功能材料
功能材料
공능재료
JOURNAL OF FUNCTIONAL MATERIALS
2013年
17期
2570-2573
,共4页
陈颖%孙男男%孙露露%孟庆刚%梁宏宝
陳穎%孫男男%孫露露%孟慶剛%樑宏寶
진영%손남남%손로로%맹경강%량굉보
镍%BiOBr%可见光%光催化
鎳%BiOBr%可見光%光催化
얼%BiOBr%가견광%광최화
nickel%bromine oxidation bismuth%visible light%photocatalytic
利用浸渍水热法将 Ni 负载到 BiOBr 载体上,制备了新型的 Ni/BiOBr 复合光催化剂,考察了水热反应温度和时间对制备催化剂的影响。同时采用XRD、BET、UV-Vis紫外-可见光谱等手段对样品进行了表征,研究了 Ni/BiOBr 在可见光照射下的光催化活性。结果表明,在水热反应温度为160℃,水热反应时间为8h 的条件下,制备的 Ni/BiOBr 纳米材料具有很好的光催化活性,当 Ni 负载到 BiOBr 上时,Ni/BiOBr 在可见光区的吸收带边发生红移,光催化实验表明,在可见光下(λ>420nm)可以有效降解罗丹明B,降解率高达97%,Ni/BiOBr 的晶型结构受反应条件的影响,它的禁带宽度为2.62eV。
利用浸漬水熱法將 Ni 負載到 BiOBr 載體上,製備瞭新型的 Ni/BiOBr 複閤光催化劑,攷察瞭水熱反應溫度和時間對製備催化劑的影響。同時採用XRD、BET、UV-Vis紫外-可見光譜等手段對樣品進行瞭錶徵,研究瞭 Ni/BiOBr 在可見光照射下的光催化活性。結果錶明,在水熱反應溫度為160℃,水熱反應時間為8h 的條件下,製備的 Ni/BiOBr 納米材料具有很好的光催化活性,噹 Ni 負載到 BiOBr 上時,Ni/BiOBr 在可見光區的吸收帶邊髮生紅移,光催化實驗錶明,在可見光下(λ>420nm)可以有效降解囉丹明B,降解率高達97%,Ni/BiOBr 的晶型結構受反應條件的影響,它的禁帶寬度為2.62eV。
이용침지수열법장 Ni 부재도 BiOBr 재체상,제비료신형적 Ni/BiOBr 복합광최화제,고찰료수열반응온도화시간대제비최화제적영향。동시채용XRD、BET、UV-Vis자외-가견광보등수단대양품진행료표정,연구료 Ni/BiOBr 재가견광조사하적광최화활성。결과표명,재수열반응온도위160℃,수열반응시간위8h 적조건하,제비적 Ni/BiOBr 납미재료구유흔호적광최화활성,당 Ni 부재도 BiOBr 상시,Ni/BiOBr 재가견광구적흡수대변발생홍이,광최화실험표명,재가견광하(λ>420nm)가이유효강해라단명B,강해솔고체97%,Ni/BiOBr 적정형결구수반응조건적영향,타적금대관도위2.62eV。
Using dipping hydrothermal method make Ni loading to BiOBr carrier,prepared new type Ni/BiOBr composite photocatalyst,the effect of the hydrothermal condition of different reaction time and temperature on the catalyst which prepared was studied,and using XRD,BET,UV-Vis to evaluate the samples,studied photo-catalytic activity of Ni/BiOBr under visible light irradiation.The results show that,in the hydrothermal reac-tion temperature is 160℃,hydrothermal reaction time was 8h conditions,the nanomaterials prepared of Ni/BiOBr having good photocatalytic activity,when Ni loading to BiOBr carrier,Ni/BiOBr has red shift in the visi-ble region of the absorption band edge,photocatalytic experiments show that rhodamine B under visible light (λ>420nm)can be effectively degradated,the degradation rate of up to 97%,the crystal structure of Ni/BiOBr affected by the reaction conditions,its band gap was 2.62eV.