中国科学技术大学学报
中國科學技術大學學報
중국과학기술대학학보
JOURNAL OF UNIVERSITY OF SCIENCE AND TECHNOLOGY OF CHINA
2002年
3期
277-282
,共6页
雷志斌%柯燕雄%马少红%李健民%张玉根
雷誌斌%柯燕雄%馬少紅%李健民%張玉根
뢰지빈%가연웅%마소홍%리건민%장옥근
硫化铜%模板合成%有序大孔材料%结构稳定性
硫化銅%模闆閤成%有序大孔材料%結構穩定性
류화동%모판합성%유서대공재료%결구은정성
copper sulfide%template synthesis%ordered macroporous materials%structure stability
利用单分散的SiO2球构成的胶态晶体为模板,通过简单的化学沉积方法,在室温到160℃的比较温和的条件呀合成了三维周期性的大孔径CuS,同时研究了构成其骨架的孔壁对热和超声的稳定性.
利用單分散的SiO2毬構成的膠態晶體為模闆,通過簡單的化學沉積方法,在室溫到160℃的比較溫和的條件呀閤成瞭三維週期性的大孔徑CuS,同時研究瞭構成其骨架的孔壁對熱和超聲的穩定性.
이용단분산적SiO2구구성적효태정체위모판,통과간단적화학침적방법,재실온도160℃적비교온화적조건하합성료삼유주기성적대공경CuS,동시연구료구성기골가적공벽대열화초성적은정성.
Spatially periodic macroporous cop shrinkage has been fabricated by chemical deposition in a wide temperature range from the ambient condition to at least 160℃ using SiO2 spheres as template; the wall structure and the stability of honeycomb framework to heat and ultrasonic treatment were also investigated.
