Through its US subsidiary, Mission Solar Energy, the Korean company will invest US$265 million in the construction of the ...

Scaling up biohybrid robots has been difficult due to the weak contractile force of lab-grown muscles, the risk of necrosis in thick muscle tissues, and the challenge of integrating biological ...

Scientists at the Institute of Organic Chemistry, University of Vienna, have unveiled an innovative approach for synthesizing ...

New research from Stanford University has investigated the performance limits of transition metal dichalcogenide solar cells ...

Peanut butter and jelly. Simon and Garfunkel. Semiconductors and bacteria. Some combinations are more durable than others. In ...

Lead halide perovskites have achieved remarkable power conversion efficiencies (PCE) of up to 26.1%. However, their ...

Everything you need to generate power when working in the field.

Development while Decarbonizing: India’s Path to Net-Zero" delved into the critical aspect of decarbonization and ...

These tissues could be useful for building 'biohybrid' robots powered by soft ... each as small as a single cell. Then they pressed the stamp into a soft hydrogel and seeded the resulting grooves ...

Coating the cells took only a few minutes, with -- in the end -- nine out of ten algae successfully covered with the magnetic nanoparticles. The team first tested their biohybrid robot swimming in ...

According to a new study from China, biohybrid robots – built with lab-grown skeletal muscle tissue – could require exercise regimens akin to human workouts to achieve lifelike agility.