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Books on the topic 'Compound identification'

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Published: 4 June 2021
Last updated: 13 February 2022

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1

Vermerris, Wilfred. Phenolic compound biochemistry. Dordrecht: Springer, 2008.

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2

Clayton, Bassler G., and Morrill Terence C. 1940-, eds. Spectrometric identification of organic compounds. 5th ed. New York: Wiley, 1991.

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3

Silverstein, Robert M. Spectrometric identification of organic compounds. 6th ed. New York: Wiley, 1998.

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4

Silverstein, Robert M. Spectrometric identification of organic compounds. 5th ed. New York: Wiley, 1991.

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5

X, Webster Francis, and Kiemle David J, eds. Spectrometric identification of organic compounds. 7th ed. Hoboken, NJ: John Wiley & Sons, 2005.

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6

The systematic identification of organic compounds. 8th ed. Danvers, MA: Wiley, 2004.

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7

Feinstein, Karen. Guide to spectroscopic identification of organic compounds. Boca Raton: CRC Press, 1995.

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8

Hermann, Christine K. F. Solutions manual - The systematic identification of organic compounds. 8th ed. Hoboken, N.J: Wiley, 2004.

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9

Pacáková, V. Chromatographic retention indices: An aid to identification of organic compounds. New York: E. Horwood, 1992.

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10

Subarnas, Anas. Identification of novel anticancer compounds from primates-consumed plant: Final report. Jakarta]: Kementerian Pendidikan Nasional, 2010.

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11

Subarnas, Anas. Identification of novel anticancer compounds from primates-consumed plant: Final report. Jakarta]: Kementerian Pendidikan Nasional, 2010.

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12

Blair, W. R. Characterization of long term controlled release dynamics and identification of butyltin species released from OMP impregnated wood pilings. Gaithersburg, MD: U.S. Dept. of Commerce, National Bureau of Standards, 1987.

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13

Blair, W. R. Characterization of long term controlled release dynamics and identification of butyltin species released from OMP impregnated wood pilings. Gaithersburg, MD: U.S. Dept. of Commerce, National Bureau of Standards, 1987.

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14

Chapman, Peter M. Hazard identification, hazard classification and risk assessment for metals and metal compounds in the aquatic environment. Ottawa: International Council on Metals and the Environment, 1996.

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15

Yousefian, Sevana. Identification of types of compounds responsible for COD, TOC, and colour in bleached kraft pulp mill effluencts. Ottawa: National Library of Canada, 2000.

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16

Asdrubolini, Tania. Chromatographic identification of organic compounds occurring in Dandelion and Devil's Claw Roots which may have potential pharmaceutical activity. Sudbury, Ont: Laurentian University, 2000.

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17

AWWA Seminar on Identification and Treatment of Taste and Odor Compounds (1989 Los Angeles, Calif.). Proceedings: AWWA Seminar on Identification and Treatment of Taste and Odor Compounds, annual conference, Los Angeles, California, June 18, 1989. Denver, CO: The Association, 1989.

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18

Elk, Seymour B. A new unifying biparametric nomenclature that spans all of chemistry: The science of incorporating daily over 2,000 new names to a base of over 42 million compounds while still maintaining order. Amsterdam: Elsevier, 2003.

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19

A new unifying biparametric nomenclature that spans all of chemistry: The science of incorporating over 2,000 new names every day to a base of over 42 million compounds while still maintaining order. Amsterdam: Elsevier, 2004.

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20

Lima, Joana, and Celeste Eusébio, eds. Social tourism: global challenges and approaches. Wallingford: CABI, 2021. http://dx.doi.org/10.1079/9781789241211.0000.

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Abstract This book analyses social tourism across the world, exploring the theoretical foundations of this type of tourism with examples of practical implementations. Part II is composed of case studies discussing the historical evolution of the concept and implementation of social tourism in different parts of the world. This discussion also results in the identification of challenges and opportunities for the development of social tourism in these contexts. Part III of the book reflects on tourism experiences lived by different target groups of social tourism, such as seniors, disabled children, and low-income families. Part IV of the book is devoted to practical challenges of social tourism and policy implications. The book has 13 chapters, in addition to an introduction and a conclusion.
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21

P, Schlunegger Urs, and Schweizerischer Chemiker-Verband, eds. Biologically active molecules: Identification, characterization, and synthesis : proceedings of a Seminar on Chemistry on Biologically Active Compounds and Modern Analytical Methods, Interlaken, September 5-7, 1988. Berlin: Springer-Verlag, 1989.

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22

Vermerris, Wilfred, and Ralph Nicholson. Phenolic Compound Biochemistry. Springer, 2008.

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23

Schlunegger, Urs Peter. Biologically Active Molecules: Identification, Characterization and Synthesis : Proceedings of a Seminar on Chemistry of Biologically Active Compound. Springer, 1989.

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24

Shriner, Ralph L. Systematic Identification of Compounds. 7th ed. John Wiley & Sons Inc, 2005.

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25

Webster, Francis X., David Kiemle, and Robert M. Silverstein. Spectrometric Identification of Organic Compounds. Wiley, 1997.

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26

Behrens-Kley. Microscopical Identification of Organic Compounds. 3rd ed. Microscope Pubns Ltd, 1988.

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27

1899-, Shriner Ralph Lloyd, ed. The systematic identification of organic compounds. 7th ed. New York: J. Wiley, 1998.

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28

Vecera, Miroslov. Detection and Identification of Organic Compounds. Springer, 2012.

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29

1899-, Shriner Ralph Lloyd, ed. The systematic identification of organic compounds. 8th ed. Hoboken, NJ: Wiley, 2004.

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30

Salih Istifli, Erman, and Hasan Basri Ila, eds. Cytotoxicity - Definition, Identification, and Cytotoxic Compounds. IntechOpen, 2019. http://dx.doi.org/10.5772/intechopen.77899.

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31

Guide to Spectroscopic Identification of Organic Compounds. Taylor & Francis Group, 2017.

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32

Silverstein, R. M. Spectrometric Identification of Organic Compounds 5e Ans. John Wiley & Sons Inc, 1994.

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33

Patisaul, Heather B., and Scott M. Belcher. Landmark Endocrine-Disrupting Compounds of the Past and Present. Oxford University Press, 2017. http://dx.doi.org/10.1093/acprof:oso/9780199935734.003.0003.

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This chapter focuses on four of the best known and most well characterized EDCs: the polychlorinated biphenyls (PCBs), dichlorodiphenyltrichloroethane (DDT), diethylstilbestrol (DES), and bisphenol A (BPA) as prototypical EDCs. For each compound, historical information regarding use, sources of contamination, descriptions of toxic effects, nature of endocrine disruptive mechanisms, and detailed summaries of critical research findings are highlighted. Each of these chemicals are seminal illustrative examples of EDCs that came to be recognized, defined, and considered seriously by the general public and the regulatory community. Continuing work with these well-studied chemicals continues to reveal new mechanisms of EDC action and identifying new potential health outcomes and effects, and have become important “positive control chemicals” for toxicity and chemical testing strategies and identification of emerging EDCs.
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34

Elnagdi, Mohamed Hilmy, Kamal Usef Sadek, and Ramadan Ahmed Mekheimer. Spectroscopic Identification of Organic Molecules. World Scientific Publishing Co Pte Ltd, 2018.

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35

(Foreword), Richard R. Ernst, ed. Structural Identification of Organic Compounds with Spectroscopic Techniques. Wiley-VCH, 2005.

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36

Fuson, Reynold C., Christine K. F. Hermann, Ralph L. Shriner, Terence C. Morrill, and David Y. Curtin. The Systematic Identification of Organic Compounds, 7th Edition. John Wiley & Sons, 1997.

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37

Fuson, Reynold C., Christine K. F. Hermann, Ralph L. Shriner, Terence C. Morrill, and David Y. Curtin. The Systematic Identification of Organic Compounds, Student Solutions Manual. Wiley, 2003.

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38

Hermann, Christine K. F. The Systematic Identification of Organic Compounds, 7E, Solutions Manual. John Wiley & Sons Inc, 1998.

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39

Identification and Treatment of Taste and Odor Compounds (20036). Amer Water Works Assn, 1989.

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40

Koslicki, Kathrin. Form. Oxford University Press, 2018. http://dx.doi.org/10.1093/oso/9780198823803.003.0004.

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This chapter turns to the question of how hylomorphists should conceive of the form of concrete particular objects. It argues that hylomorphists should endorse the individual forms hypothesis and reject the universal forms hypothesis on grounds primarily having to do with the cross-world identification of concrete particular objects. Other issues, e.g., the causal roles ascribed to form or the relation between form and essence, perhaps surprisingly, turn out to be neutral between the individual forms hypothesis and the universal forms hypothesis. When the conclusions of this chapter are combined with those of Chapter 4, we arrive at a preferred conception of forms as “robust” particulars, i.e., as non-repeatable, non-sharable entities which, by their very nature, do not simultaneously belong to the matter–form compound (essentially) and to the matter composing it (accidentally).
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41

Pitt, Matthew. Nerve physiology. Oxford University Press, 2017. http://dx.doi.org/10.1093/med/9780198754596.003.0003.

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The chapter begins with a description of the normal findings in healthy sensory and motor nerves. The distribution of nerve fibres by diameter in the sensory nerve and its effect on the recorded action potential is outlined. The method by which velocity and compound muscle action potential are derived from motor stimulation follows. H-reflex studies and F-wave identification are described. A section on the strategies used for nerve conduction study in children and the nerves chosen for examination leads on to a description of the difficulties of deriving normative data in children. Next follows a detailed description of the findings in both sensory and motor nerves in demyelination where a distinction between patchy and homogenous demyelination is possible. An analysis of the nerve findings in axonal degeneration is then presented. The chapter finishes with a discussion of the variability in nerve testing.
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42

Kamm, Oliver. Qualitative Organic Analysis; an Elementary Course in the Identification of Organic Compounds. Palala Press, 2015.

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43

M, McGuire J., and Environmental Research Laboratory (Athens, Ga.), eds. Multispectral identification and confirmation of organic compounds in wastewater extracts: Project summary. Athens, GA: U.S. Environmental Protection Agency, Environmental Research Laboratory, 1990.

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44

Recent Developments in Identification of Genuine Odor- and Taste-Active Compounds in Foods. MDPI, 2021. http://dx.doi.org/10.3390/books978-3-0365-1667-7.

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45

(Firm), ChemInform, and Commission of the European Communities. Directorate-General Environment, Nuclear Safety and Civil Protection., eds. Identification and brief description of the emissions (water, air & wastes) from the different sectors of the organic chemical industry. Luxembourg: Office for Official Publications of the European Communities, 1994.

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46

Pacakova, Vera, and Ladislav Feltl. Chromatographic Retention Indices: An Aid to Identification of Organic Compounds (Ellis Horwood Series in Analytical Chemistry). Ellis Horwood Ltd, 1993.

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47

Pacakova, Vera, and Ladislav Feltl. Chromatographic Retention Indices: An Aid to Identification of Organic Compounds (Ellis Horwood Series in Analytical Chemistry). Ellis Horwood Ltd, 1993.

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48

Wong, Wei-Lynn W. Identification and characterization of novel compounds for the selective induction of apoptosis in malignant cells. 2005.

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49

Tsaturyan, Avetis. Theoretical-practical bases of high-performance liquid chromatography. YSU Publishing House, 2021. http://dx.doi.org/10.46991/ysuph/9785808424906.

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This is a training manual on theoretical-practical bases of high-performance liquid chromatography for YSU Institute of Pharmacy Pharmacy students studying Pharmaceutical Chemistry (for laboratory and independent work). The manual presents the theory of the method of high-performance liquid chromatography, the principles of quantitative-qualitative identification of compounds, a number of other indicators related to liquid chromatography. Laboratory experiments are presented to help students to consolidate and test the acquired knowledge.
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50

Mirka, Danuta. Topics and Meter. Edited by Danuta Mirka. Oxford University Press, 2014. http://dx.doi.org/10.1093/oxfordhb/9780199841578.013.0014.

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The connection between topics and meter was supported by Wye Allanbrook (1983) with references to eighteenth-century authors representing an old tradition of metric notation in which meter was closely related to tempo, affect, and genre. In the late eighteenth century this tradition was continued by Johann Philipp Kirnberger, who posited a standard tempo for each meter: the so-calledtempo giusto. But the tradition oftempo giustowas dissolved by another tradition of metric notation in which time signatures had no tempo significance and no affective implications. While the new tradition enabled eighteenth-century composers to include several topics in one piece, it complicates the task of the analyst by making identification of topics contingent on identification of the composed meter and, in some cases, on analysis of phrase structure. This chapter demonstrates the problem of topical identification in relation to the main theme of Mozart’s Symphony in G minor, K. 550/i.
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