Jianglai Wu scite author profile

Jianglai Wu

2Publications

394Citation Statements Received

81Citation Statements Given

How they've been cited

258

387

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Affiliations

Zhejiang Chinese Medical University, Ocean University of China, University of Hong Kong

Publications

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Effect of Adsorption on the Surface Tensions of Solid−Fluid Interfaces

Ward

2007

J. Phys. Chem. B

240

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A method is proposed for determining the surface tensions of a solid in contact with either a liquid or a vapor. Only an equilibrium adsorption isotherm at the solid-vapor interface needs to be added to Gibbsian thermodynamics to obtain the expressions for the solid-vapor and the solid-liquid surface tensions, gamma[1](SV) and gamma[1](SL), respectively. An equilibrium adsorption isotherm relation is formulated that has the essential property of not predicting an infinite amount adsorbed when the pressure is equal to the saturation-vapor pressure. Five different solid-vapor systems from the literature are examined, and found to be well described by the new isotherm relation. The surface-tension expressions obtained from the isotherm relation are examined by determining the surface tension of the solid in the absence of adsorption, gamma[1](S0), a material property of a solid surface. The value of gamma[1](S0) can be determined by adsorbing different vapors on the same solid, determining the isotherm parameters in each case, and then from the expression for gamma[1](SV) taking the limit of the pressure vanishing to determine gamma[1](S0). From previously reported measurements of benzene and of n-hexane adsorbing on graphitized carbon, the same value of gamma[1](S0) is obtained.

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Kilohertz two-photon fluorescence microscopy imaging of neural activity in vivo

et al. 2020

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Understanding information processing in the brain requires us to monitor neural activity at high spatiotemporal resolution. Using an ultrafast two-photon fluorescence microscope (2PFM) empowered by all-optical laser scanning, we imaged neural activity in vivo at up to 3,000 frames per second and submicron spatial resolution. This ultrafast imaging method enabled monitoring of both supra- and sub-threshold electrical activity down to 345 μm below the brain surface in head-fixed awake mice.

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Jianglai Wu

Effect of Adsorption on the Surface Tensions of Solid−Fluid Interfaces

Kilohertz two-photon fluorescence microscopy imaging of neural activity in vivo

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