Feng Qin scite author profile

Chirality of materials are known to affect optical, magnetic and electric properties, causing a variety of nontrivial phenomena such as circular dichiroism for chiral molecules, magnetic Skyrmions in chiral magnets and nonreciprocal carrier transport in chiral conductors. On the other hand, effect of chirality on superconducting transport has not been known. Here we report the nonreciprocity of superconductivity—unambiguous evidence of superconductivity reflecting chiral structure in which the forward and backward supercurrent flows are not equivalent because of inversion symmetry breaking. Such superconductivity is realized via ionic gating in individual chiral nanotubes of tungsten disulfide. The nonreciprocal signal is significantly enhanced in the superconducting state, being associated with unprecedented quantum Little-Parks oscillations originating from the interference of supercurrent along the circumference of the nanotube. The present results indicate that the nonreciprocity is a viable approach toward the superconductors with chiral or noncentrosymmetric structures.

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Three-dimensional monolithic micro-LED display driven by atomically thin transistor matrix

Meng

et al. 2021

Nat. Nanotechnol.

161

118

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Feng Qin

Enhanced intrinsic photovoltaic effect in tungsten disulfide nanotubes

Superconductivity in a chiral nanotube

Three-dimensional monolithic micro-LED display driven by atomically thin transistor matrix

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