위%주가반%미홍우
原位沉淀-焙烧法%聚吡咯衍生的碳纳米管%复合材料%比电容
原位沉澱-焙燒法%聚吡咯衍生的碳納米管%複閤材料%比電容
원위침정-배소법%취필각연생적탄납미관%복합재료%비전용
in-situ precipitation-calcination method%PPy-derived carbon nanotube%composite materials%specific ca-pacitance
以聚吡咯衍生的碳纳米管作为载体,通过原位沉淀-焙烧相结合,合成了新型的氧化镍/聚吡咯衍生碳纳米管(NiO/P-CNT)复合材料。采用粉末 X 射线衍射、热重、能谱、扫描电镜、透射电镜、循环伏安以及恒流充放电测试对样品进行表征和分析。结果表明,须状NiO 均匀地负载在聚吡咯衍生的碳管表面,构成了具有三维网络结构的复合物。基于这种特殊结构的优势,该复合物在电流密度为2A/g 下的比电容为382F/g,NiO 在复合物中电容贡献为441F/g,而NiO 的比电容为351F/g。经过400圈充放电后,复合物的比电容保持在90%以上,而NiO 的容量保持率为82.6%。因此,该复合电极材料较 NiO 具有更高的比电容和更好的循环特性。
以聚吡咯衍生的碳納米管作為載體,通過原位沉澱-焙燒相結閤,閤成瞭新型的氧化鎳/聚吡咯衍生碳納米管(NiO/P-CNT)複閤材料。採用粉末 X 射線衍射、熱重、能譜、掃描電鏡、透射電鏡、循環伏安以及恆流充放電測試對樣品進行錶徵和分析。結果錶明,鬚狀NiO 均勻地負載在聚吡咯衍生的碳管錶麵,構成瞭具有三維網絡結構的複閤物。基于這種特殊結構的優勢,該複閤物在電流密度為2A/g 下的比電容為382F/g,NiO 在複閤物中電容貢獻為441F/g,而NiO 的比電容為351F/g。經過400圈充放電後,複閤物的比電容保持在90%以上,而NiO 的容量保持率為82.6%。因此,該複閤電極材料較 NiO 具有更高的比電容和更好的循環特性。
이취필각연생적탄납미관작위재체,통과원위침정-배소상결합,합성료신형적양화얼/취필각연생탄납미관(NiO/P-CNT)복합재료。채용분말 X 사선연사、열중、능보、소묘전경、투사전경、순배복안이급항류충방전측시대양품진행표정화분석。결과표명,수상NiO 균균지부재재취필각연생적탄관표면,구성료구유삼유망락결구적복합물。기우저충특수결구적우세,해복합물재전류밀도위2A/g 하적비전용위382F/g,NiO 재복합물중전용공헌위441F/g,이NiO 적비전용위351F/g。경과400권충방전후,복합물적비전용보지재90%이상,이NiO 적용량보지솔위82.6%。인차,해복합전겁재료교 NiO 구유경고적비전용화경호적순배특성。
New NiO/P-CNT composite was synthesized by in-situ precipitation-calcination method using PPy-de-rived carbon nanotubes as the support.The samples were characterized and analyzed by powder X-ray diffrac-tion (XRD),thermogravimetric analysis (TG),energy dispersive spectrum (EDS),scanning electron micros-copy (SEM),transmission electron microscopy (TEM),cyclic voltammetry and galvanostatic charge/dis-charge.The results indicated that whisker-like NiO was loaded uniformly on the PPy-derived carbon nanotube surfaces to generate a composite having three-dimensional network structure.Based on the advantages of this special structure,specific capacitances of the composite reached 382F/g at current densities of 2A/g.NiO ca-pacity contribution in the composite was 441F/g,whereas specific capacitance of NiO was 351F/g.A capacity retention of the composite was more than 90% after 400 charge/discharge cycles.which was 7.9% higher than that of pure NiO.Therefore,this composite had higher specific capacitance and better cycle performance than pure NiO.
