纳米技术与精密工程
納米技術與精密工程
납미기술여정밀공정
NANOTECHNOLOGY AND PRECISION ENGINEERING
2006年
1期
20-24
,共5页
贾法龙%王为%黄庆华%朱静
賈法龍%王為%黃慶華%硃靜
가법룡%왕위%황경화%주정
纳米线阵列%Bi2Te3%温差电%微型发电器
納米線陣列%Bi2Te3%溫差電%微型髮電器
납미선진렬%Bi2Te3%온차전%미형발전기
nanowire array%Bi2Te3%thermoelectric%micro-generator
借助于电化学沉积的方法,在氧化铝纳米孔内生长Bi2Te3材料,从而形成温差电纳米线阵列.利用SEM,XRD and TEM分析手段对制备的纳米线形貌和结构进行了分析,测量了纳米线的组成和温差电性能.p型和n型Bi2Te3纳米线材料的Seebeck系数经过测量分别为260μV/K和-188μV/K(307 K),比同类的块状温差电材料性能高.同时研究了沉积电位对氧化铝模板中纳米孔的填充率的影响,并对纳米线阵列的电阻进行了测量.尝试了利用n型和p型Bi2Te3纳米线阵列制备一种新型的微型温差发电器.
藉助于電化學沉積的方法,在氧化鋁納米孔內生長Bi2Te3材料,從而形成溫差電納米線陣列.利用SEM,XRD and TEM分析手段對製備的納米線形貌和結構進行瞭分析,測量瞭納米線的組成和溫差電性能.p型和n型Bi2Te3納米線材料的Seebeck繫數經過測量分彆為260μV/K和-188μV/K(307 K),比同類的塊狀溫差電材料性能高.同時研究瞭沉積電位對氧化鋁模闆中納米孔的填充率的影響,併對納米線陣列的電阻進行瞭測量.嘗試瞭利用n型和p型Bi2Te3納米線陣列製備一種新型的微型溫差髮電器.
차조우전화학침적적방법,재양화려납미공내생장Bi2Te3재료,종이형성온차전납미선진렬.이용SEM,XRD and TEM분석수단대제비적납미선형모화결구진행료분석,측량료납미선적조성화온차전성능.p형화n형Bi2Te3납미선재료적Seebeck계수경과측량분별위260μV/K화-188μV/K(307 K),비동류적괴상온차전재료성능고.동시연구료침적전위대양화려모판중납미공적전충솔적영향,병대납미선진렬적전조진행료측량.상시료이용n형화p형Bi2Te3납미선진렬제비일충신형적미형온차발전기.
Thermoelectric nanowire arrays have been successfully fabricated by electrochemical deposition of Bi2Te3 into the nanopores of alumina template. The morphologies and structure of the Bi2Te3 nanowires have been characterized using SEM, XRD and TEM. The composition of nanowires was analyzed and thermoelectric properties of the nanowire arrays were measured. The measurements show that the seebeck coefficients of p-type and n-type Bi2Te3 nanowire arrays are about 260μV/K and - 188 μV/K at 307 K separately, greater than that of bulk material. The effect of potential on the filling ratio of thermoelectric material in alumina pores was also studied and the resistance of nanowire arrays was also measured. A new type of thermoelectric micro-generator is fabricated, which is composed of n- and p-type Bi2Te3 nanowire arrays.
