A Study on the Interaction between New Indole Amide Compound and Aluminum(III) Ion
暂无分享,去创建一个
Li Xu | Weina Jiang | Jichao Chen | Shilong Yang | Wen Lu | Xu Sun | Jiuzhou Shi | Huayu Xue | Jiuzhou Shi
[1] Duxia Cao,et al. Indole derivatives for cyanide detection based on nucleophilic addition and hydrogen-bond interaction , 2018, Journal of Molecular Structure.
[2] Weihua Zhu,et al. Core-modified rubyrins with phenanthrene-fused pyrrole rings: Highly selective and tunable response to Hg2+ ions , 2018, Dyes and Pigments.
[3] G. Jiang,et al. Toward a highly sensitive and selective indole-rhodamine-based light-up probe for Hg2+ and its application in living cells , 2017 .
[4] Sabyasachi Ta,et al. Pyridine-antipyrine appended indole derivative for selective recognition of Fe3+: Concentration dependent coloration. , 2017, Spectrochimica acta. Part A, Molecular and biomolecular spectroscopy.
[5] Fangying Wu,et al. Ultrasensitive turn-on fluorescence detection of Cu2+ based on p-dimethylaminobenzamide derivative and the application to cell imaging. , 2017, Spectrochimica acta. Part A, Molecular and biomolecular spectroscopy.
[6] Liting Du,et al. A highly sensitive and selective fluorescent sensor for detection of copper ions based on natural Isorhamnetin from Ginkgo leaves , 2016 .
[7] Tuğrul Doruk,et al. Naked-eye fluorescent sensor for Cu(II) based on indole conjugate BODIPY dye , 2016 .
[8] Ashok Kumar,et al. Indole-based distinctive chemosensors for ‘naked-eye’ detection of CN and HSO4−, associated with hydrogen-bonded complex and their DFT study , 2016 .
[9] K. Ashish,et al. Indole-based distinctive chemosensors for ‘naked-eye’ detection of CN and HSO4−, associated with hydrogen-bonded complex and their DFT study , 2016 .
[10] Liting Du,et al. A natural quercetin-based fluorescent sensor for highly sensitive and selective detection of copper ions , 2015 .
[11] Junhua Zheng,et al. Combination of quercetin and hyperoside has anticancer effects on renal cancer cells through inhibition of oncogenic microRNA-27a. , 2014, Oncology reports.
[12] X. Bu,et al. Two new indole derivatives as anion receptors for detecting fluoride ion , 2013 .
[13] X. Bu,et al. A new ion pair receptor fulfilling a dual function as a chromogenic molecular switch for F- and ratiometric selective recognition of HSO4(-). , 2012, Talanta.
[14] X. Bu,et al. New highly selective colorimetric and ratiometric anion receptor for detecting fluoride ions. , 2012, Chemistry.
[15] Ming Dong,et al. A unique water-tuning dual-channel fluorescence-enhanced sensor for aluminum ions based on a hybrid ligand from a 1,1'-binaphthyl scaffold and an amino acid. , 2010, Chemistry.
[16] W. Xing,et al. Effects of chronic aluminum exposure on memory through multiple signal transduction pathways. , 2010, Environmental toxicology and pharmacology.
[17] C. Guo,et al. Aluminum accumulation induced testicular oxidative stress and altered selenium metabolism in mice. , 2009, Environmental toxicology and pharmacology.
[18] I. Beletskaya,et al. Diaminoanthraquinone-linked polyazamacrocycles: efficient and simple colorimetric sensor for lead ion in aqueous solution. , 2009, Organic Letters.
[19] M. Yousef,et al. Aluminium-induced deterioration in reproductive performance and seminal plasma biochemistry of male rabbits: protective role of ascorbic acid. , 2005, Toxicology.
[20] K. Kavallieratos,et al. Fluorescent sensing and selective Pb(II) extraction by a dansylamide ion-exchanger. , 2005, Journal of the American Chemical Society.
[21] C. Weaver,et al. Aluminum negatively impacts calcium utilization and bone in calcium-deficient rats , 2004 .
[22] A. Michno,et al. Differential toxicity of nitric oxide, aluminum, and amyloid β-peptide in SN56 cholinergic cells from mouse septum , 2003, Neurochemistry International.
[23] M. Bugiani,et al. Neurotoxic effects of aluminium among foundry workers and Alzheimer's disease. , 2002, Neurotoxicology.
[24] A. Shenkin,et al. In-vitro studies of aluminium-induced toxicity on kidney proximal tubular cells. , 2001, Journal of inorganic biochemistry.
[25] W. Lukiw. Chapter 7 – Aluminum and Gene Transcription in the Mammalian Central Nervous System — Implications for Alzheimer's Disease , 2001 .
[26] J. Scott,et al. A simple method for the direct bis-acylation of the primary amino groups in spermidine and other linear triamines , 1985 .