广东化工
廣東化工
엄동화공
GUANGDONG CHEMICAL INDUSTRY
2013年
8期
10
,共1页
纳米材料%空心结构%金属配合物
納米材料%空心結構%金屬配閤物
납미재료%공심결구%금속배합물
nanomaterials%hollow structure%metal complexes
空心纳米材料作为一种新型纳米材料,因其特殊的空壳结构引起了人们的广泛关注,在药物、催化剂等领域具有广泛的应用前景.电子显微镜是研究这些新型纳米材料不可或缺的手段.文章利用了透射电子显微镜对草酸锌、草酸镁金属配合物纳米材料的空心结构和外观形貌进行了观察和表征,并清晰地确定了这种新材料的特殊空心结构.
空心納米材料作為一種新型納米材料,因其特殊的空殼結構引起瞭人們的廣汎關註,在藥物、催化劑等領域具有廣汎的應用前景.電子顯微鏡是研究這些新型納米材料不可或缺的手段.文章利用瞭透射電子顯微鏡對草痠鋅、草痠鎂金屬配閤物納米材料的空心結構和外觀形貌進行瞭觀察和錶徵,併清晰地確定瞭這種新材料的特殊空心結構.
공심납미재료작위일충신형납미재료,인기특수적공각결구인기료인문적엄범관주,재약물、최화제등영역구유엄범적응용전경.전자현미경시연구저사신형납미재료불가혹결적수단.문장이용료투사전자현미경대초산자、초산미금속배합물납미재료적공심결구화외관형모진행료관찰화표정,병청석지학정료저충신재료적특수공심결구.
As a new type of nanomaterials, hollow nanomaterials has aroused extensive attention because of its special shell structure and has wide application prospect in medicine and catalysis. It is an indispensable means for these novel nanomaterials to study the microstructure using electron microscopy. In the paper, the hollow structure and morphology of oxalic zinc, oxalic magnesium metal complex nanomaterials was observed and charaterized by the transmission electron microscopy. The special hollow structure of metal complex nanomaterials were clearly identified by the electron microscopy.