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"Sei naiv und mach' ein Experiment" [[electronic resource] ] : Feodor Lynen, Biographie des Münchner Biochemikers und Nobelpreisträgers / / Heike Will
"Sei naiv und mach' ein Experiment" [[electronic resource] ] : Feodor Lynen, Biographie des Münchner Biochemikers und Nobelpreisträgers / / Heike Will
Autore Will Heike
Edizione [1. Aufl.]
Pubbl/distr/stampa Weinheim, : Wiley-VCH, 2011
Descrizione fisica 1 online resource (364 p.)
Disciplina 331 702
Soggetto topico Biochemists - Germany
Soggetto genere / forma Electronic books.
ISBN 1-280-66562-9
9786613642554
3-527-63651-X
3-527-63650-1
3-527-63649-8
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione ger
Nota di contenuto Feodor Lynen; Inhalt; Vorwort; Danksagung; Herkunft; Kindheit und Jugend (1911 - 1930); Studienjahre (1930 - 1937); Schwiegervater Heinrich Wieland; Beruflicher und familiärer Beginn (1937 bis 1945); Neubeginn (1945 - 1947); Überwindung der Isolation (1948 - 1952); Internationale Rufe (1952 - 1953); Aufnahme in die Max-Planck-Gesellschaft (1953 - 1958); Reiche Jahre (1958 - 1964); Nobelpreis (1964); Expansion (1965 - 1973); Die letzten Jahre (1974 - 1979); Schluss; Gesamtverzeichnis der verwendeten Literatur und Quellen; Anhang; Anekdoten
Themen und Anzahl der Veröffentlichungen Feodor LynensKurzportraits der wissenschaftlichen Mitarbeiter und Gastwissenschaftler in Feodor Lynens Laboratorium (Bernd Hamprecht); Lynens Nobelpreiswürdige Beiträge zur Aufklärung der Wege des Fettsäure- und Cholesterol-Stoffwechsels (Bernd Hamprecht); Stichwortregister
Record Nr. UNINA-9910130907403321
Will Heike  
Weinheim, : Wiley-VCH, 2011
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1 : Mathematics and physics in chemical enngineering : fundamentals of chemical engineering
1 : Mathematics and physics in chemical enngineering : fundamentals of chemical engineering
Autore ULLMANN, Fritz
Pubbl/distr/stampa Weinheim : Wiley-VCH, copyr. 2005
Descrizione fisica XVIII, 870 p. : ill. ; 25 cm
Disciplina 660
Soggetto topico Ingegneria chimica
Impianti chimici - Progettazione
Processi chimici
ISBN 3-527-31111-4
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Record Nr. UNISA-990002937310203316
ULLMANN, Fritz  
Weinheim : Wiley-VCH, copyr. 2005
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100 years Werner Heisenberg : works and impact [e-book] / edited by Dietrich Papenfuss, Dieter Lüst, Wolfgang P. Schleich
100 years Werner Heisenberg : works and impact [e-book] / edited by Dietrich Papenfuss, Dieter Lüst, Wolfgang P. Schleich
Pubbl/distr/stampa Weinheim : Wiley-VCH, c2002
Descrizione fisica 1 online resource (ix, 299 p.) : illustrations
Disciplina 530/.092
Altri autori (Persone) Papenfuss, Dietrich
Lüst, Dieter
Schleich, Wolfgang P.
Soggetto (Persona) Heisenberg, Werner, 1901-1976 Congresses
Soggetto topico Physics - History - Congresses
Quantum theory - History - Congresses
ISBN 9783527610853
Classificazione LC QC16.H35
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Altri titoli varianti One hundred years Werner Heisenberg
Record Nr. UNISALENTO-991003938749707536
Weinheim : Wiley-VCH, c2002
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Die 12 Lektionen zur Fhrung im Change Management / / Frances Hesselbein, Rob Johnston ; Übersetzt von Silvia Kinkel
Die 12 Lektionen zur Fhrung im Change Management / / Frances Hesselbein, Rob Johnston ; Übersetzt von Silvia Kinkel
Autore Hesselbein Frances
Edizione [1. Auflage.]
Pubbl/distr/stampa Weinheim, [Germany] : , : Wiley-VCH, , 2015
Descrizione fisica 1 online resource (117 p.)
Disciplina 658.406
Soggetto topico Organizational change - Management
ISBN 3-527-69742-X
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione ger
Record Nr. UNINA-9910159397803321
Hesselbein Frances  
Weinheim, [Germany] : , : Wiley-VCH, , 2015
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150 and more basic NMR experiments : a pratical course / S.Braun, H.O Kalinowski, S. Berger
150 and more basic NMR experiments : a pratical course / S.Braun, H.O Kalinowski, S. Berger
Autore Braun, S.
Edizione [2nd ed. exspanded]
Pubbl/distr/stampa Winheim : Wiley-VCH, 1998
Descrizione fisica 596 p. ; 24 cm
Altri autori (Persone) Kalinowski, Hans-Otto
Berger, Stefan <1946- >
ISBN 3-527-29512-7
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Record Nr. UNINA-990008235070403321
Braun, S.  
Winheim : Wiley-VCH, 1998
Materiale a stampa
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150 and more basic NMR experiments : a practical course / S. Braun, H.-O. Kalinowski, S. Berger
150 and more basic NMR experiments : a practical course / S. Braun, H.-O. Kalinowski, S. Berger
Autore Braun, Siegmar
Edizione [2nd expanded ed]
Pubbl/distr/stampa Weinheim [etc.] : Wiley-VCH, copyr. 1998
Descrizione fisica 596 p. : ill. ; 24 cm
Disciplina 5430877
Soggetto non controllato chimica analitica
spettroscopia a risonanza magnetica nucleare
ISBN 3-527-29512-7
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Record Nr. UNISA-990000242100203316
Braun, Siegmar  
Weinheim [etc.] : Wiley-VCH, copyr. 1998
Materiale a stampa
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150 and more basic NMR experiments : a practical course / S.Braun, H.-O.Kalinowski, S.Berger
150 and more basic NMR experiments : a practical course / S.Braun, H.-O.Kalinowski, S.Berger
Autore BRAUN, Siegmar
Edizione [2.expanded ed.]
Pubbl/distr/stampa Weinheim : Wiley-VCH, copyr.1998
Descrizione fisica 596 p. ; 24 cm
Disciplina 538.362
Altri autori (Persone) BERGER, S.
KALINOWSKI, H.-O.
Soggetto topico Risonanza magnetica nucleare
ISBN 3-527-29512-7
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Record Nr. UNISA-990000085170203316
BRAUN, Siegmar  
Weinheim : Wiley-VCH, copyr.1998
Materiale a stampa
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2 : Plant and process design
2 : Plant and process design
Autore ULLMANN, Fritz
Pubbl/distr/stampa Weinheim : Wiley-VCH, copyr. 2005
Descrizione fisica XVI, P. 873-1381 : ill. ; 25 cm
Disciplina 660
Soggetto topico Ingegneria chimica
Impianti chimici - Progettazione
Processi chimici
ISBN 3-527-31111-4
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Record Nr. UNISA-990002937320203316
ULLMANN, Fritz  
Weinheim : Wiley-VCH, copyr. 2005
Materiale a stampa
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200 and more NMR experiments : a pratical course / Stefan Berger, Siegmar Braun
200 and more NMR experiments : a pratical course / Stefan Berger, Siegmar Braun
Autore Berger, Stefan <1946- >
Edizione [2nd ed.]
Pubbl/distr/stampa Weinheim : Wiley-VCH, c2004
Descrizione fisica XV, 838 p. ; 24 cm
Disciplina 543.087 7
Altri autori (Persone) Braun, Siegmar
Soggetto non controllato Risonanza magnetica nucleare
ISBN 3-527-31067-3
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Record Nr. UNINA-990007939850403321
Berger, Stefan <1946- >  
Weinheim : Wiley-VCH, c2004
Materiale a stampa
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2D functional nanomaterials : synthesis, characterization, and applications / / edited by Ganesh S. Kamble
2D functional nanomaterials : synthesis, characterization, and applications / / edited by Ganesh S. Kamble
Pubbl/distr/stampa Weinheim, Germany : , : Wiley-VCH, , [2022]
Descrizione fisica 1 online resource (449 pages)
Disciplina 620.115
Soggetto topico Nanostructured materials - Synthesis
Nanostructured materials
Nanostructures
Soggetto genere / forma Electronic books.
ISBN 3-527-82394-8
3-527-82396-4
3-527-82395-6
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto Cover -- Title Page -- Copyright -- Contents -- Foreword -- Preface -- Chapter 1 Graphene Chemical Derivatives Synthesis and Applications: State‐of‐the‐Art and Perspectives -- 1.1 Introduction -- 1.2 Graphene Oxide: Synthesis Methods and Chemistry Alteration -- 1.3 Graphene Oxide Reduction and Functionalization -- 1.4 Applications of CMGs -- 1.5 Concluding Remarks -- Acknowledgments -- References -- Chapter 2 2D/2D Graphene Oxide‐Layered Double Hydroxide Nanocomposite for the Immobilization of Different Radionuclides -- 2.1 Introduction -- 2.2 Synthesis of GO/LDH Composite -- 2.2.1 Co‐precipitation -- 2.2.2 Hydrothermal Preparation -- 2.2.3 Self‐Assembly of LDH Nanosheets with GO Nanosheets -- 2.3 Removal of Radionuclides -- 2.3.1 U(VI) Removal -- 2.3.2 Sorption of Eu(III) with the Presence of GO on LDH -- 2.3.3 Co‐remediation Anionic SeO42− and Cationic Sr2+ -- 2.4 Conclusion -- References -- Chapter 3 2D Nanomaterials for Biomedical Applications -- 3.1 Introduction -- 3.1.1 Photothermal and Photodynamic Therapy -- 3.1.2 Bioimaging and Drug/Gene Delivery -- 3.1.3 Biosensors -- 3.1.4 Antibacterial Activity -- 3.1.5 Tissue Engineering and Regenerative Medicine -- 3.2 Conclusions -- References -- Chapter 4 Novel Two‐Dimensional Nanomaterials for Next‐Generation Photodetectors -- 4.1 Introduction -- 4.2 2D Materials for PDs -- 4.2.1 Graphene -- 4.2.2 TMDs (Transition Metal Dichalcogenides) -- 4.2.3 MXenes (2D Transition Metal Carbides/Nitrides) -- 4.2.4 Xenes (Monoelemental 2D Materials) -- 4.3 The Physical Mechanism Enabling Photodetection -- 4.4 Characterization Parameters for Photodetectors -- 4.4.1 Responsivity -- 4.4.2 Detectivity -- 4.4.3 External Quantum Efficiency -- 4.4.4 Gain -- 4.4.5 Response Time -- 4.4.6 Noise Equivalent Power -- 4.5 Synthesis Methods for 2D Materials -- 4.5.1 Mechanical Exfoliation -- 4.5.2 Liquid Exfoliation.
4.5.3 Chemical Vapor Deposition (CVD) -- 4.6 Photodetectors Based on 2D Materials -- 4.6.1 Photodetectors Based on Graphene -- 4.6.2 Photodetectors Based on MoS2 -- 4.6.3 Photodetectors Based on BP -- 4.7 Photodetectors Based on 2D Heterostructures -- 4.8 Conclusions and Outlook -- References -- Chapter 5 2D Nanomaterials for Cancer Therapy -- 5.1 Introduction -- 5.2 2D Nanomaterials for Cancer Therapy -- 5.2.1 2D Nanomaterials for Combination PTT with PDT -- 5.2.2 2D‐Nanomaterials for Combination PTT Therapy with Radiotherapy (RT) -- 5.2.3 2D Nanomaterials for Combination PTT Therapy with Sonodynamic Therapy (SDT) -- 5.2.4 2D Nanomaterials for Combination PTT Therapy with Immune Therapy (ImT) -- 5.3 Summary and Future Perspectives -- References -- Chapter 6 Graphene and Its Derivatives - Synthesis and Applications -- 6.1 Introduction -- 6.2 Graphite -- 6.2.1 Define -- 6.2.2 Synthetic Graphite -- 6.2.3 Characterized and Properties of Graphite -- 6.2.3.1 Structure -- 6.2.4 Applications -- 6.3 Graphene Oxide -- 6.3.1 Define -- 6.3.2 Synthetic of Graphene Oxide -- 6.3.3 Characterized and Properties of Graphene Oxide -- 6.3.3.1 Structure -- 6.3.3.2 Properties of Graphene Oxide -- 6.3.3.3 Applications of Graphene Oxide -- 6.3.3.4 Few Examples -- 6.4 Reduced Graphene Oxide -- 6.4.1 Define -- 6.4.2 Synthetic of Reduced Graphene Oxide or Reduction of Graphene Oxide -- 6.4.2.1 Thermal Reduction of GO -- 6.4.2.2 Photocatalytic Method -- 6.4.2.3 Electrochemical Method -- 6.4.2.4 Other Methods -- 6.4.3 Characterized, Structure, and Properties of Reduced Graphene Oxide -- 6.4.3.1 Structure -- 6.4.3.2 Properties and Applications of Reduced Graphene Oxide -- 6.5 Graphene -- 6.5.1 Define -- 6.5.2 Synthesis of Graphene -- 6.5.2.1 Chemical Vapor Deposition (CVD) -- 6.5.2.2 Epitaxial Growth -- 6.5.2.3 Mechanical Exfoliation.
6.5.2.4 Chemical Reduction of Graphene Oxide (GO) -- 6.5.3 Characterized, Structure, and Properties of Graphene -- 6.5.3.1 Surface Properties -- 6.5.3.2 Electronic Properties -- 6.5.3.3 Optical Properties -- 6.5.3.4 Mechanical Properties -- 6.5.3.5 Thermal Properties -- 6.5.3.6 Photocatalytic Properties -- 6.5.3.7 Magnetic Properties -- 6.5.3.8 Characterizations of Graphene -- 6.5.3.9 Morphology (SEM, TEM, and AFM) -- 6.5.3.10 Raman Spectroscopy -- 6.5.3.11 X‐ray Photoelectron Spectroscopy (XPS) -- 6.5.3.12 UV-Visible Spectroscopy -- 6.5.3.13 X‐ray Diffraction (XRD) -- 6.5.3.14 Thermogravimetric Analysis (TGA) -- 6.5.3.15 FTIR Spectroscopy -- 6.5.4 Application of Graphene -- References -- Chapter 7 Recent Trends in Graphene - Latex Nanocomposites -- 7.1 Introduction -- 7.2 Polymer Lattices - An Overview -- 7.3 Graphene - Background -- 7.4 Preparation and Functionalization of Graphene -- 7.5 Graphene - Latex Nanocomposites: Preparation Properties and Applications -- 7.6 Conclusions -- References -- Chapter 8 Advanced Characterization and Techniques -- 8.1 Introduction -- 8.2 Characterization Techniques -- 8.2.1 Optical Techniques - Dynamic Light Scattering (DLS) -- 8.2.2 Optical Spectroscopy -- 8.2.3 NMR‐Nuclear Magnetic Resonance Spectroscopy -- 8.2.4 Infrared Spectroscopy (IR) and Raman Spectroscopy -- 8.2.5 X‐Ray Photoelectron Spectroscopy (XPS) -- 8.2.6 Characterization Based on Interactions with Electrons or Electron Microscopy (EM) -- 8.2.6.1 Scanning Electron Microscopy (SEM) -- 8.2.6.2 Transmission Electron Microscopy (TEM) -- 8.2.6.3 Scanning Transmission Electron Microscopy (STEM) -- 8.2.6.4 Scanning Tunneling Microscopy (STM) -- 8.2.7 Atomic Force Microscopy (AFM) -- 8.2.8 Kelvin Probe Force Microscopy (KPFM) -- 8.2.9 X‐Ray‐Based Techniques -- References -- Chapter 9 2D Nanomaterials: Sustainable Materials for Cancer Therapy Applications.
9.1 Introduction -- 9.2 Types of 2D Nanomaterials -- 9.3 Methods for the Synthesis of 2D Nanomaterials -- 9.4 Mechanism of Cancer Theranostics -- 9.5 Applications of 2D Nanomaterials -- 9.6 Conclusion -- References -- Chapter 10 Recent Advances in Functional 2D Materials for Field Effect Transistors and Nonvolatile Resistive Memories -- 10.1 Introduction to 2D Materials -- 10.2 Electronic Band Structure in 2D Materials -- 10.3 Electronic Transport Properties of 2D Materials -- 10.4 Two‐Dimensional Materials in Field Effect Transistors -- 10.4.1 Field Effect Transistors -- 10.4.2 The Rise of 2D Materials Research in FETs -- 10.4.3 Graphene‐Based Field Effect Transistors -- 10.4.4 2D Transition Metal Dichalcogenides (TMDCs) in Transistors -- 10.5 Two‐Dimensional Materials as Nonvolatile Resistive Memories -- 10.5.1 Nonvolatile Resistive Memories Based on Graphene and Its Derivatives -- 10.5.2 Resistive Switching Memories in 2D Materials "Beyond" Graphene -- 10.5.2.1 Solution‐Processed MoS2‐Based Resistive Memories -- 10.5.2.2 Solution‐Processed Black Phosphorous Nonvolatile Resistive Memories -- 10.5.2.3 Emerging NVM Based on Hexagonal Boron Nitride (h‐BN) -- 10.6 Conclusions and Outlook -- References -- Chapter 11 2D Advanced Functional Nanomaterials for Cancer Therapy -- 11.1 Introduction -- 11.2 2D Nanomaterials Classification -- 11.2.1 Graphene Family Nanomaterials -- 11.2.2 Transition Metal Dichalcogenides (TMDs) -- 11.2.3 Layered Double Hydroxides (LDHs) -- 11.2.4 Carbonitrides (MXenes) -- 11.2.5 Black Phosphorus (BP) -- 11.3 Cancer Therapy -- 11.3.1 Mechanism of Action in Cancer Therapy -- 11.3.1.1 Mode of Action of 2D Nanomaterials -- 11.3.2 Photodynamic Therapy for Cancer Cell Treatment -- 11.3.2.1 Mechanism of Photodynamic Therapy -- 11.3.2.2 2D Nanomaterials as Photosensitizer for PDT.
11.3.2.3 Application of 2D Nanomaterials in Photodynamic Therapy -- 11.3.3 2D Nanomaterials‐Cancer Detection/Diagnosis/Theragnostic -- 11.4 Tissue Engineering -- 11.5 Conclusion -- Acknowledgment -- References -- Chapter 12 Synthesis of Nanostructured Materials Via Green and Sol-Gel Methods: A Review -- 12.1 Introduction -- 12.2 Methods Used in Nanostructured Synthesis -- 12.2.1 Green Method of Nanoparticles Synthesis -- 12.2.2 Sol-Gel Method of Nanoparticles Synthesis -- 12.2.3 Green Method of Nanocomposites Synthesis -- 12.2.4 Sol-Gel Method of Nanocomposites -- 12.3 Discussion -- 12.4 Conclusion -- References -- Chapter 13 Study of Antimicrobial Activity of ZnO Nanoparticles Using Leaves Extract of Ficus auriculata Based on Green Chemistry Principles -- 13.1 Introduction -- 13.2 Materials and Methods -- 13.2.1 Chemicals -- 13.2.2 Methodology -- 13.2.3 Antimicrobial Activity -- 13.3 Results and Discussion -- 13.3.1 Characterization of Synthesized Zinc‐Oxide Nanoparticles (ZnONPs) -- 13.3.1.1 XRD Analysis -- 13.3.1.2 FT‐IR Analysis -- 13.3.1.3 SEM Analysis -- 13.3.1.4 TEM Analysis -- 13.3.2 Antibacterial Activity -- 13.4 Conclusion -- Acknowledgments -- References -- Chapter 14 Piezoelectric Properties of Na1−xKxNbO3 near x & -- equals -- 0.475, Morphotropic Phase Region -- 14.1 Introduction -- 14.2 Experimental Procedure -- 14.3 Results and Discussion -- References -- Chapter 15 Synthesis and Characterization of SDC Nano‐Powder for IT‐SOFC Applications -- 15.1 Introduction -- 15.1.1 Solid Oxide Fuel Cells (SOFCs) -- 15.1.2 Intermediate Temperature Solid Oxide Fuel Cells (IT‐SOFCs) -- 15.1.3 Why Samarium‐Doped Ceria (SDC) Material? -- 15.1.4 Various Synthesis Methods for SDC -- 15.1.5 Why SDC Synthesis by Combustion Process? -- 15.1.6 Why SDC Synthesis by Glycine Nitrate Combustion Process (GNP)?.
15.1.7 Applications of SDC Material Related to Intermediate Temperature Solid Oxide Fuel Cells.
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