广州化工
廣州化工
엄주화공
Guangzhou Chemical Industry
2015年
17期
1-3,21
,共4页
高莹丽%王瑞娟%刘空%武晓东
高瑩麗%王瑞娟%劉空%武曉東
고형려%왕서연%류공%무효동
原位追踪核磁共振技术%棒状胶束%吩嗪结构寡聚物%π-π重叠作用%聚苯胺纳米棒
原位追蹤覈磁共振技術%棒狀膠束%吩嗪結構寡聚物%π-π重疊作用%聚苯胺納米棒
원위추종핵자공진기술%봉상효속%분진결구과취물%π-π중첩작용%취분알납미봉
in situ 1 H NMR measurements%rod-like micelles%phenazine-like oligomers%π-π stacking interactions%PANI nanorods
利用核磁共振技术原位追踪了在酸性条件下以NaVO3为氧化剂氧化苯胺制备聚苯胺纳米棒的形成过程。通过分析反应中各主要物种共振吸收峰的信号演变规律及彼此在时域上的关联性,得出聚苯胺纳米棒的成核过程经历了两个主要阶段:诱导期和晶种聚集期。相较其它一维纳米材料(纳米纤维和纳米管),聚苯胺纳米棒的成核过程具有如下特点:①非常长的诱导期;②由单体组成的胶束在成核前后结构保持不变;③反应初期只生成具有吩嗪结构的寡聚物。较长的诱导期有助于反应前苯胺单体排列成棒状胶束,吩嗪寡聚物中高度共轭的芳环使之容易在反应前期与胶束中的苯胺相互作用,并且最终在棒状胶束的诱导下紧密排列成一维纳米棒。
利用覈磁共振技術原位追蹤瞭在痠性條件下以NaVO3為氧化劑氧化苯胺製備聚苯胺納米棒的形成過程。通過分析反應中各主要物種共振吸收峰的信號縯變規律及彼此在時域上的關聯性,得齣聚苯胺納米棒的成覈過程經歷瞭兩箇主要階段:誘導期和晶種聚集期。相較其它一維納米材料(納米纖維和納米管),聚苯胺納米棒的成覈過程具有如下特點:①非常長的誘導期;②由單體組成的膠束在成覈前後結構保持不變;③反應初期隻生成具有吩嗪結構的寡聚物。較長的誘導期有助于反應前苯胺單體排列成棒狀膠束,吩嗪寡聚物中高度共軛的芳環使之容易在反應前期與膠束中的苯胺相互作用,併且最終在棒狀膠束的誘導下緊密排列成一維納米棒。
이용핵자공진기술원위추종료재산성조건하이NaVO3위양화제양화분알제비취분알납미봉적형성과정。통과분석반응중각주요물충공진흡수봉적신호연변규률급피차재시역상적관련성,득출취분알납미봉적성핵과정경력료량개주요계단:유도기화정충취집기。상교기타일유납미재료(납미섬유화납미관),취분알납미봉적성핵과정구유여하특점:①비상장적유도기;②유단체조성적효속재성핵전후결구보지불변;③반응초기지생성구유분진결구적과취물。교장적유도기유조우반응전분알단체배렬성봉상효속,분진과취물중고도공액적방배사지용역재반응전기여효속중적분알상호작용,병차최종재봉상효속적유도하긴밀배렬성일유납미봉。
A study on the nucleation mechanism of polyaniline nanorods ( PANI NRs) via an oxidative polymerization of aniline by NaVO3 under acidic condition was explored by in situ 1 H NMR spectroscopy. Based on the signal evolution of the oligomers and the monomer, the formation of PANI NRs was derived to be experienced through two stages: an induction period and a growth-up one. In compared with the other 1 D nanostructured PANIs such as nanofibers and nanotubes, this process was featured by the following characters: an extremely long induction period, no significant structural transition for anilinium composed micelles, the formation of only phenazine-like oligomers. The long induction period provided good opportunity for all reagents to be arranged regularly. On the other hand, the fused ring-structure of phenazines favored the coagulation with the monomer, and eventually leaded to the formation of PANI NRs.