Three-dimensional microfabrication using two-photon polymerization : fundamentals, technology, and applications /

Mostrar otras versiones (1)
Detalles Bibliográficos
Clasificación:Libro Electrónico
Otros Autores: Baldacchini, Tommaso (Editor )
Formato: Electrónico eBook
Idioma:Inglés
Publicado: Amsterdam : Elsevier Ltd., [2016]
Colección:Micro & nano technologies.
Temas:
Microfabrication.
Two-photon absorbing materials.
Polymerization.
Mat�eriaux absorbants �a deux photons.
Polym�erisation.
polymerization.
TECHNOLOGY & ENGINEERING / Technical & Manufacturing Industries & Trades
Acceso en línea:Texto completo
Tabla de Contenidos:
  • Cover; Title Page; Copyright Page; Contents; List of Contributors; Foreword: Here, a small step toward a grand vision; Introduction; References; 1
  • Laser Direct Writing for Additive Micro-Manufacturing; Chapter 1.1
  • Laser-based micro-additive manufacturing technologies; 1
  • Beyond photolithography: direct-write microfabrication; 2
  • Introduction to nonlithographic microfabrication techniques; 3
  • Laser-based microfabrication; 3.1
  • Advantages of laser-based techniques for 3D microfabrication; 3.2
  • Laser micromachining; 4
  • Laser-based additive microfabrication
  • 4.1
  • Laser chemical vapor deposition4.2
  • Laser-induced forward transfer; 5
  • 2D microfabrication by LIFT; 5.1
  • Printing of functional materials; 5.1.1
  • LIFT of nanoinks; 5.1.2
  • LIFT of entire functional devices; 5.2
  • Printing of high-viscosity nanopastes for congruent transfers; 5.3
  • Printing of freestanding structures; 6
  • 3D microfabrication by LIFT; 7
  • Parallelizing the LIFT process; 8
  • Summary; Acknowledgments; References; Chapter 1.2
  • Microstereolithography; 1
  • Introduction; 2
  • Rapid prototyping and stereolithography; 3
  • Improving stereolithography resolution
  • 3.1
  • Reducing the thickness of the layers3.2
  • Avoiding local degradations of the vertical resolution; 3.3
  • Improving the lateral resolution; 4
  • Microstereolithography techniques based on a scanning principle; 5
  • Microstereolithography techniques based on a projection principle; 6
  • Microstereolithography processes having a submicrometer resolution; 6.1
  • Two-photon microstereolithography; 6.2
  • One-photon under-the-surface microstereolithography; 7
  • Microfabrication with microstereolithography; 7.1
  • Microstereolithography components containing inserts
  • 7.2
  • Microstereolithography of composite materials7.3
  • Microstereolithography components for biomedical applications; 8
  • Conclusions; References; Chapter 1.3
  • Fundamentals of two-photon fabrication; 1
  • Introduction; 2
  • Nonlinear absorption; 3
  • Photoresists; 4
  • Direct fabrication in other materials; 5
  • Other strategies; References; Chapter 2
  • Free radical photopolymerization of multifunctional monomers; 1
  • Introduction; 2
  • Polymerization stages and rate equations; 3
  • Effect of diffusional processes on propagation and termination steps; 3.1
  • Linear systems
  • 3.2
  • Cross-linking systems4
  • Effect of polymerization conditions on the polymerization kinetics; 4.1
  • Viscosity effect; 4.2
  • Oxygen effect; 4.3
  • Polymerization in the dark (postcuring effect); 5
  • Effect of monomer functionality and structure; 6
  • Concluding remarks; Acknowledgment; References; Chapter 3
  • Reaction mechanisms and in situ process diagnostics; 1
  • Introduction; 2
  • Initiation; 2.1
  • Threshold behavior; 2.2
  • Multiphoton absorption; 2.3
  • Excitation mechanisms; 2.4
  • Sample heating; 3
  • Polymerization; 3.1
  • Monomer conversion; 3.2
  • Oxygen inhibition
  • 3.3
  • Diffusion processes

Ejemplares similares