Technique streamlines fabrication of 2-D circuits

Exotic 2-D materials hold great promise for creating atom-thin circuits that could power flexible electronics, optoelectronics, and other next-generation devices. But fabricating complex 2-D circuits requires multiple time-consuming, ...

For 2-D boron, it's all about that base

Rice University scientists have theoretically determined that the properties of atom-thick sheets of boron depend on where those atoms land.

Substrates change nanoparticle reactivity

(—Nanoscale materials tend to behave differently than their bulk counterparts. While there are many theories as to why this happens, technological advances in scanning tunneling microscopy (STM) have allowed researchers ...

Chemists make new silicon-based nanomaterials

Chemists from Brown University have found a way to make new 2-D, graphene-like semiconducting nanomaterials using an old standby of the semiconductor world: silicon.

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