CN106958053A - 一种多孔石油焦基碳纤维的制备方法 - Google Patents
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Abstract
本发明属于纳米碳材料技术领域,具体涉及一种多孔石油焦基碳纤维的制备方法。包括以下步骤:(1)将以石油焦为原料制备的双亲性碳质材料和聚丙烯腈溶于N,N‑二甲基甲酰胺中,搅拌得到均匀的纺丝溶液;(2)将步骤(1)中所得的纺丝溶液,通过静电纺丝技术,制备静电纺丝纤维薄膜;(3)将步骤(2)中所得的静电纺丝纤维薄膜先后经过预氧化、碳化过程,得到石油焦基碳纤维;(4)将步骤(3)中所得的石油焦基碳纤维经过活化过程,制备得到多孔石油焦基碳纤维。本发明采用廉价的炼化工业副产品石油焦作为碳源,制备得到多孔石油焦基碳纤维,该多孔石油焦基碳纤维可用作超级电容器的电极材料,表现出优良的电容性能,避免了粘结剂的使用。
Description
技术领域
本发明属于纳米碳材料技术领域,具体涉及一种多孔石油焦基碳纤维的制备方法。
背景技术
石油焦是一种炼化工业副产品,随着石油的重质化和劣质化,石油焦的产量逐年上升,石油焦的增值利用成为急需解决的难题。石油焦资源非常丰富,价格也比较低廉,具有很好的市场竞争优势;同时石油焦的含碳量在85%以上,含有大量石墨微晶结构,被认为是优良的制备碳材料的前驱体。因此,以石油焦为原料生产碳纤维,不仅可以大幅度地提高石油焦的附加值,也可以拓宽制备碳纤维的原料,对于碳纤维工业的发展和技术进步,具有重大的经济和社会效益。
1959年,日本人近藤昭男首先发明了用聚丙烯腈纤维制备碳纤维,奠定了聚丙烯腈基碳纤维合成的基本路线。随后经过科研人员的不断研究,1965年,日本人大谷衫郎发明了沥青基碳纤维。但是与沥青相似的石油焦却没有被作为制备碳纤维的原料,其原因在于石油焦含有大量的稠环芳烃,结构致密,一般不溶于任何的溶剂,限制了其用来制备先进碳材料。
研究表明,石油焦经过浓硫酸和浓硝酸氧化后,可以转变为双亲性碳质材料,且双亲性碳质材料能溶于部分有机溶剂,例如N,N-二甲基甲酰胺等。结合静电纺丝技术对双亲性碳质材料进行加工,制备得到石油焦基碳纤维,再经过活化处理,可以得到多孔石油焦基碳纤维。商用超级电容器的电极材料仍然以多孔碳材料为主,本发明制备的多孔石油焦基碳纤维可以用作超级电容器的电极材料,且不用使用粘结剂。
发明内容
为解决现有技术中存在的上述问题,本发明提供一种多孔石油焦基碳纤维的制备方法。
本发明采用的技术方案如下:
一种多孔石油焦基碳纤维的制备方法,包括以下步骤:
(1)将以石油焦为原料制备的双亲性碳质材料和聚丙烯腈溶于N,N-二甲基甲酰胺中,搅拌得到均匀的纺丝溶液;
(2)将步骤(1)中所得的纺丝溶液,通过静电纺丝技术,制备静电纺丝纤维薄膜;
(3)将步骤(2)中所得的静电纺丝纤维薄膜先后经过预氧化、碳化过程,得到石油焦基碳纤维;
(4)将步骤(3)中所得的石油焦基碳纤维经过活化过程,制备得到多孔石油焦基碳纤维。
进一步地,步骤(1)中所述的双亲性碳质材料与聚丙烯腈的质量比为1:1~2:1,双亲性碳质材料和聚丙烯腈的总质量分数为10%~20%。
进一步地,步骤(1)中所述的搅拌环境是:湿度1%~20%,温度25~50℃。
进一步地,步骤(2)中所述的静电纺丝技术的条件是:静电压为15~25KV,纺丝溶液的推进速度为1~3mL/h,接受距离为9~18cm,接受器的转速为50~100r/min,环境温度为30~40℃。
进一步地,步骤(3)中所述的预氧化过程的升温速率为1~5℃/min,目标温度为250~300℃,保持时间为1~3h,保护气氛为空气。
进一步地,步骤(3)中所述的碳化过程的升温速率为1~5℃/min,目标温度为600~1000℃,保持时间为1~3h,保护气氛为氮气或氩气。
进一步地,步骤(4)中所述的活化过程的活化剂为二氧化碳、水蒸气、空气或氧气,升温速率为1~5℃/min,目标温度为600~900℃,保持时间为0.5~3h,保护气氛为氮气或氩气。
与现有技术相比,本发明具有如下优异技术效果:
本发明采用廉价的炼化工业副产品石油焦作为碳源,采用静电纺丝技术,制备得到多孔石油焦基碳纤维,实现了石油焦的高附加值利用,拓宽了碳纤维的原料来源,为高性能碳纤维的制备提供了基础;该多孔石油焦基碳纤维可用作超级电容器的电极材料,表现出优良的电容性能,且避免了粘结剂的使用。
附图说明
图1为实施例3所得的多孔石油焦基碳纤维的扫描电镜图一;
图2为实施例3所得的多孔石油焦基碳纤维的扫描电镜图二;
图3为实施例3所得的多孔石油焦基碳纤维作为电极材料的循环伏安曲线;
图4为实施例3所得的多孔石油焦基碳纤维作为电极材料的比电容-电流密度变化曲线。
具体实施方式
以下结合实施例对本发明做进一步解释:
实施例1
(1)在温度为30℃、湿度为20%时,配置双亲性碳质材料和聚丙烯腈的总质量分数为10%的N,N-二甲基甲酰胺溶液,其中双亲性碳质材料与聚丙烯腈的质量比为3:2,并搅拌均匀。
(2)将步骤(1)所得的均匀的纺丝溶液,通过静电纺丝技术,制备静电纺丝纤维薄膜,静电纺丝的条件是:静电压为20KV,纺丝溶液的推进速度为2mL/h,接收距离为15cm,接收器的转速为80r/min,环境温度为40℃。
(3)将步骤(2)所得的静电纺丝纤维薄膜放入马弗炉中,在空气气氛下以3℃/min的升温速率升温至280℃,保持1h,然后在空气气氛下降至室温。
(4)将步骤(3)所得的预氧化后的薄膜放入管式炉中,在氮气气氛下以2℃/min的升温速率升温至800℃,保持2h,然后在氮气气氛下降至室温,即得石油焦基碳纤维。
(5)将步骤(4)所得的石油焦基碳纤维放入管式炉中,在氮气气氛下以2℃/min的升温速率升温至800℃,然后将气氛变为二氧化碳,在800℃,稳定1h,最后将气氛变为氮气降温至室温,所得的黑色固体,即为多孔石油焦基碳纤维,其BET比表面积为633m2/g。
(6)将步骤(5)所得的多孔石油焦基碳纤维用作超级电容器的电极材料,进行电化学测试,测试表明该碳纤维材料具有良好的电化学性能,在电流密度为0.3A/g时,其比电容值为167.1F/g。
实施例2
(1)在温度为40℃、湿度为15%时,配置双亲性碳质材料和聚丙烯腈的总质量分数为20%的N,N-二甲基甲酰胺溶液,其中双亲性碳质材料与聚丙烯腈的质量比为2:1,并搅拌均匀。
(2)将步骤(1)所得的均匀的纺丝溶液,通过静电纺丝技术,制备静电纺丝纤维薄膜,静电纺丝的条件是:静电压为20KV,纺丝溶液的推进速度为1mL/h,接收距离为15cm,接收器的转速为100r/min,环境温度为40℃。
(3)将步骤(2)所得的静电纺丝纤维薄膜放入马弗炉中,在空气气氛下以5℃/min的升温速率升温至260℃,保持1h,然后在空气气氛下降至室温。
(4)将步骤(3)所得的预氧化后的薄膜放入管式炉中,在氮气气氛下以5℃/min的升温速率升温至900℃,保持1.5h,然后在氮气气氛下降至室温,即得石油焦基碳纤维。
(5)将步骤(4)所得的石油焦基碳纤维放入管式炉中,在氮气气氛下以3℃/min的升温速率升温至600℃,然后将气氛变为空气,在600℃,稳定0.5h,最后将气氛变为氮气降温至室温,所得的黑色固体,即为多孔石油焦基碳纤维,其BET比表面积为497.3m2/g。
(6)将步骤(5)所得的多孔石油焦基碳纤维用作超级电容器的电极材料,进行电化学测试,测试表明该碳纤维材料具有良好的电化学性能,在电流密度为0.3A/g时,其比电容值为154.8F/g。
实施例3
(1)在温度为30℃、湿度为15%时,配置双亲性碳质材料和聚丙烯腈的总质量分数为20%的N,N-二甲基甲酰胺溶液,其中双亲性碳质材料与聚丙烯腈的质量比为1:1,并搅拌均匀。
(2)将步骤(1)所得的均匀的纺丝溶液,通过静电纺丝技术,制备静电纺丝纤维薄膜,静电纺丝的条件是:静电压为18KV,纺丝溶液的推进速度为1mL/h,接收距离为15cm,接收器的转速为100r/min,环境温度为35℃。
(3)将步骤(2)所得的静电纺丝纤维薄膜放入马弗炉中,在空气气氛下以5℃/min的升温速率升温至280℃,保持1h,然后在空气气氛下降至室温。
(4)将步骤(3)所得的预氧化后的薄膜放入管式炉中,在氮气气氛下以5℃/min的升温速率升温至800℃,保持3h,然后在氮气气氛下降至室温,即得石油焦基碳纤维。
(5)将步骤(4)所得的石油焦基碳纤维放入管式炉中,在氮气气氛下以3℃/min的升温速率升温至850℃,然后将气氛变为二氧化碳,在850℃,稳定1h,最后将气氛变为氮气降温至室温,所得的黑色固体,即为多孔石油焦基碳纤维,其BET比表面积为687.2m2/g。
(6)将步骤(5)所得的多孔石油焦基碳纤维用作超级电容器的电极材料,进行电化学测试,测试表明该碳纤维材料具有良好的电化学性能,在电流密度为0.3A/g时,其比电容值为170.5F/g。
实施例4
(1)在温度为25℃、湿度为20%时,配置双亲性碳质材料和聚丙烯腈的总质量分数为20%的N,N-二甲基甲酰胺溶液,其中双亲性碳质材料与聚丙烯腈的质量比为3:2,并搅拌均匀。
(2)将步骤(1)所得的均匀的纺丝溶液,通过静电纺丝技术,制备静电纺丝纤维薄膜,静电纺丝的条件是:静电压为18KV,纺丝溶液的推进速度为2mL/h,接收距离为12cm,接收器的转速为90r/min,环境温度为40℃。
(3)将步骤(2)所得的静电纺丝纤维薄膜放入马弗炉中,在空气气氛下以2℃/min的升温速率升温至300℃,保持1h。
(4)将步骤(3)所得的预氧化后的薄膜放入管式炉中,在氩气气氛下以3℃/min的升温速率升温至850℃,保持1.5h,即得石油焦基碳纤维。
(5)将步骤(4)所得的石油焦基碳纤维放入管式炉中,在氩气气氛下以5℃/min的升温速率升温至900℃,然后将气氛变为水蒸气,在900℃,稳定1h,最后将气氛变为氩气降温至室温,所得的黑色固体,即为多孔石油焦基碳纤维,其BET比表面积为503.8m2/g。
(6)将步骤(5)所得的多孔石油焦基碳纤维用作超级电容器的电极材料,进行电化学测试,测试表明该碳纤维材料具有良好的电化学性能,在电流密度为0.3A/g时,其比电容值为157.3F/g。
Claims (7)
1.一种多孔石油焦基碳纤维的制备方法,其特征在于,包括以下步骤:
(1)将以石油焦为原料制备的双亲性碳质材料和聚丙烯腈溶于N,N-二甲基甲酰胺中,搅拌得到均匀的纺丝溶液;
(2)将步骤(1)中所得的纺丝溶液,通过静电纺丝技术,制备静电纺丝纤维薄膜;
(3)将步骤(2)中所得的静电纺丝纤维薄膜先后经过预氧化、碳化过程,得到石油焦基碳纤维;
(4)将步骤(3)中所得的石油焦基碳纤维经过活化过程,制备得到多孔石油焦基碳纤维。
2.根据权利要求1所述的多孔石油焦基碳纤维的制备方法,其特征在于:步骤(1)中所述的双亲性碳质材料与聚丙烯腈的质量比为1:1~2:1,双亲性碳质材料和聚丙烯腈的总质量分数为10%~20%。
3.根据权利要求1所述的多孔石油焦基碳纤维的制备方法,其特征在于:步骤(1)中所述的搅拌环境是:湿度1%~20%,温度25~50℃。
4.根据权利要求1所述的多孔石油焦基碳纤维的制备方法,其特征在于:步骤(2)中所述的静电纺丝技术的条件是:静电压为15~25KV,纺丝溶液的推进速度为1~3mL/h,接受距离为9~18cm,接受器的转速为50~100r/min,环境温度为30~40℃。
5.根据权利要求1所述的多孔石油焦基碳纤维的制备方法,其特征在于:步骤(3)中所述的预氧化过程的升温速率为1~5℃/min,目标温度为250~300℃,保持时间为1~3h,保护气氛为空气。
6.根据权利要求1所述的多孔石油焦基碳纤维的制备方法,其特征在于:步骤(3)中所述的碳化过程的升温速率为1~5℃/min,目标温度为600~1000℃,保持时间为1~3h,保护气氛为氮气或氩气。
7.根据权利要求1所述的多孔石油焦基碳纤维的制备方法,其特征在于:步骤(4)中所述的活化过程的活化剂为二氧化碳、水蒸气、空气或氧气,升温速率为1~5℃/min,目标温度为600~900℃,保持时间为0.5~3h,保护气氛为氮气或氩气。
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