物理化学学报
物理化學學報
물이화학학보
ACTA PHYSICO-CHIMICA SINICA
2015年
4期
800-806
,共7页
杜海英%王兢%乔俏%孙炎辉%邵强%李晓干
杜海英%王兢%喬俏%孫炎輝%邵彊%李曉榦
두해영%왕긍%교초%손염휘%소강%리효간
原位聚合法%异质纳米复合物%气体传感器%气敏特性%形成机理
原位聚閤法%異質納米複閤物%氣體傳感器%氣敏特性%形成機理
원위취합법%이질납미복합물%기체전감기%기민특성%형성궤리
In-situ polymerization%Hetero-nanocomposite%Gas sensor%Gas sensing property%Formation mechanism
室温下,采用原位聚合法,以吡咯(PY)为单体,氯化铁(FeCl3?6H2O)为氧化剂,在塑料基片上聚合生长了聚吡咯(PPy)纳米微球。然后在聚吡咯基片上生长ZnO种子,将表面种有ZnO种子的PPy元件置于六次甲基四胺与硝酸锌的混合溶液中,90°C水浴中,在PPy微球上生长了ZnO纳米棒,合成了PPy/ZnO异质纳米复合材料。分别通过X射线衍射仪(XRD)和场发射扫描电镜(FESEM)对PPy/ZnO异质纳米复合材料的结构和形貌进行了表征。制备了塑料基的PPy/ZnO异质纳米复合材料气体传感器,在室温下,对10×10-6-150×10-6(体积分数)浓度范围的氨气进行了气敏测试, PPy/ZnO气敏元件对氨气响应的灵敏度基本呈线性关系,且对甲醇、丙酮、甲苯等有机气体表现出很好的选择性。最后,对PPy/ZnO异质纳米复合材料的形成机理进行了简要分析。
室溫下,採用原位聚閤法,以吡咯(PY)為單體,氯化鐵(FeCl3?6H2O)為氧化劑,在塑料基片上聚閤生長瞭聚吡咯(PPy)納米微毬。然後在聚吡咯基片上生長ZnO種子,將錶麵種有ZnO種子的PPy元件置于六次甲基四胺與硝痠鋅的混閤溶液中,90°C水浴中,在PPy微毬上生長瞭ZnO納米棒,閤成瞭PPy/ZnO異質納米複閤材料。分彆通過X射線衍射儀(XRD)和場髮射掃描電鏡(FESEM)對PPy/ZnO異質納米複閤材料的結構和形貌進行瞭錶徵。製備瞭塑料基的PPy/ZnO異質納米複閤材料氣體傳感器,在室溫下,對10×10-6-150×10-6(體積分數)濃度範圍的氨氣進行瞭氣敏測試, PPy/ZnO氣敏元件對氨氣響應的靈敏度基本呈線性關繫,且對甲醇、丙酮、甲苯等有機氣體錶現齣很好的選擇性。最後,對PPy/ZnO異質納米複閤材料的形成機理進行瞭簡要分析。
실온하,채용원위취합법,이필각(PY)위단체,록화철(FeCl3?6H2O)위양화제,재소료기편상취합생장료취필각(PPy)납미미구。연후재취필각기편상생장ZnO충자,장표면충유ZnO충자적PPy원건치우륙차갑기사알여초산자적혼합용액중,90°C수욕중,재PPy미구상생장료ZnO납미봉,합성료PPy/ZnO이질납미복합재료。분별통과X사선연사의(XRD)화장발사소묘전경(FESEM)대PPy/ZnO이질납미복합재료적결구화형모진행료표정。제비료소료기적PPy/ZnO이질납미복합재료기체전감기,재실온하,대10×10-6-150×10-6(체적분수)농도범위적안기진행료기민측시, PPy/ZnO기민원건대안기향응적령민도기본정선성관계,차대갑순、병동、갑분등유궤기체표현출흔호적선택성。최후,대PPy/ZnO이질납미복합재료적형성궤리진행료간요분석。
Pyrrole (Py) was oxidized by ferric(III) chloride solution in water for the synthesis of polypyrrole (PPy) nanoparticles on the substrate slide by in-situ polymerization at room temperature. Zinc oxide nanorods grew on the PPy nanoparticles when in a water bath at 90 °C. ZnO/PPy hetero-nanocomposites were obtained by a hydrothermal method and characterized using X-ray diffraction (XRD) and field emission scanning electron microscopy (FESEM). Gas sensors were fabricated based on the ZnO/PPy hetero-nanocomposites to detect ammonia at room temperature. The gas sensing properties of these hetero-nanocomposites were measured in the concentration range of 10×10-6-150×10-6 (volume fraction). The relationship of the sensitivity of the sensors to the ammonia concentration showed linearity. The gas sensor based on ZnO/PPy hetero-nanocomposites showed good selectivity to ammonia when in the presence of interfering gases such as methanol, acetone, and toluene. The formation mechanism of the ZnO/PPy hetero-nanocomposites was briefly analyzed.
