分析化学
分析化學
분석화학
CHINESE JOURNAL OF ANALYTICAL CHEMISTRY
2009年
7期
1092-1096
,共5页
刘世伟%华凯峰%苏怡%吕翔宇%李翠玲%王玉江
劉世偉%華凱峰%囌怡%呂翔宇%李翠玲%王玉江
류세위%화개봉%소이%려상우%리취령%왕옥강
气体传感器%电流型%空心结构%甲醛%纳米金
氣體傳感器%電流型%空心結構%甲醛%納米金
기체전감기%전류형%공심결구%갑철%납미금
Gas sensor%amperometric type%hollow structure%formaldehyde%nano gold
通过牺牲模板法合成了具有空心结构的纳米金催化剂,并进行了TEM、 SEM和XRD等物理表征.把该催化剂作为工作电极的活性物质,以1 mol/L KOH为电解质,组装了电流型甲醛气体传感器.在甲醛气体浓度为0~2.23×10-6 mol/L范围内对传感器进行了性能测试,传感器响应信号y(A)与气体浓度x(mol/L)线性回归方程为y=16.63x+4.063×10-7, r=0.9989.该传感器灵敏度高于同载量实心金纳米催化剂组装的传感器70%左右,达到了降低贵金属用量的目的.因其具有较快的响应时间、 良好的重现性和良好的线性关系等优点,可用于适当浓度范围内的甲醛气体检测.
通過犧牲模闆法閤成瞭具有空心結構的納米金催化劑,併進行瞭TEM、 SEM和XRD等物理錶徵.把該催化劑作為工作電極的活性物質,以1 mol/L KOH為電解質,組裝瞭電流型甲醛氣體傳感器.在甲醛氣體濃度為0~2.23×10-6 mol/L範圍內對傳感器進行瞭性能測試,傳感器響應信號y(A)與氣體濃度x(mol/L)線性迴歸方程為y=16.63x+4.063×10-7, r=0.9989.該傳感器靈敏度高于同載量實心金納米催化劑組裝的傳感器70%左右,達到瞭降低貴金屬用量的目的.因其具有較快的響應時間、 良好的重現性和良好的線性關繫等優點,可用于適噹濃度範圍內的甲醛氣體檢測.
통과희생모판법합성료구유공심결구적납미금최화제,병진행료TEM、 SEM화XRD등물리표정.파해최화제작위공작전겁적활성물질,이1 mol/L KOH위전해질,조장료전류형갑철기체전감기.재갑철기체농도위0~2.23×10-6 mol/L범위내대전감기진행료성능측시,전감기향응신호y(A)여기체농도x(mol/L)선성회귀방정위y=16.63x+4.063×10-7, r=0.9989.해전감기령민도고우동재량실심금납미최화제조장적전감기70%좌우,체도료강저귀금속용량적목적.인기구유교쾌적향응시간、 량호적중현성화량호적선성관계등우점,가용우괄당농도범위내적갑철기체검측.
The gold hollow nanospheres have been synthesized by sacrificE-template method and the obtained sample has been characterized by TEM, SEM and XRD. The amperometric formaldehyde gas sensor was assembled with gold hollow nanospheres as the active electrode material and 1 mol/L KOH solution as electrolyte. The equation of linear regression(y=16.63x+4.063×10-7, r=0.9989)between the oxidation current(y(A))and the concentration of formaldehyde(x/(mol/L)) was obtained at the formaldehyde concentration in the range of 0 to 2.23×10-6 mol/L. The sensitivity of the sensor with gold hollow nanospheres as active material increased by about 70% compared with the sensor made of nanoparticles which had the same gold-loading in the work electrode, this method exhibits an advantage of decrease in the cost of the noble metal. This kind of sensor shows potential application in formaldehyde gas detection in this range due to its excellent sensitivity, stable response and good linear relationship.