新型炭材料
新型炭材料
신형탄재료
NEW CARBON MATERIALS
2015年
3期
222-229
,共8页
王富成%赵雷%方伟%何漩%梁峰%陈辉%陈欢%杜星
王富成%趙雷%方偉%何漩%樑峰%陳輝%陳歡%杜星
왕부성%조뢰%방위%하선%량봉%진휘%진환%두성
SiC纳米线%生长机理%微观结构%原位熔盐
SiC納米線%生長機理%微觀結構%原位鎔鹽
SiC납미선%생장궤리%미관결구%원위용염
SiC nanowires%Growth mechanism%Microstructure%In-situ moltensalt
不加金属催化剂,以碱木素酚醛树脂( LPF)和硅粉作为原料在低温条件下合成SiC纳米线。利用SEM、TEM、XRD表征样品的形貌及显微结构,用热力学方法分析反应条件对SiC纳米线生长的影响。结果表明,SiC纳米线在1100℃左右开始生长,其由气-液-固生长机理控制,同时其生成温度比用商业酚醛树脂作为原料低。生成的SiC纳米线的直径为30~100 nm并沿晶面的[111]方向生长。碱木素酚醛树脂中的无机盐在热解炭化过程中原位形成熔盐并起着液相催化剂球滴的作用,促进SiC纳米线的生长,并提出合成SiC纳米线的生长机理模型。
不加金屬催化劑,以堿木素酚醛樹脂( LPF)和硅粉作為原料在低溫條件下閤成SiC納米線。利用SEM、TEM、XRD錶徵樣品的形貌及顯微結構,用熱力學方法分析反應條件對SiC納米線生長的影響。結果錶明,SiC納米線在1100℃左右開始生長,其由氣-液-固生長機理控製,同時其生成溫度比用商業酚醛樹脂作為原料低。生成的SiC納米線的直徑為30~100 nm併沿晶麵的[111]方嚮生長。堿木素酚醛樹脂中的無機鹽在熱解炭化過程中原位形成鎔鹽併起著液相催化劑毬滴的作用,促進SiC納米線的生長,併提齣閤成SiC納米線的生長機理模型。
불가금속최화제,이감목소분철수지( LPF)화규분작위원료재저온조건하합성SiC납미선。이용SEM、TEM、XRD표정양품적형모급현미결구,용열역학방법분석반응조건대SiC납미선생장적영향。결과표명,SiC납미선재1100℃좌우개시생장,기유기-액-고생장궤리공제,동시기생성온도비용상업분철수지작위원료저。생성적SiC납미선적직경위30~100 nm병연정면적[111]방향생장。감목소분철수지중적무궤염재열해탄화과정중원위형성용염병기착액상최화제구적적작용,촉진SiC납미선적생장,병제출합성SiC납미선적생장궤리모형。
Silicon carbide ( SiC) nanowires were synthesized using lignin-phenolic resin ( LPR) and silicon powder as raw materi-als. The morphology and structures of the nanowires were characterized by scanning electron microscopy, transmission electron mi-croscopy and X-ray diffraction. The influence of reaction conditions on the growth of the nanowires was investigated by thermody-namic analysis. It was revealed that the growth of the nanowires starts at around 1 100℃ by a vapor-liquid-solid ( VLS) mechanism and the growth temperature is lower than that for the formation of SiC nanowires from commercial phenolic resin and silicon powder. The nanowires have diameters of 30-100 nm and lengths of several microns. It was revealed that the inorganic salts are formed in-si-tu from LPR in the lignin segment as liquid catalyst droplets during pyrolysis. These dissolve SiC and become supersaturated, from which SiC nanowires grow along the [1 1 1] direction by the stacking of (1 1 1) planes.