1) UV spectral titration
差紫外光谱
2) UV Difference Spectra
紫外差光谱
1.
The Effect of Acidity on UV Difference Spectra of HBED and EHPG;
酸度对模拟转铁蛋白小分子紫外差光谱的影响
2.
The binding of Lu(Ⅲ) to HBED or EHPG were monitored by UV difference spectra in 0.
01mol·L-1Hepes及室温条件下,通过监测215~330nm范围内紫外差光谱的变化进行了Lu(Ⅲ)对N,N′ 二(2 羟苄基)乙二胺 N,N′ 二乙酸(HBED)、N,N′ 乙烯 二(2 羟基苄基)苷氨酸(EHPG)的滴定。
3.
The UV difference spectra of Me 2SnCl 2 with apo-ovotransferrin were studied in 4 mmol/L NaH 2PO 4-100 mmol/L NaCl-25 mmol/L NaHCO 3 buffer solution(pH7.
4)和 2 98K条件下 ,用紫外差光谱研究了 Me2 Sn Cl2 与脱铁伴清蛋白的作用。
3) UV difference spectrum
紫外差光谱
1.
The binding of metolachlor and S Isomer to urease in aqueous solution was studied using UV difference spectrum and fluorescence spectrum.
应用紫外差光谱和荧光光谱法研究了水溶液中酰胺类除草剂异丙甲草胺及其S 异构体与脲酶分子间的相互作用。
2.
The binding of acetochor, pretilachor, butachlor and metolachlor to urease in aqueous solution was studied using UV difference spectrum and fluorescence spectrum methods.
应用紫外差光谱和荧光光谱法研究了水溶液中酰胺类除草剂乙草胺、丙草胺、丁草胺、异丙甲草胺与脲酶分子间的相互作用。
3.
By the UV difference spectrum and fluorescence spectrum technique, the influence of atrazine on tyrosine environment of catalase was studied.
应用紫外差光谱和荧光光谱研究了除草剂莠去津对过氧化氢酶中酪氨酸微区的影响 。
4) UV-Vis spectral titration
差紫外光谱法
5) UV spectral titration
差紫外光谱法
6) UV difference spectra
紫外吸收差光谱
1.
4, the interaction of ethylene-N, N’-bis(o-hydioxyphenylglycine) (EHPG) and Mn(Ⅱ) was investigated by both fluorescence and UV difference spectra.
05mol·L-1N-2-羟乙基哌嗪-N’-2-乙磺酸(Hepes)及室温条件下,用荧光光谱和紫外吸收差光谱进行了Mn(Ⅱ)与N,N’-乙烯-二[2-(2-羟基苯基)甘氨酸](EHPG)相互作用的研究。
补充资料:紫外光谱
分子式:
CAS号:
性质:电磁波谱中紫外波段范围内的发射及吸收光谱,波段从10nm至380nm。为原子外层电子跃迁,能量在1~20eV。吸收光谱不仅用于无机物定性、定量分析;主要用于有机物的鉴定及结构分析,还可对同分异构体进行鉴别。
CAS号:
性质:电磁波谱中紫外波段范围内的发射及吸收光谱,波段从10nm至380nm。为原子外层电子跃迁,能量在1~20eV。吸收光谱不仅用于无机物定性、定量分析;主要用于有机物的鉴定及结构分析,还可对同分异构体进行鉴别。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条