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Nanoporous carbon composite membranes exhibit 100% salt rejection and high water flux due to the interfacial sieving effect and the fast transport of vapour in carbon pores, respectively.
Intercalation of copper and cobalt atoms into n-type SnS2 enables seamless integration of metal, and n- and p-type semiconductors in one parent 2D material.
Reducing the dimensionality of paramagnetic VSe2 results in the emergence of ferromagnetism that is observed in a monolayer and up to room temperature.
The wireless and photoelectrochemical stimulation of primary rat dorsal root ganglion neurons is demonstrated by shining laser light onto coaxially doped silicon nanowires deposited on the neuronal membrane.
When a helix-based liquid crystal that incorporates molecular motors is illuminated locally with intensity above a certain threshold, a continuous, regular and unidirectional rotation emerges.
The largest available database of potentially exfoliable 2D materials has been obtained via high-throughput calculations using van der Waals density functional theory.