In a report published in ACS Nano, researchers demonstrate a near-infrared nanolaser using a polymer microsphere as the microcavity and semiconducting single-walled carbon nanotubes as the gain material.
In a paper appearing in Quantum Science and Technology, researchers present a theoretical analysis showing that a single-electron qubit floating on a solid neon could achieve a coherence time as long as 81seconds.
In a paper published in Advanced Materials, researchers report on a molecular additive that improves the performance of stretchable electronics made with a well-known conjugated polymer.