Qingguo Ren scite author profile

Qingguo Ren

4Publications

21Citation Statements Received

81Citation Statements Given

How they've been cited

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244

Affiliations

Nanjing Tech University, The Synergetic Innovation Center for Advanced Materials

Publications

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Autogenous and Tunable CNTs for Enhanced Polarization and Conduction Loss Enabling Sea Urchin-Like Co₃ZnC/Co/C Composites with Excellent Microwave Absorption Performance

Ren

Feng

Song

et al. 2022

ACS Appl. Mater. Interfaces

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ZIF-67-derived magnetic metal/carbon composites are considered prospective candidates for use as microwave absorption (MA) materials owing to their magnetoelectric synergy. However, the structure of ZIF-67-derived MA materials mainly depends on the morphology and composition of pristine metal–organic frameworks (MOFs), and their microstructures lack a rational design. Herein, a multidimensional sea urchin-like carbon nanotubes (CNTs)-grafted carbon polyhedra-encapsulated Co3ZnC/Co nanoparticle composite was prepared by one-step catalytic pyrolysis of ZIF-67/ZnO using a rational structural design. The autogenous and tunable CNTs obtained with the assistance of zinc evaporation not only overcome the limitation of homogeneous dispersion but also endow the Co3ZnC/Co/C composite with outstanding MA properties owing to the conduction loss provided by CNTs, polarization loss caused by multiple components, and electromagnetic wave trap composed of a special sea urchin-like structure. Consequently, the minimum reflection loss of ZZ0.1-600 reaches −60.3 dB at 1.6 mm, the maximum absorption bandwidth of ZZ0.05-600 is 6.24 GHz (covering nearly the entire Ku band) at 1.9 mm, and the structure has a low weight ratio (30 wt %). Compared with Z-600 and pure ZnO, the MA performance of the sea urchin-like Co3ZnC/Co/C composite obtained by rational structural design has been greatly improved; this strategy offers a new approach for optimizing the MA performance of materials according to their structural design.

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Ni-MOF/Ti3C2Tx derived multidimensional hierarchical Ni/TiO2/C nanocomposites with lightweight and efficient microwave absorption

Wang

Zhou

Feng

et al. 2022

Ceramics International

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Ordered TiO2 transition layer for balanced impedance-matching enabling TiO2/C/RGO porous foam low filler loading and enhanced electromagnetic wave absorption performance

Feng

Ren

Song

et al. 2023

Ceramics International

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Multispectral ErBO3@ATO porous composite microspheres with laser and electromagnetic wave compatible absorption

et al. 2023

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Qingguo Ren

Autogenous and Tunable CNTs for Enhanced Polarization and Conduction Loss Enabling Sea Urchin-Like Co₃ZnC/Co/C Composites with Excellent Microwave Absorption Performance

Ni-MOF/Ti3C2Tx derived multidimensional hierarchical Ni/TiO2/C nanocomposites with lightweight and efficient microwave absorption

Ordered TiO2 transition layer for balanced impedance-matching enabling TiO2/C/RGO porous foam low filler loading and enhanced electromagnetic wave absorption performance

Multispectral ErBO3@ATO porous composite microspheres with laser and electromagnetic wave compatible absorption

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Qingguo Ren

Autogenous and Tunable CNTs for Enhanced Polarization and Conduction Loss Enabling Sea Urchin-Like Co3ZnC/Co/C Composites with Excellent Microwave Absorption Performance

Ni-MOF/Ti3C2Tx derived multidimensional hierarchical Ni/TiO2/C nanocomposites with lightweight and efficient microwave absorption

Ordered TiO2 transition layer for balanced impedance-matching enabling TiO2/C/RGO porous foam low filler loading and enhanced electromagnetic wave absorption performance

Multispectral ErBO3@ATO porous composite microspheres with laser and electromagnetic wave compatible absorption

Contact Info

Product

Resources

About

Autogenous and Tunable CNTs for Enhanced Polarization and Conduction Loss Enabling Sea Urchin-Like Co₃ZnC/Co/C Composites with Excellent Microwave Absorption Performance