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Fluorescent Chemosensors for Ion and Molecule Recognition

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Fluorescent Chemosensors for Ion and Molecule Recognition
The front cover of the first edition of the Fluorescent Chemosensors for Ion and Molecule Recognition
EditorAnthony Czarnik
Author
Illustrator
CountryUSA
LanguageEnglish
SubjectBiochemistry
GenreNon-fiction
PublisherACS Publications
Publication date
1993
Media typePrint and online
Pages226 pp.
ISBN978-0841227286 Search this book on .

Fluorescent Chemosensors for Ion and Molecule Recognition is a book co-written by many authors concerning fluorescent chemosensors and, in particular, molecular structures' ability to detect analytes. The book was first published by the American Chemical Society in 1993.

Background[edit]

The concept of the fluorescent chemosensors or molecular structures' ability to detect analytes was substantially developed in the book Fluorescent Chemosensors for Ion and Molecule Recognition co-authored by many scientists including Prof. Amilra Prasanna de Silva and J.P. Desvergne, among others. As the Instrumentation Science & Technology cites in the book review: "The volume was developed from a symposium and sponsored by the Division of Organic Chemistry of the American Chemical Society at the 204th National Meeting of the A.C.S. in Washington, DC. August 23-28, 1992."[1] [2][3]

Contents and structure of the book[edit]

The book's study is mostly dedicated to the analysis of the fluorescent chemosensors' chemical structures and their applications and technical uses in various fields of science and everyday life.[1] The book is arranged in thirteen chapters plus a preface. Each chapter examines analytes' interaction in various chemical reactions and their potential use of biosensors in the real-time conditions. The book was edited by Anthnony Czarnik, the founding editor of ACS Combinatorial Science, who also contributed to the Preface and Chapters 1 and 8.[2] The book had gone through several editions.

Recognition[edit]

The book laid foundation to other publications on chemosensors[4][5] and gained recognition and critical attention of the scientists community with some of the scientists defining its contributions "significant"[4][6] and "pioneering in the field of fluorescent chemosensors"[7][8][9] "with a positive consequence on the creative pursuit of libraries of new molecules for a range of analyte targets".[10]

Eventually, chemosensors found applications in everyday life and in various areas such as in chemistry, biochemistry, immunology, physiology, medicine[11][12][13][14][15] and even in the military domain of land mines detection.[16]

References[edit]

  1. 1.0 1.1 "Fluorescent Chemosensors for Ion and Molecule Recognition Book Review". Instrumentation Science & Technology (Volume 22, 1994 - Issue 4). doi:10.1080/10739149408001201.
  2. 2.0 2.1 Fluorescent Chemosensors for Ion and Molecule Recognition. ACS Symposium Series. 538. American Chemical Society Publications. 1993. doi:10.1021/bk-1993-0538. ISBN 9780841227286. Search this book on
  3. "Fluorescent chemosensors for ion and molecule recognition". Google Scholar's citations.
  4. 4.0 4.1 "Special Issue "Chemosensors and Their Application in Cell Imaging Studies" by Dr. Atanu Jana". MDPI.
  5. Desvergne, J. P; Czarnik, A. W, eds. (1997). Chemosensors of Ion and Molecule Recognition. NATO ASI Series. doi:10.1007/978-94-011-3973-1. ISBN 978-94-010-5759-2. Search this book on
  6. "'Chemosensors and Molecular Logic' themed collection". Royal Society of Chemistry.
  7. "Themed collection - Chemosensors and Molecular Logic". Royal Society of Chemistry.
  8. "Chemosensors by Tony James". European Chemical Societies Publishing. doi:10.1002/(ISSN)2191-1363.
  9. "Themed collection on chemosensors and molecular logic". University of Malta.
  10. "Recent Progress on the Evolution of Pourbaix Sensors: Molecular Logic Gates for Protons and Oxidants". MDPI.
  11. "The SMSI "Implant-Once-Read-Many" Real-Time Glucose Sensor". NASA.
  12. F., Callan, J.; P., de Silva, A.; C., Magri, D. (2005). "Luminescent sensors and switches in the early 21st century". Tetrahedron. 61 (36): 8551–8588. doi:10.1016/j.tet.2005.05.043. ISSN 0040-4020.
  13. de Silva, A. P.; Fox, D. B.; Moody, T. S.; Weir, S. M. (January 2001). "The development of molecular fluorescent switches". Trends in Biotechnology. 19 (1): 29–34. doi:10.1016/S0167-7799(00)01513-4. ISSN 0167-7799. PMID 11146100.
  14. Supramolecular chemistry : from molecules to nanomaterials. Chichester, West Sussex: Wiley. 2012. ISBN 9780470746400. OCLC 753634033. Search this book on
  15. Fabbrizzi, Luigi; Licchelli, Maurizio; Pallavicini, Piersandro (1999-10-01). "Transition Metals as Switches". Accounts of Chemical Research. 32 (10): 846–853. doi:10.1021/ar990013l. ISSN 0001-4842.
  16. "A sense for landmines". Nature.


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