功能材料
功能材料
공능재료
JOURNAL OF FUNCTIONAL MATERIALS
2013年
23期
3435-3438
,共4页
安百钢%黄芬%李莉香%徐诗飞%耿新
安百鋼%黃芬%李莉香%徐詩飛%耿新
안백강%황분%리리향%서시비%경신
碳纳米管%混酸活化%氮掺杂%电催化%氧还原活性
碳納米管%混痠活化%氮摻雜%電催化%氧還原活性
탄납미관%혼산활화%담참잡%전최화%양환원활성
carbon nanotubes%mixed acid activation%nitrogen doping%electrocatalysis%activity of oxygen reduction
利用化学浸渍还原法,以原始和混酸活化碳纳米管及聚苯胺改性制备的氮掺杂炭层包覆碳纳米管为载体,制备上述碳纳米管负载铂催化剂,研究比较它们作为质子交换膜燃料电池催化剂的电催化性能.透射电镜观察表明,以混酸活化碳纳米管为载体一定程度改善了铂粒子在碳管上的沉积形态和分散性,沉积的铂粒子大小约5~8 nm,但铂粒子仍存在较明显的团聚现象;而因聚苯胺改性碳纳米管外层为均匀氮掺杂炭层,铂粒子能均匀分散沉积于氮掺杂层表面,其平均粒径约为2~4 nm.电化学分析表明,混酸活化和氮掺杂炭层包覆碳纳米管都能够改善负载催化剂的电催化活性,尤其氮掺杂炭层包覆碳纳米管负载铂催化剂不仅具有最高氧还原活性,其负载催化剂同时展现了良好的循环稳定性.
利用化學浸漬還原法,以原始和混痠活化碳納米管及聚苯胺改性製備的氮摻雜炭層包覆碳納米管為載體,製備上述碳納米管負載鉑催化劑,研究比較它們作為質子交換膜燃料電池催化劑的電催化性能.透射電鏡觀察錶明,以混痠活化碳納米管為載體一定程度改善瞭鉑粒子在碳管上的沉積形態和分散性,沉積的鉑粒子大小約5~8 nm,但鉑粒子仍存在較明顯的糰聚現象;而因聚苯胺改性碳納米管外層為均勻氮摻雜炭層,鉑粒子能均勻分散沉積于氮摻雜層錶麵,其平均粒徑約為2~4 nm.電化學分析錶明,混痠活化和氮摻雜炭層包覆碳納米管都能夠改善負載催化劑的電催化活性,尤其氮摻雜炭層包覆碳納米管負載鉑催化劑不僅具有最高氧還原活性,其負載催化劑同時展現瞭良好的循環穩定性.
이용화학침지환원법,이원시화혼산활화탄납미관급취분알개성제비적담참잡탄층포복탄납미관위재체,제비상술탄납미관부재박최화제,연구비교타문작위질자교환막연료전지최화제적전최화성능.투사전경관찰표명,이혼산활화탄납미관위재체일정정도개선료박입자재탄관상적침적형태화분산성,침적적박입자대소약5~8 nm,단박입자잉존재교명현적단취현상;이인취분알개성탄납미관외층위균균담참잡탄층,박입자능균균분산침적우담참잡층표면,기평균립경약위2~4 nm.전화학분석표명,혼산활화화담참잡탄층포복탄납미관도능구개선부재최화제적전최화활성,우기담참잡탄층포복탄납미관부재박최화제불부구유최고양환원활성,기부재최화제동시전현료량호적순배은정성.
Electrocatalysts of pristine carbon nanotubes (CNTs),activated CNTs from the mixed acid oxidation and nitrogen-doped carbon layer coated CNTs (NCNTs)from modification of polyaniline (PANI),loading with platinum,were prepared by using chemical reduction of immersion.The electrocatalytical performance of these platinum loaded CNTs as the catalysts of proton exchange membrane fuel cell (PEMFC)was studied.The TEM observation showed that the morphology and distribution of platinum particles onto the CNTs could be im-proved by using the activated CNTs as supports of catalyst.Particle size of platinum distributed on the activated CNTs was about 4-8 nm,but the obvious agglomeration could be observed.For the NCNTs from the modifica-tion of PANI,platinum particles with size of 2-4 nm were uniformly distributed on the NCNTs surface owing to the uniform nitrogen doped layer coated on the CNTs.Electrochemical analyses showed that both the activation and nitrogen doping on the CNTs could improve the activity of catalysts supported on CNTs,especially that platinum loaded NCNTs not only possess the best activity of oxygen reduction but also exhibited a good cycling stability.
