F
Fanli Meng
Researcher at Northeastern University (China)
Publications - 166
Citations - 7256
Fanli Meng is an academic researcher from Northeastern University (China). The author has contributed to research in topics: Scanning electron microscope & Oxide. The author has an hindex of 42, co-authored 150 publications receiving 5554 citations. Previous affiliations of Fanli Meng include University of California, Los Angeles & Hefei Institutes of Physical Science.
Papers
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Metal Oxide Nanostructures and Their Gas Sensing Properties: A Review
TL;DR: The gas sensing properties of metal oxide nanostructures assembled by nanoparticles are reviewed in this article and the effect of doping is summarized and the perspectives ofMetal oxide gas sensor are given.
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SnO2/Reduced Graphene Oxide Nanocomposite for the Simultaneous Electrochemical Detection of Cadmium(II), Lead(II), Copper(II), and Mercury(II): An Interesting Favorable Mutual Interference
TL;DR: In this paper, a well-known gas sensing material SnO2 in combination with reduced graphene oxide was used in heavy metal ions detection for the first time, which could be used for the simultaneous and selective electrochemical detection of ultratrace Cd(II), Pb(II, Cu(II) and Hg(II).
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Graphene-based hybrids for chemiresistive gas sensors
TL;DR: In this article, a systematic review of the success of graphene-based hybrids in gas detection and their challenges is presented, which will assist researchers to understand the evolution and the challenges of graphenebased hybrids, and create interest in development of gas sensing techniques.
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Low-temperature formaldehyde gas sensors based on NiO-SnO2 heterojunction microflowers assembled by thin porous nanosheets
TL;DR: NiO-SnO2 heterojunction microflowers assembled by thin porous nanosheets were successfully synthesized through a facile one-step hydrothermal route as discussed by the authors.
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Novel porous single-crystalline ZnO nanosheets fabricated by annealing ZnS(en)0.5 (en = ethylenediamine) precursor. Application in a gas sensor for indoor air contaminant detection.
TL;DR: It was found that the as-fabricated sensors not only exhibit highly sensitive performance, e.g., high gas-sensing responses, short response and recovery time, but also possess significant long-term stability.