A neural field network can create a continuous 3D model from a limited number of 2D images, and it does it without being trained on other samples.

An innovative analysis of two-dimensional (2D) materials from engineers at the University of Surrey could boost the development of next-generation solar cells and LEDs.

A research group has developed a technology for mass-producing uniform artificial cells (lipid bilayer vesicles) with artificial model nuclei using microfluidic devices with high reproducibility. They ...

We designed a rhesus macaque 2D choroid plexus epithelial cell culture, as well as a modified 3D cell culture model, in order to study activation, diffusion, and migration through the choroid plexus.

Technology now offers "groundbreaking opportunities to create an AI virtual cell, a multi-scale, multi-modal large-neural-network-based model that can represent and simulate the behavior of ...

Developed by an international team including Saudi Arabia's KAUST and the Chinese Academy of Science, the solar cell is claimed to be one of the most efficient perovskite PV devices based on 3D/2D ...

An international research team has fabricated a quasi-2D perovskite solar cell with a special kind of phenethylammonium iodide (PEAI) salt to enhance hole extraction. The result is a 23.08% ...

Several groups hope to develop artificial-intelligence models that can predict how cells behave.

This article from Molecular Devices explores how cell painting can be used in a 3D breast cancer spheroid model for image-based phenotypic profiling.

The Atlas promises to be “a kind of ‘Google Maps’ for cell biology” and is already “transforming our understanding of human health”, said Sarah Teichmann, founding co-chair of the project.

Oncotarget published "Comparative microsomal proteomics of a model lung cancer cell line NCI-H23 reveals distinct differences between molecular profiles of 3D and 2D cultured cells" which reported ...