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Books on the topic 'Fluorescence properties'

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Published: 20 April 2024

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1

Haunton, Kathleen Mary. The fluorescence properties of irradiated polymers. Uxbridge: Brunel University, 1992.

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2

N, Berberan-Santos M., ed. Fluorescence of supermolecules, polymers, and nanosystems. Berlin: Springer, 2008.

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3

Simpson, W. S. Fluorescence properties of wool and other animal fibres. Christchurch: Wronz, 1992.

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4

Berberan-Santos, Mario N., and Alberto U. Acun a. Fluorescence of supermolecules, polymers, and nanosystems. Berlin: Springer, 2010.

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5

V, Tuchin V., European Optical Society, Society of Photo-optical Instrumentation Engineers., European Laser Association, and Netherlands Medical Laser Association, eds. Controlling tissue optical properties: Applications in clinical study : 5-6 July 2000, Amsterdam, Netherlands. Bellingham, Wash., USA: SPIE, 2000.

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6

J, Bigio Irving, European Optical Society, Society of Photo-optical Instrumentation Engineers., European Laser Association, and Netherlands Medical Laser Association, eds. Optical biopsy and tissue optics: 5-6 July 2000, Amsterdam, Netherlands. Bellingham, Wash., USA: SPIE, 2000.

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7

Kubicki, Jacek. Spektralne i fotofizyczne właściwości wzbudzonych cząsteczek i krótko żyjących indywiduów przejściowych na przykładzie tioketonów i zasad Schiffa: Spectral and photophysical properties of tioketones and Schiff bases : excited molecules and transient species. Poznań: Wydawnictwo Naukowe Uniwersytetu im. Adama Mickiewicza, 2008.

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8

United States. National Aeronautics and Space Administration., ed. Bio-optical properties of the Arabian Sea as determined by in situ and Sea WiFS data: Final report prepared under NASA grant NAGW-2154, 1 February 1993 - 30 April 1997. San Diego, CA: CHORS, Center for Hydro-Optics & Remote Sensing, San Diego State University, 1997.

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9

United States. National Aeronautics and Space Administration., ed. Bio-optical properties of the Arabian Sea as determined by in situ and Sea WiFS data: Final report prepared under NASA grant NAGW-2154, 1 February 1993 - 30 April 1997. San Diego, CA: CHORS, Center for Hydro-Optics & Remote Sensing, San Diego State University, 1997.

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10

1941-, Alfano Robert R., International Biomedical Optics Society, and Society of Photo-optical Instrumentation Engineers., eds. Optical biopsy III: 23-24 January 2000, San Jose, California. Bellingham, Wash., USA: SPIE, 2000.

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11

1941-, Alfano Robert R., and Society of Photo-optical Instrumentation Engineers., eds. Optical biopsy IV: 21-23 January 2002, San Jose, USA. Bellingham, Wash., USA: SPIE, 2002.

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12

Martin, Chalfie, and Kain Steven, eds. Green fluorescent protein: Properties, applications, and protocols. New York: Wiley-Liss, 1998.

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13

Martin, Chalfie, and Kain Steven, eds. Green fluorescent protein: Properties, applications, and protocols. 2nd ed. Hoboken, N.J: Wiley-Interscience, 2006.

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14

Goolamali, Zia. The design, synthesis, and spectral properties of fluorescent probes for potassium. Uxbridge: Brunel University, 1993.

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15

Owen, Hywel Leroy. Physical properties of organosiloxane ferroelectric liquid crystals and fluorescent dyes for electro-optic device applications. Manchester: University of Manchester, 1995.

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16

(Editor), Martin Chalfie, and Steven R. Kain (Editor), eds. Green Fluorescent Protein: Properties, Applications, and Protocols. Wiley-Liss, 1998.

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17

Berberan-Santos, Mario N. Fluorescence of Supermolecules, Polymers, and Nanosystems. Springer London, Limited, 2007.

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18

(Editor), Alfons Hoekstra, Valeri Maltsev (Editor), and Gorden Videen (Editor), eds. Optics of Biological Particles (NATO Science Series II: Mathematics, Physics and Chemistry). Springer, 2007.

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19

Bio-optical properties of the Arabian Sea as determined by in situ and Sea WiFS data: Final report prepared under NASA grant NAGW-2154, 1 February 1993 - 30 April 1997. San Diego, CA: CHORS, Center for Hydro-Optics & Remote Sensing, San Diego State University, 1997.

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20

Bio-optical properties of the Arabian Sea as determined by in situ and Sea WiFS data: Final report prepared under NASA grant NAGW-2154, 1 February 1993 - 30 April 1997. San Diego, CA: CHORS, Center for Hydro-Optics & Remote Sensing, San Diego State University, 1997.

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21

Optical biopsy V: 27-28 January 2004, San Jose, USA. Bellingham, Wash: SPIE, 2004.

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22

Optical biopsy V: 27-28 January 2004, San Jose, California, USA. Bellingham, WA: SPIE, 2004.

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23

Alfano, Robert, and Alvin Katz. Optical Biopsy VI: 24 January 2006, San Jose, California, USA. SPIE, 2008.

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24

Chalfie, Martin, and Steven R. Kain. Green Fluorescent Protein: Properties, Applications and Protocols. Wiley & Sons, Incorporated, John, 2008.

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25

Chalfie, Martin, and Steven R. Kain. Green Fluorescent Protein: Properties, Applications and Protocols. Wiley & Sons, Incorporated, John, 2005.

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26

Zrazhevskiy, P., and X. Gao. Bioconjugated quantum dots for tumor molecular imaging and profiling. Edited by A. V. Narlikar and Y. Y. Fu. Oxford University Press, 2017. http://dx.doi.org/10.1093/oxfordhb/9780199533060.013.17.

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This article discusses the use of bioconjugated quantum dots (QDs) for tumor molecular imaging and profiling. The need for personalized diagnostics and therapy is becoming apparent in all areas of medicine, and especially urgent and sought after in treating cancer. Mechanisms of cancerogenesis and cancer response to therapy remain poorly understood, thus precluding accurate cancer diagnosis, prognosis, and effective treatment. Accurate molecular profiling of individual tumors is one key to effective treatment. This article first considers the photophysical properties of QDs before reviewing the most common methods for engineering QD-based probes for biomedical applications, including water solubilization and bioconjugation approaches. It also describes a number of techniques for molecular imagingand profiling of tumors, ranging from QD-based multicolor flow cytometry and applications of QDs in high-resolution correlated fluorescence/electron microscopy, QD bioprobes for molecular profiling of tumor-tissue sections and microarrays, and QD-oligonucleotide bioconjugates for in-situ hybridization.
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27

Kist, Tarso B. Ledur. Fluorescent Dye Labels and Stains: A Database of Photophysical Properties. Wiley & Sons, Incorporated, John, 2023.

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28

Kist, Tarso B. Ledur. Fluorescent Dye Labels and Stains: A Database of Photophysical Properties. Wiley & Sons, Incorporated, John, 2023.

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29

Kist, Tarso B. Ledur. Fluorescent Dye Labels and Stains: A Database of Photophysical Properties. Wiley & Sons, Limited, John, 2021.

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30

Fluorescent Dye Labels and Stains: A Database of P Hotophysical Properties. Wiley & Sons, Limited, John, 2023.

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31

Green Fluorescent Protein: Properties, Applications, And Protocols (Methods of Biochemical Analysis). 2nd ed. John Wiley & Sons, 2005.

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32

(Editor), Martin Chalfie, and Steven R. Kain (Editor), eds. Green Fluorescent Protein: Properties, Applications and Protocols (Methods of Biochemical Analysis, Vol 47) (Methods of Biochemical Analysis). Wiley-Liss, 2005.

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33

Bensimon, David, Vincent Croquette, Jean-François Allemand, Xavier Michalet, and Terence Strick. Single-Molecule Studies of Nucleic Acids and Their Proteins. Oxford University Press, 2018. http://dx.doi.org/10.1093/oso/9780198530923.001.0001.

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This book presents a comprehensive overview of the foundations of single-molecule studies, based on manipulation of the molecules and observation of these with fluorescent probes. It first discusses the forces present at the single-molecule scale, the methods to manipulate them, and their pros and cons. It goes on to present an introduction to single-molecule fluorescent studies based on a quantum description of absorption and emission of radiation due to Einstein. Various considerations in the study of single molecules are introduced (including signal to noise, non-radiative decay, triplet states, etc.) and some novel super-resolution methods are sketched. The elastic and dynamic properties of polymers, their relation to experiments on DNA and RNA, and the structural transitions observed in those molecules upon stretching, twisting, and unzipping are presented. The use of these single-molecule approaches for the investigation of DNA–protein interactions is highlighted via the study of DNA and RNA polymerases, helicases, and topoisomerases. Beyond the confirmation of expected mechanisms (e.g., the relaxation of DNA torsion by topoisomerases in quantized steps) and the discovery of unexpected ones (e.g., strand-switching by helicases, DNA scrunching by RNA polymerases, and chiral discrimination by bacterial topoII), these approaches have also fostered novel (third generation) sequencing technologies.
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34

Hammer, William Joseph. Radium, and Other Radio-Active Substances: Polonium, Actinium, and Thorium. with a Consideration of Phosphorescent and Fluorescent Substances, the Properties and Applications of Selenium, and the Treatment of Disease by the Ultra-Violet Light. Creative Media Partners, LLC, 2018.

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35

Hammer, William Joseph. Radium, and Other Radio-Active Substances; Polonium, Actinium, and Thorium. with a Consideration of Phosphorescent and Fluorescent Substances, the Properties and Applications of Selenium, and the Treatment of Disease by the Ultra-violet Light. Creative Media Partners, LLC, 2018.

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