What if we could influence an embryo’s development by changing the electrical signals in its cells? That’s precisely what Michael Levin and his colleagues at Tufts University’s Allen Discovery Center ...

Biologists have demonstrated for the first time that electrical patterns in the developing embryo can be predicted, mapped, and manipulated to prevent defects caused by harmful substances such as ...

Nanoimprint lithography (NIL) is an advanced nanofabrication technique capable of creating patterns and structures smaller than 10 nm with low cost, high throughput ...

A new technical paper titled “DECOR: Deep Embedding Clustering with Orientation Robustness” was published by researchers at Oregon State University and Micron Technology. “In semiconductor ...

Instead, underwriting defects claimed the number one position. “This past year marks the most significant change in defect patterns we’ve observed in years,” said Tonya Martinez, MetaSource Senior ...

MEDFORD/SOMERVILLE, Mass. (March 8, 2018) Tufts University biologists have demonstrated for the first time that electrical patterns in the developing embryo can be predicted, mapped, and manipulated ...