Shangyi Li scite author profile

Shangyi Li

4Publications

86Citation Statements Received

101Citation Statements Given

How they've been cited

190

How they cite others

168

Affiliations

Beijing University of Chemical Technology, South China Normal University, Tsinghua University

Publications

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Preparation of fluorinated graphene to study its gas sensitivity

Kang

2018

RSC Adv.

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In this paper, fluorinated graphene was prepared from graphite fluoride by an improved Hummers method. The fluorinated graphene was characterized using an X-ray diffractometer (XRD), transmission electron microscope (TEM), atomic force microscope (AFM) and X-ray photoelectron spectrometer (XPS). Moreover, a gas sensitivity test was carried out. The results show that the fluorinated graphene is composed of about 5 layers prepared by utilising the improved Hummers method. The content of fluorine in fluorinated graphene decreased, mainly due to the fracture of C-F bonds. Fluorinated graphene showed gas sensitivity to ethanol, ammonia, methane and formaldehyde gases. The sensitivity of fluorinated graphene to ammonia is the highest and is 3.5 times the sensitivity of graphene to ammonia. The doping of fluorine atoms was conducive to improving the gas sensitivity of fluorinated graphene. Fig. 1 Test system for gas sensitivity. (a) Connection of test system for gas sensitivity. (b) Physical map of a gas sensor and its components.

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Composite Si-O-metal network catalysts with uneven electron distribution: Enhanced activity and electron transfer for catalytic ozonation of carbamazepine

Wang

et al. 2020

Applied Catalysis B: Environmental

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Heterogeneous catalytic ozonation of clofibric acid using Ce/MCM-48: Preparation, reaction mechanism, comparison with Ce/MCM-41

Tang

Chen

et al. 2017

Journal of Colloid and Interface Science

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Mechanism of Synergistic Effect on Electron Transfer over Co–Ce/MCM-48 during Ozonation of Pharmaceuticals in Water

et al. 2019

ACS Appl. Mater. Interfaces

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The same amount of metal was deposited on the surface of three-dimensional mesoporous MCM-48 by a facile impregnation–calcination method for catalytic ozonation of pharmaceutical and personal-care products in the liquid phase. At 120 min reaction time, Co/MCM-48 and Ce/MCM-48 showed 46.6 and 63.8% mineralization for clofibric acid (CA) degradation, respectively. Less than 33% mineralization was achieved with Co/MCM-48 and Ce/MCM-48 during sulfamethazine (SMZ) ozonation. In the presence of monometallic oxides modified MCM-48 catalysts, total organic carbon (TOC) removal of diclofenac sodium (DCF) was around 80%. The composite Co–Ce/MCM-48 catalyst exhibited significantly higher activity in terms of TOC removal of CA (83.6%), SMZ (51.7%) and DCF (86.8%). Co–Ce/MCM-48 inhibited efficiently the accumulation of small molecular carboxyl acids during ozonation. A detailed research was conducted to detect the nature of material structure and mechanism of catalytic ozonation by using a series of characterizations. The main reaction pathway of CA was determined by the analysis of liquid chromatography-mass spectrometry, in line with the results of frontier electron density calculations that reactive oxygen species (ROSs) were easy to attack negative regions of pharmaceuticals. The Si–O–Si, Co···HO–Si–O–Si–OH···Ce, and O3···Co–HO–Si–O–Si–OH···Ce–OH···O3 basic units in catalysts were constructed to detect the orbit-energy-level difference. The results revealed that a synergistic effect existed at the interface between cobalt and cerium oxides over MCM-48, which facilitated the ROSs sequence in solution with ozone. Therefore, the multivalence redox coupling of Ce4+/Ce3+ and Co3+/Co2+ along with electron transfer played an important role in catalytic ozonation process.

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Shangyi Li

Preparation of fluorinated graphene to study its gas sensitivity

Composite Si-O-metal network catalysts with uneven electron distribution: Enhanced activity and electron transfer for catalytic ozonation of carbamazepine

Heterogeneous catalytic ozonation of clofibric acid using Ce/MCM-48: Preparation, reaction mechanism, comparison with Ce/MCM-41

Mechanism of Synergistic Effect on Electron Transfer over Co–Ce/MCM-48 during Ozonation of Pharmaceuticals in Water

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