100 New Materials of the World in the Future

I. Nanomaterials & Quantum Materials (1–20)



  1. Next-generation graphene
  2. Two-dimensional materials beyond graphene (MXenes, phosphorene, etc.)
  3. Room-temperature superconducting materials
  4. Spintronic materials
  5. Topological materials
  6. Self-assembling nanomaterials
  7. Self-healing nanomaterials
  8. Bio-nanocomposite materials
  9. Next-generation quantum dots
  10. Plasmonic materials
  11. Atomically thin materials
  12. Radiation-resistant nanomaterials
  13. Bioelectrically conductive materials
  14. Energy-storage nanomaterials
  15. Corrosion-resistant nanomaterials
  16. Ultra-strong nanomaterials
  17. Light-manipulating nanomaterials
  18. Intelligent nanomaterials
  19. Bio–quantum hybrid materials
  20. Nanomaterials for biomedical implants






II. Smart & Adaptive Materials (21–40)



  1. Fully self-healing materials
  2. Shape-shifting materials
  3. Advanced shape-memory materials
  4. Environment-responsive materials
  5. Self-cleaning materials
  6. Materials capable of learning properties
  7. Color-changing adaptive materials
  8. Materials with tunable stiffness
  9. Smart shock-absorbing materials
  10. Electric-field-controlled materials
  11. Magnetic-field-controlled materials
  12. Living materials
  13. Self-damage-detecting materials
  14. Biologically adaptive materials
  15. Smart construction materials
  16. Sensor-integrated materials
  17. Self-optimizing materials
  18. Microstructure-transforming materials
  19. AI-interactive materials
  20. Real-time responsive materials






III. Biomaterials & Biomedical Materials (41–60)



  1. Fully biodegradable biomaterials
  2. Artificial tissue materials
  3. Cell-regenerative materials
  4. 3D bioprinting materials
  5. Next-generation artificial skin materials
  6. Ultra-durable bone graft materials
  7. Neuro-compatible materials
  8. Smart implant materials
  9. Bio-signal transmission materials
  10. Living tissue-healing materials
  11. Anti-cancer biomaterials
  12. Naturally antibacterial materials
  13. Longevity-enhancing biomaterials
  14. Artificial organ replacement materials
  15. Engineered protein materials
  16. Synthetic DNA-based materials
  17. Immune-boosting biomaterials
  18. Hormone-regulating biomaterials
  19. Bio–electronic hybrid materials
  20. Semi-living materials






IV. Energy & Environmental Materials (61–80)



  1. Solid-state battery materials
  2. Hydrogen storage materials
  3. Biological battery materials
  4. Next-generation photovoltaic materials
  5. Ambient energy-harvesting materials
  6. CO₂-absorbing materials
  7. Ultra-efficient water filtration materials
  8. Energy-efficient desalination materials
  9. Infinitely recyclable materials
  10. Zero-emission materials
  11. Passive cooling materials
  12. Smart thermal-reflective materials
  13. Energy-conversion materials
  14. Green catalyst materials
  15. Anti-pollution materials
  16. Environmental regeneration materials
  17. Rare-earth recovery materials
  18. Anti-plastic-waste materials
  19. Artificial ecological materials
  20. Circular-economy materials






V. Extreme & Far-Future Materials (81–100)



  1. Ultra-durable space materials
  2. Ultra-high-temperature-resistant materials
  3. Cosmic-radiation-shielding materials
  4. Optical cloaking materials
  5. Wave-manipulating metamaterials
  6. Artificial anti-gravity materials
  7. Ultra-lightweight, ultra-strong materials
  8. Space elevator materials
  9. Off-Earth construction materials
  10. Self-growing materials
  11. Programmable materials
  12. 4D materials (time-responsive materials)
  13. Materials for physical artificial intelligence
  14. Soft robotics materials
  15. Materials for artificial brains
  16. Post-carbon civilization materials
  17. Materials for super-aging societies
  18. Space colony materials
  19. Interplanetary civilization materials
  20. Materials that co-evolve with humanity


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