Molecular Design of Opto-Electronic Materials : From Single Molecules to Molecular Aggregates

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ISBN No.:	9783527833436
Pages:	400
Year:	202603
Format:	E-Book
Price:	$ 235.97
Dispatch delay:	Dispatched between 7 to 15 days
Status:	Available (Forthcoming)

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1. Introduction 1.1 Motivation 1.2 Overarching objective of this book 1.3 A brief history 1.4 Basic knowledge of organic compounds in the aggregated state 1.5 Overview of topics covered 2. The Molecular Engineering and Fabrication Processes for Molecular Aggregates 2.

1 Crystal engineering 2.2 Self-assembly system 2.3 Gel system 2.4 Cross-linking system 2.5 Host-guest system 3. The Research Methodology of Molecular Aggregation Science 3.1 The theoretical calculation 3.2 The crystal structures 3.

3 Atom force microscope (AFM) 3.4 The X-ray diffraction 3.5 2D grazing incidence wide-angle X-ray scattering (GIWAXS) 3.6 Nuclear magnetic resonance spectrum 3.7 Other methods 4. Photoluminescence of Molecular Aggregates 4.1 The internal mechanism and principle 4.2 Fluorescence materials 4.

3 Phosphorescence materials 5. Mechanoluminescence of Molecular Aggregates 5.1 The internal mechanism 5.2 Fixed emission 5.3 Dynamic emission 6. Molecular Aggregates as Hole-Transporting Layer in Perovskite Solar Cells 6.1 Construction and work principle 6.2 Doped hole-transporting materials 6.

3 Doped-free hole-transporting materials 7. Molecular Aggregates as Active Layer in Organic Photovoltaics 7.1 Construction and work principle 7.2 Organic solar cells 7.3 Polymer solar cells 8. Molecular Aggregates in Organic Light-Emitting Transistor (OLET) Devices 8.1 Construction and Work Principle 8.2 Organic semiconductor materials 8.

2.1 Polymers 8.2.2 Oligomers 8.2.3 Small molecules 9. Molecular Aggregates for Second-Order Non-Linear Optical Effect 9.1 Microscopic and macroscopic nonlinearities of organic systems 9.

2 Organic molecules for second-order nonlinear optics 9.3 Polymers for second-order nonlinear optics 10. Other Opto-Electronic Materials in Aggregate 10.1 Magnetic Materials 10.2 Metal-Organic Frameworks 10.3 Covalent-Organic Frameworks 11. The Relation Between Macroscopic Functions and Microscopic Structures 11.1 Molecular packing 11.

2 Intermolecular interactions 11.2.1 p-p interactions 11.2.2 Hydrogen bonding 12. Conclusions and Future Prospects.

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