2026 Hongjing Wu: Materials Science Researcher – H-Index, Publications & Awards

Discipline name	D-Index	World Ranking	Current World Ranking	National Ranking	Current National Ranking	Publications	Citations
Materials Science	89	1820	1753	586	582	209	22300

Overview

Hongjing Wu is affiliated with Northwestern Polytechnical University in China. Their research primarily centers on materials science and engineering, with a focus on electronic, optical, and magnetic materials as well as aerospace engineering and materials chemistry.

Their work spans several key scientific topics, including:

Electromagnetic wave absorption materials
Advanced antenna and metasurface technologies
Metamaterials and metasurfaces applications
MXene and MAX phase materials
Advanced sensor and energy harvesting materials
Dielectric materials and actuators
Electrocatalysts for energy conversion

Hongjing Wu has contributed to a significant number of publications, with frequent venues including:

Journal of Colloid and Interface Science
Advanced Functional Materials
Small
Carbon
Journal of Material Science and Technology

Frequent collaborators in their research include:

Limin Zhang
Shengchong Hui
Hongsheng Liang
Zehao Zhao
Qing Chang

Selected recent papers by Hongjing Wu demonstrate a focus on electromagnetic wave absorption and related material functionalities:

"Dielectric Loss Mechanism in Electromagnetic Wave Absorbing Materials," 2022, published in Advanced Science
"Oxygen Vacancy-Induced Dielectric Polarization Prevails in the Electromagnetic Wave-Absorbing Mechanism for Mn-Based MOFs-Derived Composites," 2022, published in Advanced Functional Materials
"Lightweight Ni Foam-Based Ultra-Broadband Electromagnetic Wave Absorber," 2021, published in Advanced Functional Materials
"Defect Induced Polarization Loss in Multi-Shelled Spinel Hollow Spheres for Electromagnetic Wave Absorption Application," 2021, published in Advanced Science
"A Competitive Reaction Strategy toward Binary Metal Sulfides for Tailoring Electromagnetic Wave Absorption," 2021, published in Advanced Functional Materials

Best Publications

Co2+/Co3+ ratio dependence of electromagnetic wave absorption in hierarchical NiCo2O4–CoNiO2 hybrids

Hongjing Wu;Guanglei Wu;Guanglei Wu;Yanyan Ren;Le Yang

581
Citations
Co3O4 nanocrystals and Co3O4–MOx binary oxides for CO, CH4 and VOC oxidation at low temperatures: a review

Leonarda Francesca Liotta;Hongjing Wu;Giuseppe Pantaleo;Anna Maria Venezia

436
Citations
Design of carbon sphere/magnetic quantum dots with tunable phase compositions and boost dielectric loss behavior

Guanglei Wu;Guanglei Wu;Yonghong Cheng;Zhihong Yang;Zirui Jia

432
Citations
Peculiar porous α-Fe2O3, γ-Fe2O3 and Fe3O4 nanospheres: Facile synthesis and electromagnetic properties

Hongjing Wu;Guanglei Wu;Liuding Wang

389
Citations
Lightweight Ni Foam-Based Ultra-Broadband Electromagnetic Wave Absorber

Ming Qin;Limin Zhang;Xiaoru Zhao;Hongjing Wu

368
Citations
Anion‐Doping‐Induced Vacancy Engineering of Cobalt Sulfoselenide for Boosting Electromagnetic Wave Absorption

Unknown

339
Citations
Defect Induced Polarization Loss in Multi-Shelled Spinel Hollow Spheres for Electromagnetic Wave Absorption Application.

Ming Qin;Limin Zhang;Xiaoru Zhao;Hongjing Wu

331
Citations
Synergistic Polarization Loss of MoS2‐Based Multiphase Solid Solution for Electromagnetic Wave Absorption

Unknown

322
Citations
A Competitive Reaction Strategy toward Binary Metal Sulfides for Tailoring Electromagnetic Wave Absorption

Jiaolong Liu;Limin Zhang;Duyang Zang;Hongjing Wu

272
Citations
Simultaneous Manipulation of Interfacial and Defects Polarization toward Zn/Co Phase and Ion Hybrids for Electromagnetic Wave Absorption

Zhenguo Gao;Di Lan;Limin Zhang;Hongjing Wu

241
Citations
Ti3C2T x /MoS2 Self‐Rolling Rod‐Based Foam Boosts Interfacial Polarization for Electromagnetic Wave Absorption

Unknown

237
Citations
Catfish Effect Induced by Anion Sequential Doping for Microwave Absorption

Unknown

236
Citations
Novel binary cobalt nickel oxide hollowed-out spheres for electromagnetic absorption applications

Di Lan;Ming Qin;Jiaolong Liu;Guanglei Wu

232
Citations
Facile synthesis of hierarchical chrysanthemum-like copper cobaltate-copper oxide composites for enhanced microwave absorption performance.

Di Lan;Ming Qin;Ruisheng Yang;Shuang Chen

227
Citations
Synthesis and characterization of γ-Fe2O3@C nanorod-carbon sphere composite and its application as microwave absorbing material

Guanglei Wu;Yonghong Cheng;Yanyan Ren;Yiqun Wang

224
Citations
Dielectric properties and thermal conductivity of epoxy composites using quantum-sized silver decorated core/shell structured alumina/polydopamine

Zhengdong Wang;Mengmeng Yang;Yonghong Cheng;Jingya Liu

218
Citations
Facile synthesis of ellipsoid-like MgCo2O4/Co3O4 composites for strong wideband microwave absorption application

Jiaolong Liu;Hongsheng Liang;Yi Zhang;Guanglei Wu

218
Citations
Progress in low-frequency microwave absorbing materials

Zirui Jia;Di Lan;Kejun Lin;Ming Qin

216
Citations
Sandwich-like Fe3O4/Fe3S4 composites for electromagnetic wave absorption

Hongjing Wu;Jiaolong Liu;Hongsheng Liang;Duyang Zang

214
Citations
Enhancing the Low/Middle‐Frequency Electromagnetic Wave Absorption of Metal Sulfides through F − Regulation Engineering

Unknown

214
Citations
Graphene Plasmonics: A Platform for 2D Optics

Yuancheng Fan;Nian‐Hai Shen;Fuli Zhang;Qian Zhao

199
Citations
Bi- and trimetallic Ni catalysts over Al2O3 and Al2O3-MOx (M = Ce or Mg) oxides for methane dry reforming: Au and Pt additive effects

Hongjing Wu;Giuseppe Pantaleo;Valeria La Parola;Anna M. Venezia

188
Citations
Ni-Based Catalysts for Low Temperature Methane Steam Reforming: Recent Results on Ni-Au and Comparison with Other Bi-Metallic Systems

Hongjing Wu;Valeria La Parola;Giuseppe Pantaleo;Fabrizio Puleo

181
Citations
Facile synthesis of urchin-like ZnO hollow spheres with enhanced electromagnetic wave absorption properties

Guanglei Wu;Yonghong Cheng;Qian Xie;Zirui Jia

181
Citations
Bamboo-like short carbon fibers@Fe3O4@phenolic resin and honeycomb-like short carbon fibers@Fe3O4@FeO composites as high-performance electromagnetic wave absorbing materials

Hongsheng Liang;Hui Xing;Ming Qin;Hongjing Wu

160
Citations