Zhi-Chao Huang-Fu scite author profile

Driven by the persisting poor understanding of the sluggish kinetics of the hydrogen evolution reaction (HER) on Pt in alkaline media, a direct correlation of the interfacial water structure and activity is still yet to be established. Herein, using Pt and Pt–Ni nanoparticles we first demonstrate a strong dependence of the proton donor structure on the HER activity and pH. The structure of the first layer changes from the proton acceptors to the donors with increasing pH. In the base, the reactivity of the interfacial water varied its structure, and the activation energies of water dissociation increased in the sequence: the dangling O−H bonds < the trihedrally coordinated water < the tetrahedrally coordinated water. Moreover, optimizing the adsorption of H and OH intermediates can re‐orientate the interfacial water molecules with their H atoms pointing towards the electrode surface, thereby enhancing the kinetics of HER. Our results clarified the dynamic role of the water structure at the electrode–electrolyte interface during HER and the design of highly efficient HER catalysts.

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In situ analysis of the bulk and surface chemical compositions of organic aerosol particles

Qian

Brown

Huang-Fu

et al. 2022

Commun Chem

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Understanding the chemical and physical properties of particles is an important scientific, engineering, and medical issue that is crucial to air quality, human health, and environmental chemistry. Of special interest are aerosol particles floating in the air for both indoor virus transmission and outdoor atmospheric chemistry. The growth of bio- and organic-aerosol particles in the air is intimately correlated with chemical structures and their reactions in the gas phase at aerosol particle surfaces and in-particle phases. However, direct measurements of chemical structures at aerosol particle surfaces in the air are lacking. Here we demonstrate in situ surface-specific vibrational sum frequency scattering (VSFS) to directly identify chemical structures of molecules at aerosol particle surfaces. Furthermore, our setup allows us to simultaneously probe hyper-Raman scattering (HRS) spectra in the particle phase. We examined polarized VSFS spectra of propionic acid at aerosol particle surfaces and in particle bulk. More importantly, the surface adsorption free energy of propionic acid onto aerosol particles was found to be less negative than that at the air/water interface. These results challenge the long-standing hypothesis that molecular behaviors at the air/water interface are the same as those at aerosol particle surfaces. Our approach opens a new avenue in revealing surface compositions and chemical aging in the formation of secondary organic aerosols in the atmosphere as well as chemical analysis of indoor and outdoor viral aerosol particles.

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In Situ Detection of Chemical Compositions at Nanodroplet Surfaces and In-Nanodroplet Phases

et al. 2022

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Small-volume nanodroplets play an increasingly common role in chemistry and biology. Such nanodroplets are believed to have unique chemical and physical properties at the interface between a droplet and its surrounding medium, however, they are underexamined. In this study, we present the novel technique of vibrational sum frequency scattering (VSFS) spectroscopy as an interface-specific, high-performance method for the in situ investigation of nanodroplets with sub-micron radii; as well as the droplet bulk through simultaneous hyper-Raman scattering (HRS) spectroscopy. We use laboratory-generated nanodroplets from aqueous alcohol solutions to demonstrate this technique's ability to separate the vibrational phenomena which take place at droplet surfaces from the underlying bulk phase. In addition, we systemically examine interfacial spectra of nanodroplets containing methanol, ethanol, 1propanol, and 1-butanol through VSFS. Furthermore, we demonstrate interfacial differences between such nanodroplets and their analogous planar surfaces. The sensitivity of this technique to probe droplet surfaces with few-particle density at standard conditions validates VSFS as an analytical technique for the in situ investigation of small nanodroplets, providing breakthrough information about these species of ever-increasing relevance.

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Interfacial Structure of Water as a New Descriptor of the Hydrogen Evolution Reaction

Shen

et al. 2020

Angewandte Chemie

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Electrochemical CO₂reduction on Cu and Au electrodes studied usingin situsum frequency generation spectroscopy

Huang-Fu

Song

et al. 2019

Phys. Chem. Chem. Phys.

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Zhi-Chao Huang-Fu

Interfacial Structure of Water as a New Descriptor of the Hydrogen Evolution Reaction

In situ analysis of the bulk and surface chemical compositions of organic aerosol particles

In Situ Detection of Chemical Compositions at Nanodroplet Surfaces and In-Nanodroplet Phases

Interfacial Structure of Water as a New Descriptor of the Hydrogen Evolution Reaction

Electrochemical CO₂reduction on Cu and Au electrodes studied usingin situsum frequency generation spectroscopy

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Zhi-Chao Huang-Fu

Interfacial Structure of Water as a New Descriptor of the Hydrogen Evolution Reaction

In situ analysis of the bulk and surface chemical compositions of organic aerosol particles

In Situ Detection of Chemical Compositions at Nanodroplet Surfaces and In-Nanodroplet Phases

Interfacial Structure of Water as a New Descriptor of the Hydrogen Evolution Reaction

Electrochemical CO2reduction on Cu and Au electrodes studied usingin situsum frequency generation spectroscopy

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Electrochemical CO₂reduction on Cu and Au electrodes studied usingin situsum frequency generation spectroscopy