Sustainable energy solutions via novel material engineering

Perovskite-silicon tandem cells with self-healing coatings for desert solar farms

tandem solar cells self-healing materials desert energy perovskite degradation coating technology

Through quantum dot charge trapping for ultra-stable perovskite solar cells

quantum dots perovskite solar cells charge trapping photovoltaics

With albedo-modifying urban materials to mitigate heat island effects in coastal megacities

passive radiative cooling hydrochromic pigments thermal emissivity tuning flood-resilient infrastructure

At exciton diffusion lengths: engineering organic solar cells for 22nd-century energy needs

exciton diffusion organic photovoltaics renewable energy charge transport solar efficiency

Focusing on 2020s breakthroughs in perovskite solar cell efficiency

perovskite solar cells renewable energy photovoltaics 2020s breakthroughs energy efficiency

Optimizing waste-heat thermoelectrics for industrial exhaust recovery using nanostructured bismuth telluride

thermoelectrics waste-heat recovery bismuth telluride industrial efficiency nanostructuring

Employing germanium-silicon strain engineering to boost quantum dot solar cell performance

strain engineering quantum dots solar cells germanium-silicon photovoltaics

Using forbidden physics concepts to achieve room-temperature superconductivity in hybrid materials

exotic superconductivity quantum anomalies hybrid materials room-temperature superconductors

In picocubic reaction chambers for high-throughput synthesis of exotic metastable compounds

metastable materials femtochemistry high-throughput synthesis picocubic reactors

With perovskite-silicon tandem cells to break the 30% efficiency barrier in solar panels

perovskite-silicon tandem cells solar efficiency photovoltaics renewable energy material science

Considering 10,000-year material stability for deep geological nuclear waste encapsulation coatings

nuclear waste storage material degradation long-term stability corrosion resistance geological disposal

With self-heating mitigation in 3nm nodes using graphene thermal vias

nanoelectronics thermal management advanced materials chip design