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Investigation of one-pot hydrothermal synthesis and electromagnetic loss mechanism of multi-shell nickel cobalt based absorbers

Source:NPU News Date:2022-10-28

Author: Qin Ming

Faculty Adviser: Prof. Zhao Xiaoru, Associate Prof. Wu Hongjing

School: School of Physical Science and Technology

Subject: Material Science and Engineering


1. Ming Qin, Limin Zhang, Hongjing Wu, Defect induced polarization loss in multi-shelled spinel hollow spheres for electromagnetic wave absorption application. Advanced Science, 2021, 8(8):2004640. (SCI:000615811800001,IF2022=17.521)

2. Ming Qin, Limin Zhang, Xiaoru Zhao, Hongjing Wu, Lightweight Nifoam-basedultra-broadbandelectromagneticwaveabsorber. Advanced Functional Materials,2021, 31(30):2103436. (SCI:000651559600001,IF2022=19.924)

3. Ming Qin, Limin Zhang, Hongjing Wu, Dielectric loss mechanism in electromagnetic wave absorbing materials. AdvancedScience,2022,9(10):2105553.(SCI: 000751804600001,IF2022=17.521)

4. Ming Qin, Hongsheng Liang, Xiaoru Zhao, Hongjing Wu, Glycine-assisted solution combustion synthesis of NiCo2Oelectromagnetic wave absorber with wide absorption bandwidth. Ceramics International. 2020, 46(14):22313-22320. (SCI: 000558707400050, IF2022=5.532)

5. Ming Qin, Hongsheng Liang, Xiaoru Zhao, Hongjing Wu, Filter paper templated one-dimensional NiO/NiCo2Omicrorod with wideband electromagnetic wave absorption capacity. Journal of Colloid and Interface Science2020, 565:347-356. (SCI:000521653900035,IF2022=9.965)

6. Ming Qin, Limin Zhang, Hongjing Wu, Dual-template hydrothermal synthesis of multi-channel porous NiCo2Ohollow spheres as high-performance electromagnetic wave absorber. Applied Surface Science2020, 515:146132. (SCI:000525637300032,IF2022=7.392)