In a study published in Nano Letters, researchers highlight the versatility of the Si-BP material platform for creating optically active devices in integrated silicon chips.
In a study published in Science, researchers’ findings enable a broad exploration of synthetic 2D polymer structures and properties. This work was a multidisciplinary team effort including DOE’s CNM and APS user facilities at Argonne.
In a recent study published in Nature, researchers from Argonne’s CNM working with Brown University have packed non-spherical nanocrystals into complex superstructures – including some with chirality.
In a study published in Nano Letters, researchers found the penetrating nature of X-ray radiation, together with the relaxed constraints of multiangle Bragg projection ptychography, will enable the in operando imaging of nanowire devices.
In a study published in Nano Letters, researchers present an approach for disentangling the effects of dipole degeneracy and electric field renormalization on emission anisotropy.
In a recent study published in ACS Nano, researchers advanced the current understanding of defect structure/evolution and structural transitions in 2D TMDs, which is crucial for designing nanoscale devices with desired functionality.
In a recent study published by Proceedings of the National Academy of Sciences USA, Center for Nanoscale Materials researchers demonstrated perovskite nickelates as Li-ion shuttles with simultaneous suppression of electronic transport via Mott transition.
In a recent study published by Applied Physics Letters, researchers at the Center for Nanoscale Materials developed a method to directly investigate regions of interfacial magnetism and to detect and measure the local magnetism and chemistry.
In a recent study published in Nanoscale, researchers show that an irreversible transition between strongly non-collinear and single domain states translate into a nonlinear magnetic response that enables ultrasensitive detection.