南华大学学报(自然科学版)
南華大學學報(自然科學版)
남화대학학보(자연과학판)
JOURNAL OF NANHUA UNIVERSITY(SCIENCE AND TECHNOLOGY)
2015年
2期
114-117
,共4页
秦邦%赵玉宝%张娜%樊造%邱亮
秦邦%趙玉寶%張娜%樊造%邱亮
진방%조옥보%장나%번조%구량
硫化铜%六价铬%光催化还原
硫化銅%六價鉻%光催化還原
류화동%륙개락%광최화환원
copper sulphide%Cr( VI)%photocatalytic reduction
合成了片状、球状、花状、管状的 CuS,在可见光照射下,其光催化还原 Cr ( VI)研究的结果表明:CuS的比表面积越大,光催化还原活性越好,活性顺序为片状>管状>花状>球状。
閤成瞭片狀、毬狀、花狀、管狀的 CuS,在可見光照射下,其光催化還原 Cr ( VI)研究的結果錶明:CuS的比錶麵積越大,光催化還原活性越好,活性順序為片狀>管狀>花狀>毬狀。
합성료편상、구상、화상、관상적 CuS,재가견광조사하,기광최화환원 Cr ( VI)연구적결과표명:CuS적비표면적월대,광최화환원활성월호,활성순서위편상>관상>화상>구상。
CuS nanoplates, spheres, flower and tubes were prepared and evaluated in the reduction of hexavalent chromium under visible light irradiation. Results reveal that CuS architectures with high surface area exhibit high and stable photocatalytic performance for reduction of Cr ( VI ) and the activity order of CuS with different morphologies follows plate>tube>flower>sphere.
