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Self‐Assembled Fluorescent Chemosensors
Chemistry – A European Journal, 2006AbstractSelf‐assembling and self‐organizing methodologies are powerful tools for the “bottom‐up” approach for the realization of complex structure with functional properties. Recently, this concept has been extended to the design of fluorescent chemosensors providing new exciting potentialities for the development of innovative sensing systems.
Fabrizio Mancin +3 more
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Fluorescent Chemosensor for Chloroalkanes
Organic Letters, 2008Two structurally related macrocyclic amines with naphthalene groups are shown to act as fluorescent dosimeters for reactive chloroalkanes, including the common industrial solvent dichloromethane. The macrocyclic structures contain two NH residues which greatly accelerate N-alkylation by activating the chloride leaving group.
Jung-Jae, Lee +2 more
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Fluorescent chemosensors for Zn2+
Chemical Society Reviews, 2010In the past decade, fluorescent chemosensors for zinc ion (Zn(2+)) have attracted great attention because of the biological significance of zinc combined with the simplicity and high sensitivity of fluorescence assays. Chemosensors can be divided into a fluorophore, a spacer and a receptor unit; the receptor is the central processing unit (CPU) of a ...
Zhaochao, Xu +2 more
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2023
Fluorescent chemosensors have been widely applied in many diverse fields such as biology, physiology, pharmacology, and environmental sciences. The interdisciplinary nature of chemosensor research has continued to grow over the last 25 years to meet the increasing needs of monitoring our environment and health.
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Fluorescent chemosensors have been widely applied in many diverse fields such as biology, physiology, pharmacology, and environmental sciences. The interdisciplinary nature of chemosensor research has continued to grow over the last 25 years to meet the increasing needs of monitoring our environment and health.
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A Supramolecular Microfluidic Optical Chemosensor
Journal of the American Chemical Society, 2002A supramolecular microfluidic optical chemosensor (muFOC) has been fabricated. A serpentine channel has been patterned with a sol-gel film that incorporates a cyclodextrin supramolecule modified with a Tb(3+) macrocycle. Bright emission from the Tb(3+) ion is observed upon exposure of the (mu)FOC to biphenyl in aqueous solution. The signal transduction
Christina M, Rudzinski +2 more
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Template assisted self-organized chemosensors
Inorganica Chimica Acta, 2007The self-organization of fluorescent dyes and receptors on a proper template to form an organized assembly is a new strategy for the realization of fluorescence chemosensors. In the assembly, the two subunits do not interact directly and the communication between the bound substrate and the dye is only determined by their spatial closeness ensured by ...
Maria Arduini +4 more
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Supramolecular Optical Chemosensors for Organic Analytes
ChemInform, 2004AbstractFor Abstract see ChemInform Abstract in Full Text.
Thomas W, Bell, Nicholas M, Hext
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Fluorescent Chemosensors for Phosphates
2023This chapter outlines the development of small-molecule fluorescent chemosensors for phosphate species. Phosphate species are ubiquitous in nature, play diverse roles in biological systems, and display extensive variation in the functionality attached to the phosphate group.
S. M. Butler, K. A. Jolliffe
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Welcome to Fluorescent Chemosensors
2023We would like to welcome you to the wonderful world of fluorescent chemosensors. This book consists of 16 chapters that take you on a journey from receptor-based to reaction-based sensing systems. The quest includes both molecular-based and nanoparticle-based systems that can be used for medical diagnostics, theranostics and environmental sensing ...
Luling Wu +3 more
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2011
Contributors. Preface. SECTION 1 FORCES GOVERNING EXCHANGEABLE INTERACTIONS. 1 van der Waals Interactions and the Hydrophobic Effect (Bruce C. Gibb). 2 Ionic, Hydrogen Bond, and p Cation Interactions (Hector Adam Velazquez and Donald Hamelberg). 3 Covalent Interactions in Chemosensor Design (Yunfeng Cheng, Xiaochuan Yang, and Binghe Wang).
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Contributors. Preface. SECTION 1 FORCES GOVERNING EXCHANGEABLE INTERACTIONS. 1 van der Waals Interactions and the Hydrophobic Effect (Bruce C. Gibb). 2 Ionic, Hydrogen Bond, and p Cation Interactions (Hector Adam Velazquez and Donald Hamelberg). 3 Covalent Interactions in Chemosensor Design (Yunfeng Cheng, Xiaochuan Yang, and Binghe Wang).
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