Washington, D.C., : National Academies Press, 2011

1-283-37645-8

9786613376459

0-309-22160-9

1 online resource (92 p.)

SmithMarcia

629.40973

Space sciences - United States

Disclosure of information - United States

Government publicity - United States

Electronic books.

Outer space Exploration United States Congresses

Inglese

"Space Studies Board, Division on Engineering and Physical Sciences."

Includes bibliographical references.

""Front Matter""; ""Preface""; ""Acknowledgment of Reviewers""; ""Contents""; ""Workshop Overview""; ""Keynote Address: No Guts . . . No Glory Why NASA Needs to Relish the Risk to Stay Relevant""; ""Session 1: Answering Grand Questions""; ""Session 2: Understanding the Universe: How Did It Begin and How Is It Evolving?""; ""Session 3: Are We Alone?""; ""Session 4: Understanding the Solar System: How Did It Begin and How Is It Evolving?""; ""Session 5: The Earth: Will It Remain a Hospitable Home for Humanity in the Future?""; ""Session 6: What Could the Future Hold for Humans in Space?""

""Session 7: Inspiring Public Interest in Space Research and Exploration: Communications Challenges and Opportunities""""Session 8: Communication Pathways to the Public: Reading, Watching, Interacting""; ""Summary and Concluding Remarks""; ""Appendixes""; ""Appendix A: Statement of Task""; ""Appendix B: Workshop Agenda""; ""Appendix C: Biographies of Speakers, Moderators, Planning

Committee, Rapporteur, and Reviewers""

Hoboken, : Wiley, 2012

9786613642561

9783527646760

3527646760

9781280665639

1280665637

9783527646777

3527646779

9783527646746

3527646744

1 online resource (1124 p.)

SchlenoffJoe B

530.4275

Nanostructured materials

Polyelectrolytes

Thin films, Multilayered

Nanocomposites (Materials)

Inglese

Description based upon print version of record.

Multilayer Thin Films: Sequential Assembly of Nanocomposite Materials; Contents; List of Contributors; 1 Layer-by-Layer Assembly (Putting Molecules to Work); 1.1 The Whole is More than the Sum of its Parts; 1.2 From Self-Assembly to Directed Assembly; 1.3 History and Development of the Layer-by-Layer Assembly Method; 1.4 LbL-Assembly is the Synthesis of Fuzzy Supramolecular Objects; 1.5 Reproducibility and Choice of Deposition Conditions; 1.6 Monitoring Multilayer Build-up; 1.7 Spray- and Spin-Assisted Multilayer Assembly; 1.8 Recent Developments; 1.8.1 Self-patterning LbL-Films

1.8.2 Deposition of LbL-Films on Very Small Particles 1.8.3 Purely

Inorganic LbL-''Films''; 1.9 Final Remarks; References; Part I: Preparation and Characterization; 2 Layer-by-Layer Processed Multilayers: Challenges and Opportunities; 2.1 Introduction; 2.2 Fundamental Challenges and Opportunities; 2.2.1 LbL Assembly on Nanoscale Elements and in Confined Geometries; 2.2.2 Living Cells as Functional Elements of Polyelectrolyte Multilayers; 2.2.3 Multilayer Cellular Backpacks; 2.2.4 Direct LbL Processing of Living Cells; 2.3 Technological Challenges and Opportunities

2.3.1 Improving Processing Time and Versatility 2.3.2 Towards Mechanically Robust Multilayer Coatings; 2.4 The Path Forward; References; 3 Layer-by-Layer Assembly: from Conventional to Unconventional Methods; 3.1 Introduction; 3.2 Conventional LbL Methods; 3.2.1 Electrostatic LbL Assembly; 3.2.2 Hydrogen-Bonded LbL Assembly; 3.2.3 LbL Assembly Driven by Coordination Interaction; 3.2.4 To Combine LbL Assembly and Post-Chemical Reaction for the Fabrication of Robust Thin Films; 3.3 Unconventional LbL Methods; 3.3.1 Electrostatic Complex for Unconventional LbL Assembly

3.3.1.1 Nanoreactors with Enhanced Quantum Yield 3.3.1.2 ''Ion Traps'' for Enhancing the Permselectivity and Permeability; 3.3.1.3 Surface Imprinted LbL Films; 3.3.1.4 Cation-Selective μCP Based on SMILbL Film; 3.3.2 Hydrogen-Bonded Complex for Unconventional LbL Assembly; 3.3.3 Block Copolymer Micelles for Unconventional LbL Assembly; 3.3.4 π-π Interaction Complex for Electrostatic LbL Assembly; 3.4 Summary and Outlook; References; 4 Novel Multilayer Thin Films: Hierarchic Layer-by-Layer (Hi-LbL) Assemblies; 4.1 Introduction; 4.2 Hi-LbL for Multi-Cellular Models

4.3 Hi-LbL for Unusual Drug Delivery Modes 4.4 Hi-LbL for Sensors; 4.4.1 Mesoporous Carbon Hi-LbL; 4.4.2 Mesoporous Carbon Capsule Hi-LbL; 4.4.3 Graphene/Ionic-Liquid Hi-LbL; 4.5 Future Perspectives; References; 5 Layer-by-Layer Assembly Using Host-Guest Interactions; 5.1 Introduction; 5.2 Supramolecular Layer-by-Layer Assembly; 5.3 3D Patterned Multilayer Assemblies on Surfaces; 5.4 3D Supramolecular Nanoparticle Crystal Structures; 5.5 Porous 3D Supramolecular Assemblies in Solution; 5.6 Conclusions; References

6 LbL Assemblies Using van der Waals or Affinity Interactions and Their Applications

This second, comprehensive edition of the pioneering book in this field has been completely revised and extended, now stretching to two volumes. The result is a comprehensive summary of layer-by-layer assembled, truly hybrid nanomaterials and thin films, covering organic, inorganic, colloidal, macromolecular and biological components, plus the assembly of nanoscale films derived from them on surfaces. For anyone working in the field as well as scientists and researchers active in materials development who need the key knowledge provided here for linking the fields of molecular self-assembly