Sustainable materials and energy solutions for 2035 SDGs

Optimizing redox flow battery efficiency for large-scale renewable energy storage

redox flow batteries renewable storage electrolyte optimization grid integration energy density

Optimizing redox flow battery efficiency via novel electrolyte formulations for grid-scale storage

redox flow batteries electrolyte optimization grid storage energy density renewable energy

Hydrogen storage in metal-organic frameworks for decentralized renewable energy grids by 2035

MOF hydrogen storage decentralized energy renewable grids SDG7 material design

Aligning with 2035 SDG targets through next-generation biodegradable polymer development

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Blending ancient Roman concrete techniques with modern nanotechnology for durable infrastructure

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Anticipating 2035 energy grid demands with hydrogen storage metal-organic frameworks

hydrogen storage metal-organic frameworks energy grid renewable energy grid stability

Optimizing redox flow battery efficiency through novel electrolyte formulations and electrode designs

redox flow battery electrolyte optimization electrode design energy storage renewable integration

Aligning carbon capture technologies with 2035 SDG targets for industrial decarbonization

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Combining ancient and modern methods for low-carbon concrete using Roman cement techniques

Roman concrete sustainable construction carbon reduction material science ancient techniques

Optimizing enzymatic polymerization for biodegradable plastic alternatives

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Using biocatalytic cascades for solvent-free synthesis of biodegradable polymers

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Self-healing concrete with embedded fungal spores for infrastructure resilience

self-healing materials fungal biotechnology civil engineering biocementation infrastructure durability