Base Sensor(基础传感器)研究综述
Base Sensor 基础传感器 - Thus, all of our conclusions support the potential applicability of the Ti2CO2 MXene as a suitable nucleobase sensor. [1] This paper mainly studies the application of carbon-based nanomaterials in acid-base sensors. [2] Silicene is a highly sensitive for numerous sensors based on molecular sensing as pH sensor, gas sensor, ion sensor and biosensing are Deoxyribonucleic acid (DNA) nucleobase sensor, photonic sensor, cell-based biosensor, glucose sensor, and bioelectric nose sensor. [3] Soluble adenylyl cyclase (sAC) is a HCO3 −-stimulated enzyme that produces the ubiquitous signalling molecule cAMP, and deemed an evolutionarily conserved acid–base sensor. [4] Stokes shift shows a good linear relationship with −log [H+], which makes them become promising acid–base sensors. [5]因此,我们的所有结论都支持 Ti2CO2 MXene 作为合适的核碱基传感器的潜在适用性。 [1] 本文主要研究碳基纳米材料在酸碱传感器中的应用。 [2] 硅烯对许多基于分子传感的传感器具有高度敏感性,例如 pH 传感器、气体传感器、离子传感器和生物传感,包括脱氧核糖核酸 (DNA) 核碱基传感器、光子传感器、基于细胞的生物传感器、葡萄糖传感器和生物电鼻传感器。 [3] 可溶性腺苷酸环化酶 (sAC) 是一种 HCO3 - 刺激的酶,可产生普遍存在的信号分子 cAMP,并被认为是进化上保守的酸碱传感器。 [4] 斯托克斯位移与 -log [H+] 具有良好的线性关系,这使得它们成为有前途的酸碱传感器。 [5]
Schiff Base Sensor 席夫碱传感器
A new efficient Schiff base sensor SB3 for fluorescent and colorimetric "naked-eye" "turn-on" sensing of cyanide anion (CN-) with excellent sensitivity and selectivity was developed. [1] A quinoline-based Schiff base sensor, 6-methyl-2-oxo-1,2-dihydro-quinoline-3-carboxaldehyde-4(N)-phenylsemicarbazone (6MPS), has been developed for selective sensing of methionine and aspartic acid in aqueous medium through "on-off-on" type selective detection of copper ion. [2] A novel Schiff base sensor with the phenyl-ethynyl-phenyl system was designed and synthesized. [3] A naturally occurring nitrogen heterocycle-based Schiff base sensor 8-methyl-2-oxo-1,2-dihydroquinoline-3-carboxaldehyde-4N-phenylsemicarbazone (8MPS) was synthesized; a highly sensitive and selective “on–off–on” chemosensor for aspartic acid in aqueous solution was established. [4] Two novel and potential Schiff base sensor compounds were synthesized by the one pot condensation method starting from 2-hydroxy-1-naphthaldehyde. [5] A new oligothiophene functionalized Schiff base sensor 3TDC has been successfully designed and synthesized. [6] A novel coumarin based Schiff base sensor probe 1, was synthesized and structural elucidation was carried out by FTIR, UV–vis, 1H and 13C NMR and MS spectroscopy. [7]开发了一种新型高效席夫碱传感器 SB3,用于荧光和比色“裸眼”“开启”传感氰化物阴离子 (CN-),具有出色的灵敏度和选择性。 [1] 已开发出基于喹啉的席夫碱传感器 6-methyl-2-oxo-1,2-dihydro-quinoline-3-carboxaldehyde-4(N)-phenylsemicarbazone (6MPS),用于选择性传感蛋氨酸和天冬氨酸水介质通过“on-off-on”型选择性检测铜离子。 [2] 设计并合成了一种具有苯基-乙炔基-苯基体系的新型席夫碱传感器。 [3] 合成了一种天然存在的氮杂环基席夫碱传感器 8-methyl-2-oxo-1,2-dihydroquinoline-3-carboxaldehyde-4N-phenylsemicarbazone (8MPS);建立了一种用于水溶液中天冬氨酸的高灵敏度和选择性“开-关-开”化学传感器。 [4] 以2-羟基-1-萘醛为原料,采用一锅缩合法合成了两种新型且具有潜力的席夫碱传感器化合物。 [5] 成功设计合成了一种新型低聚噻吩功能化席夫碱传感器3TDC。 [6] 合成了一种基于香豆素的新型席夫碱传感器探针 1,并通过 FTIR、UV-vis、1H 和 13C NMR 和 MS 光谱进行了结构解析。 [7]