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Appendix D
Preliminary Outlines of Panel Reports
Structural and Multifunctional Materials Panel Report
Summary
Introduction
Scope of Study
Inputs to the Panel
DOD Systems Needs Addressed by the Panel
Rationale for Panel Report Structure
Lighter, Stiffer, Stronger Materials for Space and Aerospace Structures
High-Temperature Materials for Propulsion and Reentry Vehicles
Smart Materials—Multifunctionality
Mobility Materials—Land and Sea Based
Non Destructive Investigation/Non Destructive Evaluation—Health Monitoring and Condition Based Maintenance
Operational Support Materials
Surface Treatments, Coatings, and Thin Films
Conclusions and Recommendations
Energy and Power Materials Panel Report
Executive Summary and Major Conclusions
Introduction
Statement of Task/Scope
Description of Study Process
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Overall System Needs Relevant to Panel
Guide to Panel Report
DOD Needs and Challenges
Energy Storage
Future Defense Needs for Energy Storage
Electrical and Electrochemical Storage
Batteries
Capacitors
Magnetic Energy Storage
Chemical Energy Storage
Fuels
Explosives and Propellants
Other
Energy Conversion
Future Defense Needs for Energy Conversion
Fuel Cells
Microturbines/MEMS Heat Engines
Other
Assessment of Need for DOD Investment
Power Generation
Future Defense Needs for Power Generation
Electric Propulsion
Generation Components (switches, drives, etc.)
Power Conditioning/Transmission
Assessment of Needs for DOD Investment
Energy on Target (Weapons)
Future Defense Needs for Placing Energy on Target
High- and Low-Energy Laser Weapons
High-Power Microwave (HPMV) and Acoustics
Particle Beams
Electro-Magnetic Launch
Assessment of Needs for DOD Investment
Energy Dissipation
Future Defense Needs for Energy Dissipation Materials
Armor
Body armor
Transparent armor
Active armor
Low- and High-Energy Laser-Hardened Materials
Other
Assessment of Need for DOD Investment
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Sensor-Related Energy and Power
Future Defense Needs
Unique Issues Related to Power, Energy, and Sensing
Assessment of Need for DOD Investment
Energy Sources
Future Defense Issues Regarding Energy Sources
DOD Reliance on Energy Sources
Energy Harvesting
Other
Assessment of Need for DOD Investment
Preferred Challenges
Crosscutting Issues to be Addressed to Meet Materials Challenges
Recommendations/Future Actions
Discarded Opportunities/Materials Science Challenges (Why discarded?)
Electronic and Photonic Materials Panel Report
Executive Summary
Introduction
Statement of Task/Scope
Description of Inputs to Panel
Overall System Needs Relevant to Panel
Guide to Panel Report
Electronics
Future Defense Needs for Advances in Electronics
Commercial/Other Drivers for Technologies Needed by DOD
DOD-Specific Needs in Electronics, Including “Ilities”
Assessment of the Need for DOD Investment
Optoelectronics And Photonics
Future Defense Needs for Advances in Optoelectronics And Photonics
Commercial/Other Drivers for Technologies Needed By DOD
DOD-Specific Needs in Optoelectronics and Photonics, Including “Ilities”
Assessment of the Need for DOD Investment
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Sensors
Future Defense Needs for Advances in Sensors
Commercial/Other Drivers for Technologies Needed by DOD
DOD-Specific Needs in Sensors, Including “Ilities”
Assessment of the Need for DOD Investment
Microsystems
Future Defense Needs for Advances in Microsystems
Commercial/Other Drivers for Technologies Needed by DOD
DOD-Specific Needs in Microsystems, Including “Ilities”
Assessment of the Need for DOD Investment
Conclusions And Recommendations
Functional Organic and Hybrid Materials Panel Report
Summary
Introduction
Scope of Study
Inputs to the Panel
DOD Systems Needs Addressed by the Panel
Rationale for Panel Report Structure
Low Molar Mass Organic Materials
Macromolecular Organic Materials
Polymer-Ceramic Hybrid Materials
Metallic Functional Materials with Organic Moieties
Conclusions And Recommendations
Bio-derived and Bio-inspired Materials Panel Report
Summary
Introduction
Scope of Study
Inputs to the Panel
DOD Systems Needs Addressed by the Panel
Rationale for Panel Report Structure
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Structural Materials: Weight Reduction, Ballistic Protection, Environmentally Driven Responsiveness, Self-Healing
Functional Materials: Sensors, Diagnostics, Fast Switching, Molecular Circuits, High Density Energy Storage.
Battlefield/Civilian Chemical and Biological Warfare Identification, Interdiction, Counteraction
Medical: Battlefield Wound Identification, Countermeasures
Conclusions and Recommendations
Representative terms from entire chapter:
panel report
