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A nanofluidic oscillating neuron

Nanofluidic hold promise for mimicking neural systems, yet replicating their complex spiking dynamics remains challenging. Here, authors developed a nanofluidic oscillating neuron (FON) that emulates spiking behaviors and encoding mechanisms of neurons, demonstrating programmable control over spiking patterns in response to both electrical and chemical stimuli.

Tianyi Xiong
Xiulan He
Lanqun Mao
ResearchOpen Access07 Dec 2025
Nature Communications

Volume: 17, P: 1-11
Inflammation-free electrochemical in vivo sensing of dopamine with atomic-level engineered antioxidative single-atom catalyst

Electrochemical methods are promising for monitoring neurochemical dynamics, but are limited by inflammation effects from electrode implantation. Here, the authors report the development of a single-atom catalyst that acts both as an antioxidative nanozyme and an electrode material for the inflammation-free sensing of dopamine in the brain.

Xiaolong Gao
Huan Wei
Lanqun Mao
ResearchOpen Access10 Sept 2024
Nature Communications

Volume: 15, P: 1-12
Steric effect of intermediates induces formation of three-dimensional covalent organic frameworks

Most methods for the synthesis of three-dimensional covalent organic frameworks need one precursor being extended into three-dimensional space. Here, the authors employ multinode porphyrin blocks with eight rotatable knots to create intermediates with steric hindrance-confined rigid stereoconformations for guiding three-dimensional formation of covalent organic frameworks with high crystallinity.

Jiawei Lai
Shikai Liu
Lanqun Mao
ResearchOpen Access02 Jul 2025
Nature Communications

Volume: 16, P: 1-8
Single-atom Ni-N₄ provides a robust cellular NO sensor

The monitoring of nitric oxide is important to a number of disease states and biomedical applications. Here, the authors report on a single nickel atom catalyst based sensor for detecting nitric oxide production from cells.

Min Zhou
Ying Jiang
Lanqun Mao
ResearchOpen Access24 Jun 2020
Nature Communications

Volume: 11, P: 1-9
Erratum: Calhm2 governs astrocytic ATP releasing in the development of depression-like behaviors

M Jun
Q Xiaolong
Y Zengqiang
Amendments and Corrections09 Jan 2018
Molecular Psychiatry

Volume: 23, P: 1091
Atom-pair engineering of single-atom nanozyme for boosting peroxidase-like activity

Designing and enhancing the performance of metal single-atom nanozymes (SAzymes) through atom-pair engineering is important yet difficult. Here the authors develop the atom-pair engineering of Zn-SA/CNCl SAzyme by concurrently creating Zn-N₄ sites as catalytic sites and Zn-N₄Cl₁ sites as catalytic regulators.

Shengjie Wei
Wenjie Ma
Yadong Li
ResearchOpen Access12 Aug 2024
Nature Communications

Volume: 15, P: 1-12
Surfactant-free interfacial growth of graphdiyne hollow microspheres and the mechanistic origin of their SERS activity

The 2D carbon allotrope graphdiyne possesses a direct band gap, high charge carrier mobility, and uniformly distributed pores. Here, the authors report the surfactant-free growth of graphdiyne hollow microspheres and investigate the origin of their SERS activity.

Lu Zhang
Wencai Yi
Lanqun Mao
ResearchOpen Access09 Oct 2023
Nature Communications

Volume: 14, P: 1-10

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A nanofluidic oscillating neuron

Inflammation-free electrochemical in vivo sensing of dopamine with atomic-level engineered antioxidative single-atom catalyst

Steric effect of intermediates induces formation of three-dimensional covalent organic frameworks

Single-atom Ni-N4 provides a robust cellular NO sensor

Erratum: Calhm2 governs astrocytic ATP releasing in the development of depression-like behaviors

Atom-pair engineering of single-atom nanozyme for boosting peroxidase-like activity

Surfactant-free interfacial growth of graphdiyne hollow microspheres and the mechanistic origin of their SERS activity

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Single-atom Ni-N₄ provides a robust cellular NO sensor