مشخصات کتاب

Inorganic Reactions and Methods: The Formation of Bonds to Hydrogen (Part 1), Volume 1

ویرایش:  
 
سری: Inorganic Reactions and Methods 
ISBN (شابک) : 9780471186540, 9780470145159 
ناشر:  
سال نشر: 1986 
تعداد صفحات: 489 
زبان: English 
فرمت فایل : PDF (درصورت درخواست کاربر به PDF، EPUB یا AZW3 تبدیل می شود) 
حجم فایل: 132 مگابایت 

در صورت تبدیل فایل کتاب Inorganic Reactions and Methods: The Formation of Bonds to Hydrogen (Part 1), Volume 1 به فرمت های PDF، EPUB، AZW3، MOBI و یا DJVU می توانید به پشتیبان اطلاع دهید تا فایل مورد نظر را تبدیل نمایند.

توجه داشته باشید کتاب واکنش های معدنی و روش ها: تشکیل پیوند به هیدروژن (قسمت 1)، جلد 1 نسخه زبان اصلی می باشد و کتاب ترجمه شده به فارسی نمی باشد. وبسایت اینترنشنال لایبرری ارائه دهنده کتاب های زبان اصلی می باشد و هیچ گونه کتاب ترجمه شده یا نوشته شده به فارسی را ارائه نمی دهد.

توضیحاتی درمورد کتاب به خارجی

Boasting numerous industrial applications, inorganic chemistry forms the basis for research into new materials and bioinorganic compounds such as calcium that act as biological catalysts. Now complete, this highly acclaimed series presents current knowledge in all areas of inorganic chemistry, including chemistry of the elements; organometallic, polymeric and solid-state materials; and compounds relevant to bioinorganic chemistry.Content:
Chapter 1.2.1 Introduction (pages 1–5): J. J. Zuckerman
Chapter 1.2.2.2 With Oh Groups and Acids in Oh Systems (pages 5–11): C.F.V. Mason
Chapter 1.2.2.3 With SH and SeH Groups and Acids in SH and SeH Systems (pages 11–12): C.F.V. Mason
Chapter 1.2.2.4 With NH Groups and Acids in NH Systems (pages 12–14): C.F.V. Mason
Chapter 1.2.2.5 With PH and AsH Groups and Acids in PH and AsH Systems (pages 14–15): C.F.V. Mason
Chapter 1.2.3 By Reactions of Complex Hydrides (pages 16–18): C.F.V. Mason
Chapter 1.2.3.2 With OH Groups and Acids in OH Systems (pages 18–21): C.F.V. Mason
Chapter 1.2.3.3 With SH and SeH Groups and Acids in SH and SeH Systems (pages 21–22): C.F.V. Mason
Chapter 1.2.3.4 With NH Groups and Acids in NH Systems (pages 22–25): C.F.V. Mason
Chapter 1.2.3.5 With PH and AsH Groups and Acids in PH and AsH Systems (pages 25–27): C.F.V. Mason
Chapter 1.2.4 By Reactions of Metals (pages 27–29): C.F.V. Mason
Chapter 1.2.4.2 With OH Groups and Acids in OH Systems (pages 29–33): C.F.V. Mason
Chapter 1.2.4.3 With SH and SeH Groups and Acids in SH and SeH Systems (pages 33–34): C.F.V. Mason
Chapter 1.2.4.4 With NH Groups and Acids in NH Systems (pages 34–37): C.F.V. Mason
Chapter 1.2.4.5 With PH and AsH Groups and Acids in PH and AsH Systems (pages 37–38): C.F.V. Mason
Chapter 1.2.5 By Reactions of Nonmetals and Semimetals (pages 38–39): C.F.V. Mason
Chapter 1.2.5.2 With OH Groups and Acids in OH Systems (pages 39–42): C.F.V. Mason
Chapter 1.2.5.3 With SH and SeH Groups and Acids in SH and SeH Systems (page 43): C.F.V. Mason
Chapter 1.2.5.4 With NH Groups and Acids in NH Systems (pages 43–45): C.F.V. Mason
Chapter 1.2.5.5 With PH and AsH Groups and Acids in PH and AsH Systems (pages 45–46): C.F.V. Mason
Chapter 1.2.6 By Electrolytic Reduction (pages 46–49): A. Damjanovic and P. G. Hudson
Chapter 1.2.6.2 Of OH Systems (pages 49–51): A. Damjanovic and P. G. Hudson
Chapter 1.2.6.3 Of SH and SeH Systems (pages 51–52): A. Damjanovic and P. G. Hudson
Chapter 1.2.6.4 Of NH Systems (pages 52–55): A. Damjanovic and P. G. Hudson
Chapter 1.2.6.5 Of PH and AsH Systems (pages 55–56): A. Damjanovic and P. G. Hudson
Chapter 1.2.7 By Reactions of Water (page 57): J. T. Mague
Chapter 1.2.7.2 With Saturated Hydrocarbons (pages 57–59): J. T. Mague
Chapter 1.2.7.3 With Unsaturated Hydrocarbons (pages 59–60): J. T. Mague
Chapter 1.2.7.4 With CO (pages 60–64): J. T. Mague
Chapter 1.2.7.5 Involving Water Splitting (pages 64–65): J. T. Mague
Chapter 1.2.7.5.2 In Chemical Reactions Involving Main?Group Elements (pages 65–67): J. T. Mague
Chapter 1.2.7.5.3 In Chemical Reactions Involving Transition and Inner?Transition Metals (pages 67–68): J. T. Mague
Chapter 1.2.7.6 With Other Oh?Containing Compounds (page 68): J. T. Mague
Chapter 1.2.8 By Partial Oxidation of Hydrocarbons (pages 68–69): J. T. Mague
Chapter 1.2.9 Isotopes: Deuterium—Chemical Preparation of D2 and D2O (page 69): E. Buncel and E. A. Symons
Chapter 1.2.9.1.2 In Electrolyses of Salts Dissolved in D2O (pages 69–70): E. Buncel and E. A. Symons
Chapter 1.2.9.1.3 In HD Synthesis (page 70): E. Buncel and E. A. Symons
Chapter 1.2.9.2 By Isotopic Enrichment (pages 70–73): E. Buncel and E. A. Symons
Chapter 1.2.9.2.2 Catalysis of Hydrogen?Water Isotope Exchange (pages 73–74): E. Buncel and E. A. Symons
Chapter 1.2.9.2.3 Catalysis of Hydrogen?Ammonia (Amine) Exchange (pages 74–75): E. Buncel and E. A. Symons
Chapter 1.2.9.2.4 Other Processes (pages 75–76): E. Buncel and E. A. Symons
Chapter 1.3.1 Introduction (pages 77–79): J. H. Clark
Chapter 1.3.2 By Reactions of Hydrogen (page 79): J. H. Clark
Chapter 1.3.2.2 With Chlorine (pages 79–80): J. H. Clark
Chapter 1.3.2.3 With Bromine (pages 80–81): J. H. Clark
Chapter 1.3.2.4 With Iodine (pages 81–82): J. H. Clark
Chapter 1.3.3 By Reactions of Protonic Acids (pages 82–84): J. H. Clark
Chapter 1.3.3.2 With Chloride Ions (pages 84–85): J. H. Clark
Chapter 1.3.3.3 With Bromide Ions (pages 85–86): J. H. Clark
Chapter 1.3.3.4 With Iodide Ions (pages 86–87): J. H. Clark
Chapter 1.3.3.5 With Complex Halides (pages 87–88): J. H. Clark
Chapter 1.3.4 By Hydrolysis (pages 88–90): J. H. Clark
Chapter 1.3.4.2 Of Chlorides (pages 90–92): J. H. Clark
Chapter 1.3.4.3 Of Bromides (pages 92–93): J. H. Clark
Chapter 1.3.4.4 Of Iodides (page 94): J. H. Clark
Chapter 1.3.4.5 Of Complex Fluorides (pages 95–96): J. H. Clark
Chapter 1.3.5 By Industrial Processes (pages 96–98): J.H. Clark
Chapter 1.3.6 In Syntheses of Deuterium Halides (pages 98–100): J. H. Clark
Chapter 1.3.7 In Syntheses of Hydrogen Astatide (pages 100–101): E. H. Appelman
Chapter 1.4.1 Introduction (pages 102–104): J. J. Zuckerman and A.D.C. Towl
Chapter 1.4.2 By Reactions of Elemental Hydrogen (pages 104–106): A.D.C. Towl
Chapter 1.4.2.1.2 In the Gas Phase Under Irradiation or Electrical Discharge Giving Hydrogen Peroxide (pages 106–108): A.D.C. Towl
Chapter 1.4.2.1.3 Under Metal Catalysis Giving Hydrogen Peroxide (pages 108–109): A.D.C. Towl
Chapter 1.4.2.1.4 Under Metal Catalysis Giving Water (pages 109–111): A.D.C. Towl
Chapter 1.4.2.2 With Elemental Sulfur (pages 111–112): A.D.C. Towl
Chapter 1.4.2.2.2 Equilibrium Constants (pages 112–115): A.D.C. Towl
Chapter 1.4.2.2.3 The Influence of Catalysts on the Formation of Hydrogen Sulfide (pages 115–117): A.D.C. Towl
Chapter 1.4.2.2.4 Induction by Radiation (pages 117–118): A.D.C. Towl
Chapter 1.4.2.3 With Elemental Selenium and Tellurium (pages 118–119): A.D.C. Towl
Chapter 1.4.2.3.2 The Formation of Hydrogen Telluride (page 119): A.D.C. Towl
Chapter 1.4.2.4 With Elemental Polonium (pages 119–120): A.D.C. Towl
Chapter 1.4.2.4.2 Reaction of Dihydrogen with Polonium (page 120): A.D.C. Towl
Chapter 1.4.2.4.3 Reaction of Nascent Hydrogen with Polonium (page 120): A.D.C. Towl
Chapter 1.4.2.5 With Oxygen Compounds (pages 120–124): A.D.C. Towl
Chapter 1.4.2.5.2 In Reductions of Metal Sulfates (pages 124–127): A.D.C. Towl
Chapter 1.4.2.5.3 In Reductions of Main?Group Compounds Other than Carbon Oxides (pages 127–128): A.D.C. Towl
Chapter 1.4.2.5.4 In Reductions of Oxides of Carbon (pages 128–129): A.D.C. Towl
Chapter 1.4.2.5.5 In the Reverse Water?Gas Shift Reaction (pages 130–133): A.D.C. Towl
Chapter 1.4.2.5.6 In the Formation of Methanoic Acid (page 133): A.D.C. Towl
Chapter 1.4.2.5.7 In Methanation Reactions (pages 133–137): A.D.C. Towl
Chapter 1.4.2.5.8 In the Formation of Methanol by Heterogeneous Catalysis (pages 137–140): A.D.C. Towl
Chapter 1.4.2.5.9 In the Formation of Methanol and Other Alcohols by Homogeneous Interactions (pages 140–143): A.D.C. Towl
Chapter 1.4.2.6 With Sulfur Compounds (pages 143–145): A.D.C. Towl
Chapter 1.4.2.6.2 In Reductions of Sulfur Dioxide (page 146): A.D.C. Towl
Chapter 1.4.2.6.3 In Reductions of Carbon Disulfide (pages 146–147): A.D.C. Towl
Chapter 1.4.2.6.4 In Reductions of Sulfur Halides (pages 147–148): A.D.C. Towl
Chapter 1.4.2.6.5 In Reductions of Salts of Sulfur Oxyacids (pages 148–149): A.D.C. Towl
Chapter 1.4.2.7 With Selenium and Tellurium Compounds (page 149): A.D.C. Towl
Chapter 1.4.2.7.2 In Reductions of Tellurides (page 150): A.D.C. Towl
Chapter 1.4.2.8 With Polonium Halides (page 150): A.D.C. Towl
Chapter 1.4.3 By Reactions of Hydrogen?Containing Compounds (pages 150–151): A.D.C. Towl
Chapter 1.4.3.1.2 In the Formation of Hydrogen Peroxide and Hydroperoxo Species (pages 151–152): A.D.C. Towl
Chapter 1.4.3.2 With Elemental Sulfur (pages 152–154): A.D.C. Towl
Chapter 1.4.3.2.2 In Reactions of Compounds Containing the Hydrogen?Oxygen Bond (pages 154–156): A.D.C. Towl
Chapter 1.4.3.2.3 In Reactions of Compounds Containing Bonds other than Carbon?Hydrogen or Oxygen?Hydrogen (pages 156–157): A.D.C. Towl
Chapter 1.4.3.3 With Elemental Selenium and Tellurium (page 157): A.D.C. Towl
Chapter 1.4.3.3.2 In Cleavage of the Oxygen?Hydrogen Bond by Selenium (page 158): A.D.C. Towl
Chapter 1.4.3.3.3 In Cleavage of the Carbon?Hydrogen Bond by Tellurium (page 158): A.D.C. Towl
Chapter 1.4.4 By Reactions of Aqueous Acids (pages 158–159): A.D.C. Towl
Chapter 1.4.4.1.2 In the Cathodic Reduction of Dioxygen in Aqueous Solution (pages 159–161): A.D.C. Towl
Chapter 1.4.4.2 With Sulfides (pages 161–164): A.D.C. Towl
Chapter 1.4.4.2.2 In Preparations of Higher Sulfanes (pages 164–166): A.D.C. Towl
Chapter 1.4.4.2.3 In the Formation of Hydrogen Sulfide in Cathodic Reductions (pages 166–167): A.D.C. Towl
Chapter 1.4.4.2.4 In the Formation of Higher Sulfanes in Cathodic Reductions (page 167): A.D.C. Towl
Chapter 1.4.4.3 With Selenides and Tellurides (pages 167–168): A.D.C. Towl
Chapter 1.4.4.3.2 In the Preparation of Hydrogen Seienide by Cathodic Reduction (pages 168–169): A.D.C. Towl
Chapter 1.4.4.3.3 In the Formation of Diselenane (page 169): A.D.C. Towl
Chapter 1.4.4.3.4 In Preparations of Hydrogen Telluride from Acids and Metal Tellurides (pages 169–170): A.D.C. Towl
Chapter 1.4.4.3.5 In the Preparation of Hydrogen Telluride by Cathodic Reduction in Acid Electrolyte (pages 170–171): A.D.C. Towl
Chapter 1.4.4.4 In the Cathodic Reduction of Polonium (page 172): A.D.C. Towl
Chapter 1.4.5 By Reactions of Protonic Acids (pages 172–173): A.D.C. Towl
Chapter 1.4.5.1.2 In the Formation of other Compounds containing Hydrogen?Oxygen Bonds (pages 173–174): A.D.C. Towl
Chapter 1.4.5.2 With Sulfides (page 174): A.D.C. Towl
Chapter 1.4.5.2.2 In Preparations of the Higher Sulfanes (pages 174–175): A.D.C. Towl
Chapter 1.4.5.2.3 In Preparations of Anhydrous Acids of Sulfur (pages 175–176): A.D.C. Towl
Chapter 1.4.5.3 With Selenides Giving Hydrogen Selenide (page 176): A.D.C. Towl
Chapter 1.4.6 By Reactions of Covalent Hydrides (pages 176–178): A.D.C. Towl
Chapter 1.4.6.1.2 In the Formation of Water by Reactions Involving Hydrogen Sulfide (pages 178–180): A.D.C. Towl
Chapter 1.4.6.1.3 In the Formation of Water by Thermal Decomposition of Ammonium Salts (pages 180–182): A.D.C. Towl
Chapter 1.4.6.2 With Sulfur Compounds (pages 182–183): A.D.C. Towl
Chapter 1.4.6.2.2 In Hydrolyses and Ammonolyses of Carbon Sulfides (pages 183–186): A.D.C. Towl
Chapter 1.4.6.2.3 In Hydrolyses of Organosulfur Compounds (page 186): A.D.C. Towl
Chapter 1.4.6.2.4 In the Reduction of Sulfur Dioxide by Methane (pages 186–188): A.D.C. Towl
Chapter 1.4.6.2.5 In Reductions of Sulfur Compounds by Hydrogen Iodide (pages 188–191): A.D.C. Towl
Chapter 1.4.6.2.6 In Reductions of Sulfur Compounds by other Main?Group Hydrides (pages 191–192): A.D.C. Towl
Chapter 1.4.6.3 With Selenium and Tellurium Compounds (page 192): A.D.C. Towl
Chapter 1.4.6.3.2 In the Formation of Selenols by Hydrolysis of Selenolates (pages 192–193): A.D.C. Towl
Chapter 1.4.6.3.3 In Reductions of Selenium(IV) Species (page 193): A.D.C. Towl
Chapter 1.4.6.3.4 In the Formation of Hydrogen Telluride by Hydrolysis of Tellurides (page 193): A.D.C. Towl
Chapter 1.4.6.3.5 In the Alcoholysis of Aluminum Selenide and Telluride (page 193): A.D.C. Towl
Chapter 1.4.7 By Reactions of Binary Metal Hydrides (pages 193–194): A.D.C. Towl
Chapter 1.4.7.1.2 In Reductions of Metal Oxides (pages 194–195): A.D.C. Towl
Chapter 1.4.7.2 With Sulfur Compounds and Elemental Sulfur (page 196): A.D.C. Towl
Chapter 1.4.8 By Reactions of Complex Hydrides (pages 196–199): A.D.C. Towl
Chapter 1.4.8.1.2 In Reductions of Organic Compounds to Hydroxy Species (pages 199–200): A.D.C. Towl
Chapter 1.4.8.1.3 In Reductions of Metal Oxides (page 200): A.D.C. Towl
Chapter 1.4.8.2 With Sulfur Compounds (pages 200–201): A.D.C. Towl
Chapter 1.4.8.2.2 In Reductions of Halides of Sulfur (pages 201–202): A.D.C. Towl
Chapter 1.4.8.2.3 In Reductions of Other Compounds of Sulfur (page 202): A.D.C. Towl
Chapter 1.4.8.2.4 In Reductions of Elemental Sulfur (pages 203–204): A.D.C. Towl
Chapter 1.4.8.3 With Selenium and Tellurium Compounds (pages 204–205): A.D.C. Towl
Chapter 1.4.8.3.2 In Reductions of Oxy Compounds of Selenium and Tellurium by Complex Hydrides (pages 205–206): A.D.C. Towl
Chapter 1.4.8.4 With Polonium Halides (page 206): A.D.C. Towl
Chapter 1.4.9 By Industrial Processes (pages 206–209): A.D.C. Towl
Chapter 1.4.9.1.2 In Methanation Reactions (pages 209–210): A.D.C. Towl
Chapter 1.4.9.1.3 In the Production of Methanol (pages 210–211): A.D.C. Towl
Chapter 1.4.9.2 Involving Sulfur Compounds (pages 212–213): A.D.C. Towl
Chapter 1.4.9.2.2 In the Formation of Hydrogen Sulfide by Hydrodesulfurization (pages 213–214): A.D.C. Towl
Chapter 1.4.9.2.3 In the Reduction of Sulfur Dioxide to Hydrogen Sulfide (pages 215–216): A.D.C. Towl
Chapter 1.4.9.2.4 In the Production of Hydrogen Sulfide from Hydrocarbons (pages 216–218): A.D.C. Towl
Chapter 1.4.9.2.5 In the Production of Hydrogen Sutfide from Alkaline?Earth Sulfides (pages 218–219): A.D.C. Towl
Chapter 1.4.9.3 Involving Selenium and Tellurium: The Hydride Method of Refining the Elements (pages 219–220): A.D.C. Towl
Chapter 1.4.10 In Syntheses of Deuterium Derivatives (pages 220–221): A.D.C. Towl
Chapter 1.4.10.1.2 With Sulfur Compounds (pages 221–222): A.D.C. Towl
Chapter 1.4.10.1.3 With Selenium and Tellurium Compounds (page 222): A.D.C. Towl
Chapter 1.4.10.2 By Isotopic Enrichment using Chemical Reactions (pages 222–227): A.D.C. Towl
Chapter 1.4.10.2.2 With Sulfur Compounds (pages 227–228): A.D.C. Towl
Chapter 1.4.10.2.3 With Selenium and Tellurium Compounds (pages 228–229): A.D.C. Towl

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