Sustainable materials and green technologies

Through 2030 materials development for ultra-high-temperature superconducting magnets

superconducting materials fusion energy high-temperature superconductors particle physics material science

For cryogenic preservation durations exceeding 50 years in organ banking

cryopreservation organ banking biomedical engineering long-term storage transplantation technology

For photonic quantum memory enabling ultra-secure long-distance communication networks

quantum memory photonics secure communication quantum storage optical networks

Via backside power delivery networks to enhance next-generation semiconductor performance

backside power semiconductor design energy efficiency chip architecture integrated circuits

Optimizing cryogenic preservation durations for organ transplantation using novel cryoprotectants

cryopreservation organ transplantation cryoprotectants 低温生物学 medical storage

Harnessing topological insulators for low-power spintronics at terahertz oscillation frequencies

topological insulators spintronics terahertz frequencies quantum materials energy-efficient computing

Optimizing carbon nanotube vias for high-frequency integrated circuits in 2025

carbon nanotubes interconnects high-frequency circuits thermal management semiconductor

Using nuclear thermal propulsion for faster interplanetary missions to the outer solar system

nuclear propulsion interplanetary travel reactor design mission efficiency radiation management

Connecting medieval alchemy with materials discovery for sustainable pigments

medieval alchemy sustainable pigments materials science historical chemistry eco-friendly dyes

Preparing for 2032 processor nodes using epigenetic reprogramming in material science

epigenetic reprogramming processor nodes material science semiconductor manufacturing nanotechnology

Using atomic layer etching for 2nm nodes in quantum dot fabrication

atomic layer etching quantum dots 2nm nodes nanofabrication semiconductor manufacturing

Blending ancient materials science with nanotechnology for self-healing ceramics

ancient materials nanotechnology self-healing ceramics durability material science