èŠ‚ç‚¹æ–‡çŒ®

çƒç£¨-ç……çƒ§æ³•åˆ¶å¤‡Fe₃O₄-Cu_xOåŠå…¶æ´»åŒ–Oxoneé™è§£ç›é…¸å·¦æ°§æ°Ÿæ²™æ˜Ÿ

Degradation of Levofloxacin hydrochloride by the Fe₃O₄-Cu_xO composite prepared using ball milling-calcination method with Oxone activation

æŽ¨è CAJä¸‹è½½
PDFä¸‹è½½
ä¸æ”¯æŒè¿…é›·ç‰ä¸‹è½½å·¥å…·ï¼Œè¯·å–æ¶ˆåŠ é€Ÿå·¥å…·åŽä¸‹è½½ã€‚

ã€ä½œè€…ã€‘ å¼ ä¸‡é¹ï¼› éƒ‘ç«‹åº†ï¼› æ¨é‘«é›¨ï¼› çŽ‹æ˜¥å³°ï¼› é€¯é€šï¼›

ã€Authorã€‘ ZHANG Wan-Peng;ZHENG Li-Qing;Yang Xin-Yu;WANG Chun-Feng;LU Tong;Key Laboratory of Yellow River and Huai River Water Environment and Pollution Control Ministry of Education, Henan Key Laboratory for Environmental Pollution Control, School of Environment, Henan Normal University;

ã€é€šè®¯ä½œè€…ã€‘ çŽ‹æ˜¥å³°;

ã€æœºæž„ã€‘ æ²³å—å¸ˆèŒƒå¤§å¦çŽ¯å¢ƒå¦é™¢é»„æ·®æ°´çŽ¯å¢ƒä¸Žæ±¡æŸ“é˜²æ²»æ•™è‚²éƒ¨é‡ç‚¹å®žéªŒå®¤æ²³å—çœçŽ¯å¢ƒæ±¡æŸ“æŽ§åˆ¶é‡ç‚¹å®žéªŒå®¤ï¼›

ã€æ‘˜è¦ã€‘ é‡‡ç”¨æœºæ¢°çƒç£¨-ç……çƒ§æ–¹æ³•æˆåŠŸåˆ¶å¤‡Fe₃O₄-Cu_xOå¤åˆææ–™,åˆ©ç”¨SEMã€XRDä¸Žå¤šåŠŸèƒ½ç£å¦æµ‹é‡ç³»ç»Ÿç‰æ‰‹æ®µå¯¹å¤åˆææ–™è¿›è¡Œè¡¨å¾,å¹¶å¯¹å…¶å‚¬åŒ–Oxoneé™è§£æ°´ä½“ä¸ç›é…¸å·¦æ°§æ°Ÿæ²™æ˜Ÿçš„æ€§èƒ½è¿›è¡Œè¯„ä¼°.è€ƒå¯Ÿäº†ç……çƒ§æ¸©åº¦ã€çƒç£¨æ—¶Feä¸ŽCuOçš„è´¨é‡æ¯”å¯¹è¯¥å¤åˆææ–™çš„å‚¬åŒ–æ€§èƒ½å½±å“.å¤åˆææ–™é™è§£ç›é…¸å·¦æ°§æ°Ÿæ²™æ˜Ÿï¼ˆLVFï¼‰å®žéªŒæŽ¢ç©¶äº†ææ–™æŠ•åŠ é‡ã€Oxoneæµ“åº¦ã€pHå€¼ç‰å› ç´ çš„å½±å“.ç»“æžœè¡¨æ˜Ž:å½“ç……çƒ§æ¸©åº¦ä¸º300â„ƒ,Feä¸ŽCuOçš„è´¨é‡æ¯”ä¸º1:1æ—¶ææ–™å‚¬åŒ–æ€§èƒ½æœ€ä½³;é‡å¤æ€§å®žéªŒç»“æžœè¡¨æ˜Žè¯¥å‚¬åŒ–å‰‚å…·å¤‡è¾ƒå¥½çš„ç¨³å®šæ€§.å½“LVFçš„åˆå§‹æµ“åº¦ä¸º10mg/Læ—¶,æœ€ä¼˜é™è§£æ¡ä»¶ä¸º:å‚¬åŒ–å‰‚æŠ•åŠ é‡ä¸º1.4g/Lã€Oxoneæµ“åº¦ä¸º0.6mmol/L,pHå€¼ä¸º11,ååº”60minåŽ,LVFçš„é™è§£çŽ‡è¾¾åˆ°99.5%.æ·¬çå®žéªŒåŠESRåˆ†æžè¯å®žLVFçš„é™è§£æ˜¯ç”±SO₄^-Â·ä¸ŽÂ·OHå…±åŒä½œç”¨çš„ç»“æžœ.æ›´å¤š è¿˜åŽŸ

ã€Abstractã€‘ The Fe₃O₄-Cu_xO composite was successfully prepared by a ball milling-calcination method, and the composite was characterized by X-ray diffractionï¼ˆXRDï¼‰, scanning electron microscopeï¼ˆSEMï¼‰ and magnetic detection. Degradation efficiency of levofloxacin hydrochlorideï¼ˆLVFï¼‰ was evaluated by Fe₃O₄-Cu_xO composite activated oxone. Effect of calcination temperature and Fe/CuO mass ratio on catalytic performance of the composite was investigated. The degradation efficiencies of LVF over prepared composite were investigated by adjusting the reaction conditions such as the composite dosage, oxone concentration and pH. The results showed that optimum catalytic performance was obtained at calcination temperature of 300â„ƒ and Fe/CuO mass ratio of 1 : 1. Repeated experiment results showed that Fe₃O₄-Cu_xO composite possessed an excellent catalytic stability. The degradation efficiency of LVF over Fe₃O₄-Cu_xO composite reached to 99.5% after 60 min with the composite dosage, oxone concentration and pH of 1.4 g/L, 0.6 mmol/L and 11, respectively. The quenching experiment and ESR analysis demonstrated that the LVF degradation was determined by the synergistic effect of SO₄^-Â· and Â·OH reactive species.æ›´å¤š è¿˜åŽŸ

ã€å…³é”®è¯ã€‘ Fe3O4-CuxOï¼› æœºæ¢°çƒç£¨ï¼› ç……çƒ§ï¼› ç›é…¸å·¦æ°§æ°Ÿæ²™æ˜Ÿï¼› ç¡«é…¸æ ¹è‡ªç”±åŸºï¼›
ã€Key wordsã€‘ Fe3O4-CuxOï¼› ball millingï¼› calcinationï¼› Levofloxacin hydrochlorideï¼› sulfate radicalï¼›

ã€åŸºé‡‘ã€‘ å›½å®¶è‡ªç„¶ç§‘å¦åŸºé‡‘èµ„åŠ©é¡¹ç›®(51378180)

ã€æ–‡çŒ®å‡ºå¤„ã€‘ ä¸å›½çŽ¯å¢ƒç§‘å¦ ,China Environmental Science , ç¼–è¾‘éƒ¨é‚®ç®± ,2020å¹´01æœŸ

ã€åˆ†ç±»å·ã€‘X703
ã€è¢«å¼•é¢‘æ¬¡ã€‘3
ã€ä¸‹è½½é¢‘æ¬¡ã€‘278

çŸ¥ç½‘èŠ‚ä¸‹è½½

èŠ‚ç‚¹æ–‡çŒ®ä¸ï¼š

æœ¬æ–‡é“¾æŽ¥çš„æ–‡çŒ®ç½‘ç»œå›¾ç¤º:

æœ¬æ–‡çš„å¼•æ–‡ç½‘ç»œ

èŠ‚ç‚¹æ–‡çŒ®

èŠ‚ç‚¹æ–‡çŒ®

çƒç£¨-ç……çƒ§æ³•åˆ¶å¤‡Fe3O4-CuxOåŠå…¶æ´»åŒ–Oxoneé™è§£ç›é…¸å·¦æ°§æ°Ÿæ²™æ˜Ÿ

Degradation of Levofloxacin hydrochloride by the Fe3O4-CuxO composite prepared using ball milling-calcination method with Oxone activation

æœ¬æ–‡é“¾æŽ¥çš„æ–‡çŒ®ç½‘ç»œå›¾ç¤º:

çƒç£¨-ç……çƒ§æ³•åˆ¶å¤‡Fe₃O₄-Cu_xOåŠå…¶æ´»åŒ–Oxoneé™è§£ç›é…¸å·¦æ°§æ°Ÿæ²™æ˜Ÿ

Degradation of Levofloxacin hydrochloride by the Fe₃O₄-Cu_xO composite prepared using ball milling-calcination method with Oxone activation