Inverted perovskite solar cells offer strong potential for scalable, low-cost solar power, but a hidden interface inside the ...

(Nanowerk Spotlight) Crystalline materials with precisely engineered structures lie at the heart of virtually every advanced technology, from the silicon microchips powering our electronics to the ...

Machine learning (ML) is increasingly being utilized to optimize the research paradigm and shorten the time from discovery to application of novel functional materials, pharmaceuticals, and fine ...

NYU scientists are using light to precisely control how tiny particles organize themselves into crystals. Their research, published in Chem, provides a simple and reversible method for forming ...

Excited to feature a recent publication by HTX Center users in the Izard Lab at Scripps as Crystals of the Month! ‘We used over 1000 commercially available crystallization screens … to attempt to grow ...

Researchers at NYU have developed a way to use light to precisely direct how microscopic particles assemble into crystals. The findings, published today (February 24) in the Cell Press journal Chem, ...

Summer intern Ethan Hollerman won a Student Poster Prize at the 2020 LCLS/SSRL Users’ Meeting for his work on implementing the MARCO algorithm into a new GUI! MARCO POLO is a multi-platform ...

A new crystal-seeding method boosts the efficiency and scalability of perovskite solar cells, advancing this promising ...

A recent theory challenges conventional understanding of crystallization. It shows that the dominant element in a solution—the solvent, not the solute—is the material that crystallizes. This finding, ...