硅酸盐通报
硅痠鹽通報
규산염통보
BULLETIN OF THE CHINESE CERAMIC SOCIETY
2010年
1期
198-203
,共6页
曹广秀%李耀刚%张青红%王宏志
曹廣秀%李耀剛%張青紅%王宏誌
조엄수%리요강%장청홍%왕굉지
共掺杂%可见光%光催化%能带%二氧化钛
共摻雜%可見光%光催化%能帶%二氧化鈦
공참잡%가견광%광최화%능대%이양화태
co-doping%visible light%photocatalysis%band gap%TiO_2
以钛酸四丁酯、氟化铵、硼酸为原料,采取改进的溶胶-凝胶法制备了氟、硼共掺杂的纳米二氧化钛粉体.XRD结果显示氟、硼共掺杂不仅可以抑制晶粒生长,还可以阻止锐钛矿相向金红石相的转变.当氟、硼物质的量比为5∶ 20时,其表现出更好的可见光响应.XPS 结果表明:氟和硼分别和钛形成了F-Ti键和B-Ti键,它们的形成可提高价带中光生空穴的氧化能力和拉窄二氧化钛的带隙,从而提高了其可见光照射下的光催化活性.可见光照射下降解4-氯苯酚,结果表明:经600 ℃煅烧2 h的样品,氟、硼物质的量比为5∶ 20,其降解率分别是单掺杂和纯二氧化钛的1.5到3倍.总有机碳(TOC)分析结果表明4-氯苯酚在可见光照射下被光催化剂有效地矿化.
以鈦痠四丁酯、氟化銨、硼痠為原料,採取改進的溶膠-凝膠法製備瞭氟、硼共摻雜的納米二氧化鈦粉體.XRD結果顯示氟、硼共摻雜不僅可以抑製晶粒生長,還可以阻止銳鈦礦相嚮金紅石相的轉變.噹氟、硼物質的量比為5∶ 20時,其錶現齣更好的可見光響應.XPS 結果錶明:氟和硼分彆和鈦形成瞭F-Ti鍵和B-Ti鍵,它們的形成可提高價帶中光生空穴的氧化能力和拉窄二氧化鈦的帶隙,從而提高瞭其可見光照射下的光催化活性.可見光照射下降解4-氯苯酚,結果錶明:經600 ℃煅燒2 h的樣品,氟、硼物質的量比為5∶ 20,其降解率分彆是單摻雜和純二氧化鈦的1.5到3倍.總有機碳(TOC)分析結果錶明4-氯苯酚在可見光照射下被光催化劑有效地礦化.
이태산사정지、불화안、붕산위원료,채취개진적용효-응효법제비료불、붕공참잡적납미이양화태분체.XRD결과현시불、붕공참잡불부가이억제정립생장,환가이조지예태광상향금홍석상적전변.당불、붕물질적량비위5∶ 20시,기표현출경호적가견광향응.XPS 결과표명:불화붕분별화태형성료F-Ti건화B-Ti건,타문적형성가제고개대중광생공혈적양화능력화랍착이양화태적대극,종이제고료기가견광조사하적광최화활성.가견광조사하강해4-록분분,결과표명:경600 ℃단소2 h적양품,불、붕물질적량비위5∶ 20,기강해솔분별시단참잡화순이양화태적1.5도3배.총유궤탄(TOC)분석결과표명4-록분분재가견광조사하피광최화제유효지광화.
Boron and fluorine codoped TiO_2 powders were prepared by hydrolysis of titanium tetra-n-butyl oxide in a mixed NH_4F-H_3BO_3-H_2O solution. The XRD results showed that the co-doping of boron and fluorine could not only efficiently inhibit the grain growth but also suppress the phase transition of anatase to rutile. When the molar ratios of B and F to Ti are 20∶ 100 and 5∶ 100 and calcined at 600 ℃, UV-vis spectroscopy of the sample showed better visible light responding. XPS results revealed that the Ti-B bonds and Ti-F bonds have formed which could extend the absorption spectra to visible light region and enhance visible light photocatalytic activity. When the molar ratios of B and F to Ti are 20∶ 100 and 5∶ 100 and calcined at 600 ℃, the degradation rate of 4-chlorophenol (4-CP) over the sample was about 1.5 to 3.0 times higher than that for other doped samples and undoped TiO_2. The total organic carbon (TOC) removal rates of 4-CP showed that 4-CP has been mineralized efficiently with the sample under visible light illumination.
