LEADER 01847nam0 22004333i 450 001 TO00066815 005 20231121125833.0 100 $a20041117d1968 ||||0itac50 ba 101 | $alat$afre 102 $afr 181 1$6z01$ai $bxxxe 182 1$6z01$an 200 1 $aTraite des lois$fCiceron$gtexte etabli et traduit par Georges de Plinval 205 $a2. tirage 210 $aParis$cLes belles lettres$d1968 215 $aLXXII, 130 p. (1-110 doppie)$d21 cm 225 | $aCollection des universités de France$i. Sér. latine 300 $aTesto orig. a fronte 410 0$1001BVE0049487$12001 $aCollection des universités de France$i. Sér. latine 500 10$aDe legibus.$3BVEE001448$9CFIV006643$915649 606 $aCicerone, Marco Tullio . De legibus$xEdizioni critiche$2FIR$3RMLC426256$9E 676 $a320.1$9Scienza politica. Lo stato$v21 700 1$aCicero$b, Marcus Tullius$3CFIV006643$4070$082411 702 1$aPlinval$b, Georges : de$3UMCV026534 790 1$aCicerone$b, Marco Tullio$3CFIV006644$zCicero, Marcus Tullius 790 0$aCicerone$3CFIV030674$zCicero, Marcus Tullius 790 0$aCicéron$3CFIV068480$zCicero, Marcus Tullius 790 1$aCicerone$b, M. 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Pollet 205 $a2nd ed. 210 $aHoboken, NJ $cWiley$d2012 215 $a1 online resource (366 p.) 300 $aDescription based upon print version of record. 311 08$a9780470974247 311 08$a0470974249 320 $aIncludes bibliographical references and index. 327 $aPower Ultrasound in Electrochemistry; Contents; Foreword; About the Editor; List of Contributors; Acknowledgements; Introduction to Electrochemistry; I.1 Introduction; I.2 Principles of Electrochemistry; I.3 Electron-Transfer Kinetics; I.4 Determination of Overpotentials; I.4.1 Decomposition Voltages; I.4.2 Discharge Potentials; I.5 Electroanalytical Techniques; I.5.1 Voltammetry; I.5.2 Amperometry; References; 1 An Introduction to Sonoelectrochemistry; 1.1 Introduction to Ultrasound and Sonochemistry; 1.2 Applications of Power Ultrasound through Direct Vibrations; 1.2.1 Welding 327 $a1.3 Applications of Power Ultrasound through Cavitation1.3.1 Homogeneous Reactions; 1.3.2 Heterogeneous Reactions Involving a Solid/Liquid Interface; 1.3.3 Heterogeneous Liquid/Liquid Reactions; 1.4 Electrochemistry; 1.5 Sonoelectrochemistry - The Application of Ultrasound in Electrochemistry; 1.5.1 Ultrasonic Factors that Influence Sonoelectrochemistry; 1.6 Examples of the Effect of Ultrasound on Electrochemical Processes under Mass Transport Conditions; 1.7 Experimental Methods for Sonoelectrochemistry; 1.7.1 Cell Construction; 1.7.2 Stability of the Electrodes Under Sonication 327 $a1.7.3 Some Applications of SonoelectrochemistryReferences; 2 The Use of Electrochemistry as a Tool to Investigate Cavitation Bubble Dynamics; 2.1 Introduction; 2.2 An Overview of Bubble Behaviour; 2.3 Mass Transfer Effects of Cavitation; 2.4 Isolating Single Mechanisms for Mass Transfer Enhancement; 2.5 Electrochemistry Next to a Tethered Permanent Gas Bubble; 2.6 Mass Transfer from Forced Permanent Gas Bubble Oscillation; 2.7 Mass Transfer Effects from Single Inertial Cavitation Bubbles; 2.8 Investigating Non-inertial Cavitation Under an Ultrasonic Horn 327 $a2.9 Measuring Individual Erosion Events from Inertial Cavitation2.10 Conclusions; Acknowledgements; References; 3 Sonoelectroanalysis: An Overview; 3.1 Introduction; 3.2 Analysis of Pesticides; 3.3 Quantifying Nitrite; 3.4 Biogeochemistry; 3.5 Quantifying Metal in 'Life or Death' Situations; 3.6 Analysis of Trace Metals in Clinical Samples; 3.7 Biphasic Sonoelectroanalysis; 3.8 Applying Ultrasound into the Field: The Sonotrode; 3.9 Conclusions; References; 4 Sonoelectrochemistry in Environmental Applications; 4.1 Introduction 327 $a4.2 Sonoelectrochemical Degradation of Persistent Organic Pollutants4.2.1 Sonoelectrochemical Applications; 4.2.2 Hybrid Sonoelectrochemical Techniques Applications; 4.3 Recovery of Metals and Treatment of Toxic Inorganic Compounds; 4.4 Disinfection of Water by Hypochlorite Generation; 4.5 Soil Remediation; 4.6 Conclusions; List of Symbols and Abbreviations; References; 5 Organic Sonoelectrosynthesis; 5.1 Introduction; 5.2 Scale-Up Considerations; 5.3 Early History of Organic Sonoelectrochemistry; 5.4 Electroorganic Syntheses; 5.4.1 Electroreductions; 5.4.2 Organochalcogenides 327 $a5.4.3 Synthetic Electrooxidations 330 $aThe use of power ultrasound to promote industrial electrochemical processes, or sonoelectrochemistry, was first discovered over 70 years ago, but recently there has been a revived interest in this field. Sonoelectrochemistry is a technology that is safe, cost-effective, environmentally friendly and energy efficient compared to other conventional methods.? The book contains chapters on the following topics, contributed from leading researchers in academia and industry:?Use of electrochemistry as a tool to investigate Cavitation Bubble DynamicsSonoelectroanalysis