发光学报
髮光學報
발광학보
CHINESE JOURNAL OF LUMINESCENCE
2009年
3期
275-284
,共10页
吴红梅%何成%王健%周硼
吳紅梅%何成%王健%週硼
오홍매%하성%왕건%주붕
荧光传感器%Zn2+%水解%选择性
熒光傳感器%Zn2+%水解%選擇性
형광전감기%Zn2+%수해%선택성
fluorescent sensor%Zn2+%hydrolysis%selectivity
合成了一种新颖的锌离子荧光探针N′(2-羟基苄基)-4-(2-羟基苯亚甲基胺)-苯甲酰肼(HHB),该探针本身的荧光较弱,但当它与Zn2+配位时荧光增强,在475 nm处产生一较宽的发射光谱,量子产率f=0.59 (λex=370 nm).该化合物对Zn2+具有良好的选择性能,环境生物体系中大量存在的碱金属和碱土金属离子K+,Na+,Mg2+和Ca2+以及过渡金属离子Mn2+,Co2+,Ni2+ 和 Cu2+ 等对Zn2+的检测没有明显影响.在生命体系的pH值范围(6.8~7.7),配合物HHB显示出对Zn2+检测较高的灵敏度.作为比较文中还研究了HHB水解的主要产物4-氨基苄腙-水杨醛(HB)对Zn2+的识别与传感性能.
閤成瞭一種新穎的鋅離子熒光探針N′(2-羥基芐基)-4-(2-羥基苯亞甲基胺)-苯甲酰肼(HHB),該探針本身的熒光較弱,但噹它與Zn2+配位時熒光增彊,在475 nm處產生一較寬的髮射光譜,量子產率f=0.59 (λex=370 nm).該化閤物對Zn2+具有良好的選擇性能,環境生物體繫中大量存在的堿金屬和堿土金屬離子K+,Na+,Mg2+和Ca2+以及過渡金屬離子Mn2+,Co2+,Ni2+ 和 Cu2+ 等對Zn2+的檢測沒有明顯影響.在生命體繫的pH值範圍(6.8~7.7),配閤物HHB顯示齣對Zn2+檢測較高的靈敏度.作為比較文中還研究瞭HHB水解的主要產物4-氨基芐腙-水楊醛(HB)對Zn2+的識彆與傳感性能.
합성료일충신영적자리자형광탐침N′(2-간기변기)-4-(2-간기분아갑기알)-분갑선정(HHB),해탐침본신적형광교약,단당타여Zn2+배위시형광증강,재475 nm처산생일교관적발사광보,양자산솔f=0.59 (λex=370 nm).해화합물대Zn2+구유량호적선택성능,배경생물체계중대량존재적감금속화감토금속리자K+,Na+,Mg2+화Ca2+이급과도금속리자Mn2+,Co2+,Ni2+ 화 Cu2+ 등대Zn2+적검측몰유명현영향.재생명체계적pH치범위(6.8~7.7),배합물HHB현시출대Zn2+검측교고적령민도.작위비교문중환연구료HHB수해적주요산물4-안기변종-수양철(HB)대Zn2+적식별여전감성능.
A new selective Zn2+ fluorescent sensor, N′-(2-hydroxybenzylidene)-4-(2-hydroxy-benzylidene-amino) benzohydrazide (HHB), was synthesized. With the harbored 2-hydroxybenzylidene group, HHB exhibits an emission band centered at 475 nm with high quantum yield (f= 0.59) upon the addition of zinc ions. It features excellent fluorescence enhancement and provides favorable sensitivity for Zn2+ detection under the biological pH window of 6.8~7.7, and high selectivity for Zn2+ over biologically relevant alkali metals, alkaline earth metals and some of the first row transition metal. It works through the metal-assisted hydrolysis mechanism, and the hydrolysis residue sensor HB, salicylaldehyde-4-aminobenzoylhydrazone, was also investigated for comparison.
