10878nam 2200493 450 991067655460332120230502120007.01-119-84885-71-119-84881-4(MiAaPQ)EBC7175705(Au-PeEL)EBL7175705(CKB)25994463200041(EXLCZ)992599446320004120230502d2023 uy 0engurcnu||||||||txtrdacontentcrdamediacrrdacarrierDestruction of hazardous chemicals in the laboratory /George Lunn, Eric B. SansoneFourth edition.Hoboken, New Jersey :Wiley,[2023]©20231 online resource (883 pages)Print version: Lunn, George Destruction of Hazardous Chemicals in the Laboratory Newark : John Wiley & Sons, Incorporated,c2023 9781119848806 Includes bibliographical references and index.Cover -- Title Page -- Copyright -- Contents -- PREFACE -- INTRODUCTION -- About This Book -- Properties of a Destruction Technique -- Contents of a Detailed Monograph -- Summary Tables -- Mutagenicity Assays -- Analytical Procedures -- Spills -- Applicability of Procedures -- References -- SAFETY CONSIDERATIONS -- Nitrosamine Formation -- Sodium Hypochlorite -- Nickel-Aluminum Alloy -- Potassium Permanganate -- References -- SPECIFIC METHODS FOR THE DESTRUCTION OF HAZARDOUS CHEMICALS IN THE LABORATORY -- Acetonitrile -- Principles of Destruction and Decontamination -- Destruction Procedure -- Analytical Procedures -- Related Compounds -- Alternatives -- References -- Acid Halides and Anhydrides -- Principle of Destruction -- Destruction Procedures -- Destruction Procedure for Highly Reactive Compounds (e.g., Acetyl Chloride, Propionyl Chloride, Dimethylcarbamoyl Chloride, Benzoyl Chloride, Thionyl Chloride, Sulfuryl Chloride, Methanesulfonyl Chloride, and Acetic Anhydride) -- Destruction Procedure for Compounds of Lesser Reactivity (e.g., Benzenesulfonyl Chloride and p-Toluenesulfonyl Chloride) -- Destruction Procedure for Compounds of Unknown Reactivity -- Analytical Procedures -- Related Compounds -- References -- Aflatoxins -- Aflatoxin B1 -- Principles of Destruction -- Destruction Procedures -- Destruction of Stock Quantities -- Destruction of Aflatoxins in Aqueous Solution -- Destruction of Aflatoxins in Volatile Organic Solvents -- Destruction of Aflatoxins in Oil -- Decontamination of Equipment and Thin-Layer Chromatography Plates -- Treatment of Spills -- Destruction of Aflatoxins in Animal Litter -- Destruction of Aflatoxins in Animal Carcasses -- Destruction of Aflatoxins in Aqueous Solution Using Ozone -- Analytical Procedures -- Mutagenicity Assays -- Related Compounds -- Assay of Sodium Hypochlorite Solution -- References.Alkali and Alkaline Earth Metals -- Principles of Destruction -- Destruction Procedures -- Sodium and Lithium -- Potassium -- Magnesium -- Barium, Calcium, and Strontium -- References -- Alkali Metal Alkoxides -- Principle of Destruction -- Destruction Procedure -- References -- Anatoxin-A -- Principles of Destruction -- Destruction Procedures -- Destruction Using Ozone -- Using Potassium Permanganate -- Analytical Procedures -- Related Compounds -- References -- Aromatic Amines -- Principles of Destruction -- Destruction Procedures -- Destruction of Aromatic Amines in Bulk and in Organic Solvents -- Destruction of Aromatic Amines in Aqueous Solution -- Destruction of Aromatic Amines in Oil -- Destruction of 2-Aminoanthracene -- Decontamination of Spills -- Decontamination of Glassware -- Decontamination of Large Quantities of Solutions Containing Aromatic Amines -- Destruction of Aromatic Amines Using the Fenton Reaction -- Analytical Procedures -- Mutagenicity Assays -- Related Compounds -- References -- Arsenic -- Principles of Decontamination -- Decontamination Procedures -- Analytical Procedures -- Related Compounds -- References -- Azides -- Principles of Destruction -- Destruction Procedures -- Sodium Azide -- Organic Azides -- Analytical Procedures -- Analysis for Sodium Azide -- Analysis for Nitrite -- Related Compounds and Reactions -- References -- Azo and Azoxy Compounds and Tetrazenes -- Principles of Destruction -- Destruction Procedures -- Destruction of Azobenzene, Azoxybenzene, Azoxyanisole, Phenylazophenol, Azoxymethane, and Tetramethyltetrazene -- Destruction of Azobenzene, Azoxyanisole, Phenylazophenol, Phenylazoaniline, and Fast Garnet -- Destruction of N,N-Dimethyl-4-Amino-4′-Hydroxyazobenzene -- Analytical Procedures -- Mutagenicity Assays -- Related Compounds -- References -- Boron Trifluoride and Inorganic Fluorides.Principles of Destruction and Decontamination -- Destruction and Decontamination Procedures -- Destruction of Boron Trifluoride Etherate -- Decontamination of Solutions Containing Fluoride -- Analytical Procedures -- Related Compounds -- References -- Botulinum Toxins -- Principles of Destruction -- Destruction Procedures -- Inactivation by Steam Autoclave -- Inactivation by Application of Heat -- Inactivation Using Sodium Hypochlorite Solutions -- Treatment of Spills Using Sodium Hydroxide Solutions -- Detection Procedures -- Assay of Sodium Hypochlorite Solution -- References -- Brevetoxins -- Principles of Destruction -- Destruction Procedures -- Inactivation Using Sodium Hypochlorite -- Inactivation Using Sodium Hypochlorite and Sodium Hydroxide -- Analytical Procedures -- Assay of Sodium Hypochlorite Solution -- Related Compounds -- References -- Butyllithium -- Principle of Destruction -- Destruction Procedures -- Analytical Procedures for Alkyllithium Reagents -- Related Compounds -- References -- Calcium Carbide -- Destruction Procedures -- References -- Carbamic Acid Esters -- Principles of Destruction -- Destruction Procedures -- Destruction of N-Methylurethane, Methyl Carbamate, and Urethane -- Destruction of N-Methylurethane, N-Ethylurethane, Methyl Carbamate, and Urethane -- Analytical Procedures -- Mutagenicity Assays -- Related Compounds -- References -- Carbofuran -- Principles of Destruction and Decontamination -- Destruction Procedures -- Analytical Procedures -- Related Compounds -- References -- Chloromethylsilanes and Silicon Tetrachloride -- Destruction Procedure -- References -- N-Chlorosuccinimide and Chloramine-T -- Destruction Procedure -- Related Compounds -- References -- Chlorosulfonic Acid -- Destruction Procedure -- Related Compounds -- References -- Chromium(VI) -- Principles of Destruction -- Destruction Procedures.Disposal of Bulk Quantities of Chromium(VI)-Containing Compounds (Sodium Dichromate, Potassium Dichromate, Ammonium Dichromate, Chromium Trioxide, and Chromerge Concentrate) -- Disposal of Solutions Containing Chromium(VI) (e.g., New or Used Chromic Acid or Chromerge Solutions) -- Analytical Procedures -- Mutagenicity Assays -- Related Compounds and Related Procedures -- References -- Citrinin -- Principle of Destruction -- Destruction Procedures -- Destruction of Bulk Quantities of Citrinin -- Destruction of Citrinin in Aqueous Solution -- Destruction of Citrinin in Volatile Organic Solvents -- Destruction of Citrinin in Dimethyl Sulfoxide or N,N-Dimethylformamide -- Decontamination of Glassware -- Decontamination of Protective Clothing -- Decontamination of Spills -- Decontamination of Thin-Layer Chromatography Plates -- Analytical Procedures -- Mutagenicity Assays -- Related Compounds -- Assay of Sodium Hypochlorite Solution -- References -- Complex Metal Hydrides -- Principles of Destruction -- Destruction Procedures -- Lithium Aluminum Hydride -- Sodium Borohydride -- Borane·THF Complex -- Sodium Hydride and Potassium Hydride -- Lithium Hydride -- Calcium Hydride -- Sodium Cyanoborohydride -- Assay of Sodium Hypochlorite Solution -- Analytical Procedures -- Related Compounds -- References -- Cyanides and Cyanogen Bromide -- Principles of Destruction -- Destruction Procedures -- Destruction of Bulk Quantities -- Destruction of Sodium Cyanide or Cyanogen Bromide in Solution -- Destruction of Cyanogen Bromide in 70% Formic Acid -- Destruction of Hydrogen Cyanide -- Decontamination of Hydrogen Cyanide From Exhaust Gases -- Destruction of Cyanide in Solution with Hydrogen Peroxide -- Destruction of Cyanide in Solution Using Photocatalytic Procedures -- Assay of Sodium Hypochlorite Solution -- Analytical Procedures -- Mutagenicity Assays.Related Compounds and Related Procedures -- References -- Cylindrospermopsin -- Principle of Destruction -- Destruction Procedures -- Analytical Procedures -- Related Compounds -- References -- Diisopropyl Fluorophosphate -- Principle of Destruction -- Destruction Procedures -- Destruction of Diisopropyl Fluorophosphate in Buffer or Water -- Destruction of Diisopropyl Fluorophosphate in N,N-Dimethylformamide -- Destruction of Bulk Quantities of Diisopropyl Fluorophosphate -- Decontamination of Spills or Equipment -- Buffers -- Analytical Procedures -- Procedure -- Mutagenicity Assays -- Related Compounds and Related Procedures -- References -- Dimethyl Sulfate and Related Compounds -- Principles of Destruction -- Destruction Procedures -- Destruction of Bulk Quantities of Dimethyl Sulfate and Diethyl Sulfate -- Destruction of Bulk Quantities of Methyl Methanesulfonate, Ethyl Methanesulfonate, Butadiene Diepoxide, and 1,3-Propane Sultone -- Destruction of Dimethyl Sulfate in Organic Solvents -- Destruction of Dimethyl Sulfate, Diethyl Sulfate, Methyl Methanesulfonate, and Ethyl Methanesulfonate -- Spills of Dimethyl Sulfate -- Removal of Alkyl Methanesulfonates and Alkyl Benzenesulfonates from Organic Solutions -- Analytical Procedures -- Mutagenicity Assays -- Related Compounds -- References -- Dyes And Biological Stains -- Introduction -- References -- Decontamination Procedures -- Decontamination Procedures -- References -- Destruction Procedures -- Photolysis in the Presence of Titanium Dioxide -- Photolysis in the Presence of Zinc Oxide -- Ozonation -- Photolysis with Hydrogen Peroxide -- Photo-Fenton Reaction -- Fenton Reaction -- Photolysis Using a Photo-Activator -- Degradation Using Horseradish Peroxidase -- Degradation Using Miscellaneous Oxidants -- References -- Analytical Procedures, Mutagenicity Assays, and Related Compounds.Mutagenicity Assays.Hazardous wastesSafety measuresHazardous wastesSafety measures.604.7Lunn George1950-472187Sansone E. B.1939-MiAaPQMiAaPQMiAaPQBOOK9910676554603321Destruction of Hazardous Chemicals in the Laboratory3066625UNINA05286 am 2201141 n 450 9910495922603321202101072-35668-174-410.4000/books.momeditions.10552(CKB)5590000000431934(FrMaCLE)OB-momeditions-10552(oapen)https://directory.doabooks.org/handle/20.500.12854/84075(PPN)253362989(EXLCZ)99559000000043193420210118j|||||||| ||| 0freuu||||||m||||txtrdacontentcrdamediacrrdacarrierEpitome Abréger les textes antiques /Isabelle Boehm, Daniel VallatLyon MOM Éditions20211 online resource (260 p.) Littérature & Linguistique2-35668-069-1 L’usage de versions abrégées des œuvres littéraires de tous les domaines, de l’ouvrage de botanique à l’ensemble de l’œuvre d’un historien comme Tite-Live, est extrêmement courant dans l’Antiquité. Ces résumés ont des formes variées, qui vont des « sommaires » (periochae) à la sélection d’extraits (épitomé), en passant, entre autres, par la paraphrase ; l’absence de cadre théorique, dans le monde gréco-romain, explique une telle diversité. Les contributeurs de ce volume se sont intéressés à des cas particuliers de résumés antiques, en s’interrogeant sur les pratiques à l’œuvre dans des domaines précis : les ouvrages scientifiques et techniques (médecine, astronomie, histoire) et le contexte rhétorique et scolaire (poésie, commentaires scolaires). Ils observent, chez les Anciens, un usage surprenant, pour le scientifique moderne, du résumé. En effet certains savants, en Grèce et à Rome, au cours de la rédaction d’un ouvrage, n’hésitent pas à puiser dans des résumés, et non dans les œuvres intégrales, tandis que d’autres vont jusqu’à ajouter des éléments aux sources qu’ils abrègent, voire à « réinventer » l’œuvre qu’ils résument. Dans le contexte scolaire, les résumés ont un rôle particulièrement important, dont les épitomateurs anciens sont souvent parfaitement conscients : les suppressions et les modifications manifestent une attention particulière à tel ou tel lectorat et le résumé a ses propres enjeux dans la transmission de toutes les formes de littérature. The use of abbreviated versions of literary works from all fields of knowledge, from botany to the whole work of a historian such as Livy, was extremely common in Antiquity. These digests had various forms, ranging from “summary” (periochae) to the selection of abstracts (epitome), and passing by paraphrase; the absence of any theoretical framework, in the Greco-Roman world, explains such diversity. The contributors to this volume have been interested in studying specific cases of ancient abstracts, by…ClassicsLiterature (General)résuméépitoméabrégéparaphrasepoésielittérature scolairemédecineastronomiehistoiresummaryepitomeabstractpoetryschool litteraturemedicineastronomyGreecefastRome (Empire)fastConference papers and proceedings.fastsummaryepitomeabstractparaphrasepoetryschool litteraturemedicineastronomyClassicsLiterature (General)résuméépitoméabrégéparaphrasepoésielittérature scolairemédecineastronomiehistoiresummaryepitomeabstractpoetryschool litteraturemedicineastronomyBalbo Andrea626847Bastick Jérôme1301962Bellissime Marion1301963Boehm Isabelle1293937Boero Loredana1301964Borgna Alice1301965Doyen-Higuet Anne-Marie599947Fischer Klaus-Dietrich186583Formenti Chiara1301966Gioseffi Massimo291604Morzadec Françoise1238762Mülke Markus629892N. Kazanskaya Maria1301967Poliquin Émilie-Jade1301968Raschieri Amedeo Alessandro1301969Salazar Christine F1301970Vallat Daniel1301971van der Eijk Philip1301972Boehm Isabelle1293937Vallat Daniel1301971FR-FrMaCLEBOOK9910495922603321Epitome3026051UNINA