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Hydrothermal Synthesis and Characterization of Sb₂Te₃ Nanoplatesî•‘

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ã€Authorã€‘ CHAI Zhenzhen;ZHENG Wenjun;Key Laboratory of Advanced Energy Materials Chemistry,Ministry of Education,College of Chemistry,Collaborative Innovation Center of Chemical Science and Engineering( Tianjin) ,Nankai University;

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ã€æ‘˜è¦ã€‘ åœ¨æ°´çƒæ¡ä»¶ä¸‹,ä»¥ä¹™é†‡èƒºä¸ºè¿˜åŽŸå‰‚,å®žçŽ°äº†äºšç¢²é…¸æ ¹(TeO^2-₃)çš„åˆ†æ¥è¿˜åŽŸ,å¹¶ä»¥æ–°ç”Ÿæˆçš„å•è´¨Teçº³ç±³æ£’ä¸ºç¢²æº,åŽŸä½ä¸€æ¥æ³•åˆæˆå‡ºå…æ–¹ç›¸Sb₂Te₃çº³ç±³ç‰‡.é‡‡ç”¨Xå°„çº¿ç²‰æœ«è¡å°„ä»ªï¼ˆXRDï¼‰ã€åœºå‘å°„æ‰«æç”µåæ˜¾å¾®é•œï¼ˆFESEMï¼‰å’Œé€å°„ç”µåæ˜¾å¾®é•œï¼ˆTEMï¼‰ç‰å¯¹äº§ç‰©çš„ç‰©ç›¸ã€å½¢è²ŒåŠç»„æˆè¿›è¡Œäº†è¡¨å¾.ç»“æžœè¡¨æ˜Ž,äº§ç‰©Sb₂Te₃ä¸ºå…æ–¹çº³ç±³ç‰‡,åŽšåº¦çº¦ä¸º100²00 nm,ç›´å¾„çº¦ä¸º0.6¹.5Î¼m,å½¢è²Œå‡ä¸€,åˆ†æ•£æ€§è‰¯å¥½.é€‚å®œçš„åˆæˆæ¡ä»¶æ˜¯æ°´/ä¹™é†‡èƒºä½“ç§¯æ¯”ä¸º8âˆ¶12,180â„ƒä¸‹ååº”24 h.ä¾æ®éƒ¨åˆ†å®žéªŒç»“æžœä»¥åŠå•è´¨Teå’Œå…æ–¹ç›¸Sb₂Te₃æ™¶ä½“ç»“æž„çš„æ¯”è¾ƒ,è¯æ˜Žäº†Sb₂Te₃ä¸»è¦ä»¥å¤–å»¶æ–¹å¼åœ¨å•è´¨Teçº³ç±³æ£’è¡¨é¢ç”Ÿé•¿,ä¸”ä¸¤è€…çš„æ™¶é¢å–å‘ä¸ºï¼ˆ003ï¼‰Te//ï¼ˆ003ï¼‰Sb₂Te₃,[110]Te//[110]Sb₂Te₃.æ›´å¤š è¿˜åŽŸ

ã€Abstractã€‘ Under hydrothermal conditions and with ethanolamine acting as the reducing agent,fractional reduction of Te O^2-₃was realized,and Sb₂Te₃ nanoplates were synthesized in situ with the newly generated Te nanorods acting as tellurium source. The as-prepared product was characterized by X-ray powder diffractometerï¼ˆ XRDï¼‰,field emission scanning electron microscopeï¼ˆ SEMï¼‰,and transmission electron microscopeï¼ˆ TEMï¼‰.Results showed that the product presents the hexastyle nanoplate structure with the thickness of about 100â€”200 nm and the diameter of about 0. 6â€”1. 5 Î¼m,and has a uniform morphology and good dispersibility. The suitable conditions were that the volume ratio of water to ethanolamine was 8 âˆ¶ 12,and the reaction lasted for24 h at 180 â„ƒ. By comparing the crystal structures of the elemental Te and hexagonal Sb₂Te₃ as well as some experimental results,that the hexagonal phase Sb2Te3 grew epitaxially on the lateral sides of newly generated Te nanorods was discussed preliminarily,and their crystal orientations wereï¼ˆ 003ï¼‰ Te / /ï¼ˆ 003ï¼‰ Sb₂Te₃,and[110]Te / /[110]Sb₂Te₃.æ›´å¤š è¿˜åŽŸ

ã€å…³é”®è¯ã€‘ æ°´çƒåˆæˆï¼› Sb2Te3çº³ç±³ç‰‡ï¼› å½¢è²Œï¼› ååº”æœºåˆ¶ï¼›
ã€Key wordsã€‘ Hydrothermal synthesisï¼› Sb2Te3 nanoplatesï¼› Morphologyï¼› Reaction mechanismï¼›

ã€åŸºé‡‘ã€‘ å›½å®¶è‡ªç„¶ç§‘å¦åŸºé‡‘(æ‰¹å‡†å·:21371101;21421001);é«˜ç‰å¦æ ¡å¦ç§‘åˆ›æ–°å¼•æ™ºè®¡åˆ’é¡¹ç›®(æ‰¹å‡†å·:B12015);æ•™è‚²éƒ¨åˆ›æ–°ç¾¤ä½“é¡¹ç›®(æ‰¹å‡†å·:IRT13022)èµ„åŠ©~~

ã€æ–‡çŒ®å‡ºå¤„ã€‘ é«˜ç‰å¦æ ¡åŒ–å¦å¦æŠ¥ ,Chemical Journal of Chinese Universities , ç¼–è¾‘éƒ¨é‚®ç®± ,2016å¹´03æœŸ

ã€åˆ†ç±»å·ã€‘TQ135.31;TB383.1
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Hydrothermal Synthesis and Characterization of Sb2Te3 Nanoplatesî•‘

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Hydrothermal Synthesis and Characterization of Sb₂Te₃ Nanoplatesî•‘