鐵酸鉍摻雜錳與二氧化鋯絕緣層電容器之電特性分析 Effect of annealing temperature and Ar/O2 ratio on Mn-doped BiFeO3 thin films and capacitors fabricated by RF magnetron sputtering

dc.contributor 劉傳璽 zh_TW
dc.contributor 阮弼群 zh_TW
dc.contributor.author 張文亮 zh_TW
dc.date.accessioned 2019-09-03T12:10:05Z
dc.date.available 不公開
dc.date.available 2019-09-03T12:10:05Z
dc.date.issued 2012
dc.description.abstract 在此論文中,利用射頻磁控濺鍍法製造出金屬-鐵電層-絕緣層-半導體的電容,鐵電層為鐵酸鉍摻雜錳及絕緣層為二氧化鋯所完成的 MFIS結構電容。二氧化鋯絕緣層厚度為20,40與60奈米。摻雜錳之鐵電層厚度為250 nm。BFO使用射頻濺鍍製成,錳使用直流系統摻雜,直流系統功率為5 W、10 W、15 W。濺鍍時氬氧比為30/2、30/3、30/6 sccm/sccm。用快速熱退火方式使鐵電薄膜產生結晶,熱退火在充滿氮氣的環境下,溫度升溫到500℃、600℃、或700℃。使用鋁做為上電極,再做PMA退火於400℃,於氮氣環境下持溫30秒。 結果發現,電容器經過熱退火,其電容器的記憶視窗會因為熱退火的溫度愈高,記憶視窗愈大。然而高退火溫度也會導致氧化鋯絕緣層會產生結晶,而增加漏電流。因此只要考慮熱退火的溫度,並在MFIS電容器的記憶視窗寬度與漏電流兩者間取得一平衡值。甚至此實驗結果也顯示出鐵電記憶體的表現可以藉由摻雜錳與氧到BFO薄膜做改善。文獻指出因為錳的直徑(0.072奈米)與鐵的直徑(0.069奈米)很接近,所以錳可以作為取代鐵的元素。因跳躍電子關係,鐵會填補氧空缺。在退火溫度600℃且氬氧比是30/6 sccm/sccm時,其最大的記憶視窗是3.04 V。 zh_TW
dc.description.abstract In this work, metal-ferroelectric-insulator-semiconductor (MFIS) capacitors with Mn-doped BiFeO3 (BFO) as the ferroelectric layer and ZrO2 as the insulating layer have been fabricated by radio frequency (RF) magnetron sputtering technique. The thickness of the high-k ZrO2 layer was 20, 40, or 60 nm. The 250-nm-thick Mn-doped BFO ferroelectric layer was deposited by co-sputtering method, in which the RF and DC powers were used for BFO and Mn targets, respectively. The DC power (5, 10, or 15 W utilized in this study) can be used to adjust the Mn doping concentration in the BFO films. Moreover, during the co-sputtering process, the Ar/O2 gas ratio (30/2, 30/3, or 30/6 sccm/sccm) was also varied to control the oxygen content. In order to crystallize the ferroelectric films, rapid thermal annealing (RTA) was carried out in pure N2 at 500, 600, or 700℃. Aluminum was used as the top electrode. A post-metallization annealing (PMA) was performed at 400℃ in N2 for 30 s. It is found that the size of memory window of MFIS capacitors increases with increasing RTA temperature. However, a high RTA temperature may also cause the crystallization of ZrO2 layers, increasing the leakage current. Therefore, as long as the RTA temperature is concerned, there is a tradeoff between memory window and leakage current of MFIS capacitors. Moreover, the experimental results show that the ferroelectric memory performance can be improved through Mn doping and O2 incorporation in the BFO films. It has been reported that Mn is a substitution element for BFO films because the radius (0.072 nm) of Mn3+ ions was similar to that of Fe3+ ions (0.069 nm). Therefore, the hopping of electrons between Fe2+ and Fe3+ when oxygen vacancies are present is proposed to be responsible for the leakage current. The maximum memory window of 3.04 V was obtained from a sweep voltage of 8 V when the annealing temperature was 600 ℃ and Ar/O2 ratio was 5. en_US
dc.description.sponsorship 機電工程學系 zh_TW
dc.identifier GN0097732117
dc.identifier.uri http://etds.lib.ntnu.edu.tw/cgi-bin/gs32/gsweb.cgi?o=dstdcdr&s=id=%22GN0097732117%22.&%22.id.&
dc.identifier.uri http://rportal.lib.ntnu.edu.tw:80/handle/20.500.12235/97082
dc.language 中文
dc.subject BFO zh_TW
dc.subject 記憶視窗 zh_TW
dc.subject MFIS電容 zh_TW
dc.subject 薄膜 zh_TW
dc.subject BFO en_US
dc.subject Memory window en_US
dc.subject MFIS capacitor en_US
dc.subject Thin film en_US
dc.title 鐵酸鉍摻雜錳與二氧化鋯絕緣層電容器之電特性分析 zh_TW
dc.title Effect of annealing temperature and Ar/O2 ratio on Mn-doped BiFeO3 thin films and capacitors fabricated by RF magnetron sputtering en_US
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