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200 14$aThe origins of World War II /$fKeith Eubank
205   $aThird edition.
210  1$aWheeling, Illinois :$cHarlan Davidson, Inc.,$d2004.
210  4$d©2004
215   $a1 online resource (216 p.)
225 1 $aEuropean History Stories
300   $aIncludes index.
311   $a0-88295-228-5 
327   $aCover ; Title Page ; Copyright ; Contents ; Preface to the Third Edition ; Chapter 1: ""peace , "" 1918-1933 ; November 11 , 1918 ; The Treaty of Versailles ; French ""security "" ; German ""good Faith"" ; Economic Crisis ; Chapter 2: The Uneasy Peace, 1933-1935 ; Adolf Hitler ; Rearmament and Disarmament ; The Four-power Pact ; The Dollfuss Affair ; Germany''s Military Renaissance ; The Franco-soviet Pact ; The Anglo-german Naval Agreement ; Notes ; Chapter 3: Years of Crisis, 1935-1938 ; Mussolini and Ethiopia ; Hitler in the Rhineland ; The Popular Front and the Spanish Civil War
327   $aAppeasement and Appeasers Notes ; Chapter 4: The Road to War, 1938 ; The Reichschancellery Meeting ; The Anschluss ; Crisis in Czechoslovakia ; The Munich Conference ; The End of Czechoslovakia ; Notes ; Chapter 5: War, 1 939 ; Danzig ; Appeasement Fails ; Conclusion ; Notes ; Bibliographical Essay ; Index
330   $aMore than 60 years have passed since the outbreak of the most catastrophic conflict the world has known: 30 million people dead and unbelievable devastation. In the 3rd edition of this popular volume, Keith Eubank seeks answers to the questions that have plagued us: Why, after the ghastly ordeal of World War I did Western powers undervalue the threat from Hitler? Why was there so much reluctance on the part of Britain and France to confront Germany? Why had Germany been permitted to rearm and to occupy independent nations without a struggle? What was the policy of appeasement? Why did the appe
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200 10$aMolecular devices and machines$b[electronic resource] $ea journey into the nano world /$fV. Balzani, A. Credi, M. Venturi
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215   $a1 online resource (514 p.)
300   $aDescription based upon print version of record.
311   $a3-527-30506-8 
320   $aIncludes bibliographical references and indexes.
327   $aMolecular Devices and Machines - A Journey into the Nano World; Preface; Reference; Contents; 1 General Concepts; 1.1 Devices and Machines at the Molecular Level; 1.2 Miniaturization of Devices and Machines; 1.3 Top-down (Large-downward) Approach; 1.4 Bottom-up (Small-upward) Approach; 1.4.1 Bottom-up Atom-by-atom; 1.4.2 Bottom-up Molecule-by-molecule; 1.5 Supramolecular (Multicomponent) Chemistry; 1.5.1 Comparison of Large Molecules with Supramolecular (Multicomponent) Systems; 1.5.2 Self-organization and Covalent Synthetic Design; 1.5.3 Supramolecular Chemistry, Art, and Nanotechnology
327   $aReferencesPart I Devices for Processing Electrons and Electronic Energy; 2 Fundamental Principles of Electron and Energy Transfer; 2.1 Introduction; 2.2 Photoinduced Electron- and Energy-transfer Processes; 2.2.1 Electron Transfer; 2.2.1.1 The Electronic Factor; 2.2.1.2 The Nuclear Factor; 2.2.2 Energy Transfer; 2.2.2.1 Coulombic Mechanism; 2.2.2.2 Exchange Mechanism; 2.2.3 Role of the Bridge; References; 3 Wires and Related Systems; 3.1 Introduction; 3.2 Conductivity Measurements; 3.3 Electron-transfer Processes at Electrodes; 3.4 Photoinduced Electron Transfer
327   $a3.4.1 Covalently Linked Systems Containing Metal Complexes3.4.2 Covalently Linked Systems Based on Organic Compounds; 3.4.3 Covalently Linked Systems Containing Porphyrins; 3.4.4 DNA and Related Systems; 3.5 Heterogeneous Photoinduced Electron Transfer; 3.6 Energy Transfer; 3.6.1 Covalently Linked Systems Containing Metal Complexes; 3.6.2 Covalently Linked Systems Based on Organic Compounds; 3.6.3 Covalently Linked Systems Containing Porphyrins; 3.6.4 DNA and Related Systems; References; 4 Switching Electron- and Energy-transfer Processes; 4.1 Introduction
327   $a4.2 Switching Electron-transfer Processes4.2.1 Photon Inputs; 4.2.1.1 Long-lived Switching; 4.2.1.2 Fast and Ultrafast Switching; 4.2.2 Redox Inputs; 4.2.3 Acid-Base Inputs; 4.2.4 Other Factors; 4.3 Switching Energy-transfer Processes; 4.3.1 Photon Inputs; 4.3.2 Redox Inputs; 4.3.3 Acid-Base Inputs; 4.3.4 Other Factors; References; 5 Light-harvesting Antennae; 5.1 Introduction; 5.2 Natural Antenna Systems; 5.3 Porphyrin-based Arrays; 5.4 Multichromophoric Cyclodextrins; 5.5 Dendrimers; 5.5.1 Dendrimers Containing Metal Complexes; 5.5.1.1 Metal Complexes as Cores
327   $a5.5.1.2 Metal Complexes in Each Branching Center5.5.2 Dendrimers Based on Organic Chromophores; 5.5.3 Dendrimers Containing Porphyrins; 5.5.4 Host-Guest Systems; 5.5.5 Photoinduced Electron Transfer; 5.6 Other Systems; 5.6.1 Polyelectrolytes; 5.6.2 Polymers; 5.6.3 Rotaxanes; 5.6.4 Zeolites; References; 6 Photoinduced Charge Separation and Solar Energy Conversion; 6.1 Introduction; 6.2 Natural Reaction Centers; 6.2.1 Introduction; 6.2.2 Bacterial Photosynthesis; 6.2.3 Photosystem II; 6.3 Artificial Reaction Centers; 6.3.1 Introduction; 6.3.2 Dyads; 6.3.3 Triads; 6.3.4 Tetrads and Pentads
327   $a6.3.5 Antenna-Reaction Center Systems
330   $aThe miniaturization of bulky devices and machines is a process that confronts us on a daily basis. However, nanoscale machines with varied and novel characteristics may also result from the enlargement of extremely small building blocks, namely individual molecules. This bottom-up approach to nanotechnology is already being pursued in information technology, with many other branches about to follow.Written by a team of experienced authors headed by Vincenzo Balzani, one of the pioneers in the development of molecular machinesCovers such diverse aspects as sensors, memory components
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