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Chunlin Zheng
Researcher at Hohai University
Publications - 5
Citations - 530
Chunlin Zheng is an academic researcher from Hohai University. The author has contributed to research in topics: Absorption (acoustics) & Composite number. The author has an hindex of 1, co-authored 1 publications receiving 467 citations.
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Review: A survey on coverage and connectivity issues in wireless sensor networks
TL;DR: The coverage problem is classified from different angles, the evaluation metrics of coverage control algorithms are described, the relationship between coverage and connectivity is analyzed, typical simulation tools are compared, and research challenges and existing problems in this area are discussed.
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In situ-derived carbon nanotubes decorated the surface of CoxNiy@C composites from MOFs for efficient electromagnetic wave absorption
Qikui Man,Zhenkuang Lei,A. Wang,Chunlin Zheng,Xueheng Zhuang,Guo Guo Tan,Shuwen Chen,Jia-Huan Hou,Mingqiang Ning,Run-Wei Li +9 more
TL;DR: A series of Co x Ni y @C composite absorbers with abundant carbon nanotubes on their surfaces prepared by pyrolyzing metal-organic framework precursors in an Ar atmosphere is reported in this paper .
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Expanded graphite/Co@C composites with dual functions of corrosion resistance and microwave absorption
TL;DR: In this article , the authors used an appropriate content of [email protected] not only overcomes the problem of single EG impedance mismatch but also introduces additional magnetic loss for the absorber, achieving an effective absorption bandwidth of 4.52 GHz and a minimum reflection loss of -48.4 dB.
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In Situ-Derived Carbon Nanotube Decorated Surface of Co1-Xnix@C Composites from Mofs for Efficient Electromagnetic Wave Absorption
Qikui Man,Zhen-Jia Lei,A. Wang,Chunlin Zheng,Xueheng Zhuang,Guo Guo Tan,Shuwen Chen,Jia-Huan Hou,Mingqiang Ning,Runwei Li +9 more
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Morphology control of Ce-doped SnO2 and enhanced microwave absorbing performance at 2−18 GHz
TL;DR: In this article , a single-crystal SnO2 nanorod was generated during the doping process and the size of the nanorods could be controlled by modifying the concentration of Ce.