摘要
10mg/mL硝化纤维 5 8 2mg/mL甘油 3mL丙酮 3mL苯体系为白色不透明体系 ;6 7mg/mL硝化纤维38 9mg/mL甘油 3mL丙酮 6mL苯纳米微滴体系呈黄紫色 ;5 7mg/mL硝化纤维 33 3mg/mL甘油 3mL丙酮7 5mL苯纳米微滴体系呈红紫色 ;5 0mg/mL硝化纤维 2 9 1mg/mL甘油 3mL丙酮 9 0mL苯纳米微滴体系呈蓝紫色 .它们具有不同的紫外吸收光谱和共振散射光谱 .由紫外吸收光谱无法确定纳米微滴的颜色 ,而共振散射光谱可判定纳米微滴的颜色 .
An opacity emulsion of 10 mg/mL nitrocellulose 58 2 mg/mL glycerin 3mL acetone 3 mL benzene with white, a nanodrop system of 6 7 mg/mL nitrocellulose 38 9mg/mL glycerin 3mL accetone 6mL benzene yellow and purple color, 5 7 mg/mL nitrocellulose 33 3 mg/mL glycerin 3mL accetone 7 5mLbenzene system with red and purple , and 5 0 mg/mL nitrocellulose 29 1 mg/mL glycerin 3mLacetone 9 0mL benzene system with blue and purple have been prepared. They exhibit different absorption spectra and resonance scattering spectra. The color nanodrops have commentated according to the principle of interface spramolecular energy.
出处
《西南师范大学学报(自然科学版)》
CAS
CSCD
北大核心
2002年第3期355-360,共6页
Journal of Southwest China Normal University(Natural Science Edition)
基金
国家自然科学基金项目 (2 0 175 0 18)
广西自然科学基金资助项目 (112 0 0 6)
重庆市应用基础基金资助项目
