化学通报(网络版)
化學通報(網絡版)
화학통보(망락판)
Chemistry Online
2009年
1期
1-7
,共7页
郭艳珍%张西沙%张俊林%秦瑞红%陈亚静%李宏平*
郭豔珍%張西沙%張俊林%秦瑞紅%陳亞靜%李宏平*
곽염진%장서사%장준림%진서홍%진아정%리굉평*
气体膨胀液体%纳米微粒%微粒制备
氣體膨脹液體%納米微粒%微粒製備
기체팽창액체%납미미립%미립제비
Gas expanded liquids%Nanoparticle%Particle formation
近年来,利用气体膨胀液体的相行为已经开发了许多气体膨胀液体微粒制备方法,并已在制备无机、有机材料、有机金属固体、医药、电子等方面的微细颗粒方面得到广泛应用.本文介绍了气体膨胀液体制备纳米颗粒的研究和应用进展.
近年來,利用氣體膨脹液體的相行為已經開髮瞭許多氣體膨脹液體微粒製備方法,併已在製備無機、有機材料、有機金屬固體、醫藥、電子等方麵的微細顆粒方麵得到廣汎應用.本文介紹瞭氣體膨脹液體製備納米顆粒的研究和應用進展.
근년래,이용기체팽창액체적상행위이경개발료허다기체팽창액체미립제비방법,병이재제비무궤、유궤재료、유궤금속고체、의약、전자등방면적미세과립방면득도엄범응용.본문개소료기체팽창액체제비납미과립적연구화응용진전.
A variety of methods for the preparation of nanoparticles from organic, inorganic, or organometallic solids have been developed based upon the phase behavior of gas expanded liquids. Gas expanded liquids can be used to produce nanoparticles related to inorganic materials, organic materials, medicines and microelectronic materials. The new particle formation methods related with gas expanded liquids based technique and their applications are reviewed and discussed in this paper.
