01217nam0-22004211i-450-99000553482020331620050718120000.0000553482USA01000553482(ALEPH)000553482USA0100055348220050718d1974-------|0itac50------baitaIT|||| |||||<<La >> sovranità monetariaPaolo SavonaRomaBuffetti[1975]136 p.20 cm.Problemi d'oggi. - Roma2001Problemi d'oggi. - RomaUSA19504<<La>> sovranità monetaria : lira schiava o padrona?MonetaFIItaliaPolitica monetariaSaggiFIRoma332.4Moneta21SAVONA,Paolo33354BuffettiITSOL20120104990005534820203316DIP.TO SCIENZE ECONOMICHE - (SA)DS 300 332.4 SAV571 DISES300 332.4 SAV571 DISESBKDISES20121027USA01153220121027USA011613Sovranità monetaria622332UNISAUSA1559003896nam 22007335 450 991103516240332120251028120427.0978981969596610.1007/978-981-96-9596-6(CKB)41826871400041(MiAaPQ)EBC32378925(Au-PeEL)EBL32378925(DE-He213)978-981-96-9596-6(EXLCZ)994182687140004120251028d2025 u| 0engur|||||||||||txtrdacontentcrdamediacrrdacarrierMicrowave Absorbers Materials Engineering /by Shiban K. Koul, M. Praveen, Karthikeya G. S1st ed. 2025.Singapore :Springer Nature Singapore :Imprint: Springer,2025.1 online resource (353 pages)Engineering Materials,1868-12129789819695959 Preface -- About the Authors -- List of Abbreviations -- 1. Introduction to Electromagnetic Absorbers -- 2. Material Characterization Methods -- 3. Microwave Characterization Techniques -- 4. Inorganic Materials for Electromagnetic Shielding -- 5.Carbon-based Materials for Electromagnetic Shielding -- 6. Polymers for Electromagnetic shielding -- 7. Frequency Selective Surfaces (FSS) -- 8. Future Scopes of Material Design for EMI Shielding -- 9. Research Gaps in Electromagnetic Shielding Materials -- 10. Conclusions and Areas for Future Research.With the exponential rise of wireless devices, the electromagnetic interference (EMI) phenomenon affects the performance of these devices. Hence, it is critical to investigate various approaches to hinder the EMI effects. One of the most popular techniques to reduce EMI is to design and deploy microwave absorbers. This book presents the design requirements of novel electromagnetic wave shielding materials for modern commercial devices. A detailed in-depth analysis of the material synthesis with numerous practical case studies are presented in this book. The principles of microwave characterization of these materials are also explored. The definitions and procedural methods to characterize the shielding effectiveness are also presented. The practical use of polymer nanocomposite prepared by MWCNT, SWCNT, nanofibers, graphene and various ferrites in the polymer matrix is discussed. Practical use-case scenarios of design processes of various polymers along with general nanomaterials, carbon nanomaterials, inorganic magnetic nanoparticles, are also investigated. Lastly, alternate shielding methods are reported in the book. .Engineering Materials,1868-1212PhysicsTelecommunicationMaterialsAnalysisMaterialsCarbonChemistryCondensed matterApplied and Technical PhysicsMicrowaves, RF Engineering and Optical CommunicationsMaterials Characterization TechniqueCarbon MaterialsTwo-dimensional MaterialsPhysics.Telecommunication.MaterialsAnalysis.Materials.Carbon.Chemistry.Condensed matter.Applied and Technical Physics.Microwaves, RF Engineering and Optical Communications.Materials Characterization Technique.Carbon Materials.Two-dimensional Materials.621Koul Shiban K726856Praveen M1853584G. S Karthikeya1853585MiAaPQMiAaPQMiAaPQBOOK9911035162403321Microwave Absorbers4450164UNINA