江苏科技大学学报(自然科学版)
江囌科技大學學報(自然科學版)
강소과기대학학보(자연과학판)
JOURNAL OF JIANGSU UNIVERSITY OF SCIENCE AND TECHNOLOGY(NATURAL SCIENCE EDITION)
2013年
2期
189-194
,共6页
林生岭%文丹%程小芳%刘东瑶
林生嶺%文丹%程小芳%劉東瑤
림생령%문단%정소방%류동요
AgCl/HAP%羟基磷灰石%光催化剂%酸性橙%纳米复合材料
AgCl/HAP%羥基燐灰石%光催化劑%痠性橙%納米複閤材料
AgCl/HAP%간기린회석%광최화제%산성등%납미복합재료
AgCl/HAP%hydroxyapatite%photocatalyst%acid orange%nanocomposites
采用水热合成与离子交换相结合的方法制备了羟基磷灰石负载氯化银( AgCl/HAP)光催化剂.利用扫描电子显微镜(SEM)、X-射线衍射仪(XRD)以及比表面积分析仪(BET)对AgCl/HAP的表面结构和形貌进行了表征.以高压汞灯为光源,研究了催化剂光催化降解酸性橙的性能.结果表明:AgCl能很好地分散于HAP上形成AgCl/HAP复合物,且AgCl的颗粒密度随Ag+负载量的增加而增大.HAP具有中孔结构且负载AgCl后孔径分布范围几乎不变.在紫外光照射条件下,相较于单一的AgCl,复合光催化剂AgCl/HAP对酸性橙的催化性能明显得到提高,其中AgCl/HAP-2对40 mg/L酸性橙的脱色率在120 min时可达84.3%.
採用水熱閤成與離子交換相結閤的方法製備瞭羥基燐灰石負載氯化銀( AgCl/HAP)光催化劑.利用掃描電子顯微鏡(SEM)、X-射線衍射儀(XRD)以及比錶麵積分析儀(BET)對AgCl/HAP的錶麵結構和形貌進行瞭錶徵.以高壓汞燈為光源,研究瞭催化劑光催化降解痠性橙的性能.結果錶明:AgCl能很好地分散于HAP上形成AgCl/HAP複閤物,且AgCl的顆粒密度隨Ag+負載量的增加而增大.HAP具有中孔結構且負載AgCl後孔徑分佈範圍幾乎不變.在紫外光照射條件下,相較于單一的AgCl,複閤光催化劑AgCl/HAP對痠性橙的催化性能明顯得到提高,其中AgCl/HAP-2對40 mg/L痠性橙的脫色率在120 min時可達84.3%.
채용수열합성여리자교환상결합적방법제비료간기린회석부재록화은( AgCl/HAP)광최화제.이용소묘전자현미경(SEM)、X-사선연사의(XRD)이급비표면적분석의(BET)대AgCl/HAP적표면결구화형모진행료표정.이고압홍등위광원,연구료최화제광최화강해산성등적성능.결과표명:AgCl능흔호지분산우HAP상형성AgCl/HAP복합물,차AgCl적과립밀도수Ag+부재량적증가이증대.HAP구유중공결구차부재AgCl후공경분포범위궤호불변.재자외광조사조건하,상교우단일적AgCl,복합광최화제AgCl/HAP대산성등적최화성능명현득도제고,기중AgCl/HAP-2대40 mg/L산성등적탈색솔재120 min시가체84.3%.
AgCl/hydroxyapatite ( HAP) catalysts have been successfully synthesized by hydrothermal and ion-ex-change methods .The surface structure and morphology of the AgCl/HAP were characterized by scanning electron microscope (SEM), X-ray diffraction (XRD) and Brunauer-Emmett-Teller (BET) apparatus.The photocatalytic activity of the catalysts for the degradation of acid orange was investigated under high pressure mercury lamp irra -diation condition .The results suggested that AgCl particles were well dispersed on the hydroxyapatite support and AgCl nanoparticles density was larger for the higher Ag +loading sample .HAP owned mesopores structure and the pore size distributions in mesopores range remained nearly unchanged after silver impregnation .Under ultraviolet light irradiation , AgCl/HAP showed significantly higher photocatalytic activity compared to AgCl particles .The 40 mg/L acid orange decolorization rate on AgCl/HAP-2 were 84.3%at 120 min.
