2026 Fengxia Hu: 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	49	10395	10039	2913	2900	329	12985

Discipline name

D-Index

World Ranking

Current World Ranking

National Ranking

Current National Ranking

Publications

Citations

Materials Science

10395

10039

2913

2900

329

12985

Overview

Fengxia Hu is a researcher affiliated with the Chinese Academy of Sciences in China. Their work spans the fields of Materials Science and Physics and Astronomy, with a focus on several key subfields including Electronic, Optical and Magnetic Materials, Materials Chemistry, Condensed Matter Physics, Atomic and Molecular Physics, and Optics, as well as Electrical and Electronic Engineering.

The main areas of research for this scientist include Magnetic and transport properties of perovskites and related materials, Advanced Condensed Matter Physics, Multiferroics and related materials, Electronic and Structural Properties of Oxides, Magnetic properties of thin films, Magnetic Properties of Alloys, and Ferroelectric and Piezoelectric Materials.

Fengxia Hu frequently publishes in several prominent venues, reflecting a consistent emphasis on materials and condensed matter physics. These venues include:

Advanced Materials
Nature Communications
Acta Materialia
Physical Review B
NPG Asia Materials

The researcher has collaborated extensively with notable coauthors such as Baogen Shen, Jirong Sun, Tongyun Zhao, Jing Wang, and Yunzhong Chen, indicating active engagement in collaborative projects across these areas.

Recent publications feature studies on magnetic and phase transition phenomena in complex materials. Selected recent papers include:

"Spontaneous Topological Magnetic Transitions in NdCo₅ Rare-Earth Magnets," 2021, Advanced Materials
"Regulation of phase transition and magnetocaloric effect by ferroelectric domains in FeRh/PMN-PT heterojunctions," 2020, Acta Materialia
"Magnetocrystalline anisotropy study of Co-substituted M-type strontium hexaferrite single crystals," 2022, Ceramics International
"Large Enhancement of Magnetocaloric and Barocaloric Effects by Hydrostatic Pressure in La(Fe_0.92Co_0.08)_11.9Si_1.1 with a NaZn₁₃-Type Structure," 2020, Chemistry of Materials
"Topotactic phase transformations by concerted dual-ion migration of B-site cation and oxygen in multivalent cobaltite La-Sr-Co-Ox films," 2020, Nano Energy

Best Publications

Influence of negative lattice expansion and metamagnetic transition on magnetic entropy change in the compound LaFe11.4Si1.6

Feng-xia Hu;Bao-gen Shen;Ji-rong Sun;Zhao-hua Cheng

1832
Citations
Recent Progress in Exploring Magnetocaloric Materials

B. G. Shen;J. R. Sun;F. X. Hu;H. W. Zhang

1253
Citations
Magnetic entropy change in Ni51.5Mn22.7Ga25.8 alloy

Feng-xia Hu;Bao-gen Shen;Ji-rong Sun

621
Citations
Determination of the entropy changes in the compounds with a first-order magnetic transition

G. J. Liu;J. R. Sun;J. Shen;B. Gao

382
Citations
Large magnetic entropy change in a Heusler alloy Ni 52.6 Mn 23.1 Ga 24.3 single crystal

Feng-xia Hu;Bao-gen Shen;Ji-rong Sun;Guang-heng Wu

350
Citations
Very large magnetic entropy change near room temperature in LaFe11.2Co0.7Si1.1

Feng-xia Hu;Bao-gen Shen;Ji-rong Sun;Guang-jun Wang

338
Citations
A Centrosymmetric Hexagonal Magnet with Superstable Biskyrmion Magnetic Nanodomains in a Wide Temperature Range of 100–340 K

Wenhong Wang;Ying Zhang;Guizhou Xu;Guizhou Xu;Licong Peng

273
Citations
Substitution of Ce for Nd in preparing R2Fe14B nanocrystalline magnets

Z.B. Li;Z.B. Li;B.G. Shen;M. Zhang;F.X. Hu

221
Citations
Giant Negative Thermal Expansion in Bonded MnCoGe-Based Compounds with Ni2In-Type Hexagonal Structure

Ying-Ying Zhao;Feng-Xia Hu;Li-Fu Bao;Jing Wang

199
Citations
Giant reversible magnetocaloric effect in metamagnetic HoCuSi compound

J. Chen;B. G. Shen;Q. Y. Dong;F. X. Hu

180
Citations
Comment on “Direct Measurement of the `Giant' Adiabatic Temperature Change in Gd 5 Si 2 Ge 2 ”

J. R. Sun;F. X. Hu;B. G. Shen

162
Citations
Large reversible magnetocaloric effects in ErFeSi compound under low magnetic field change around liquid hydrogen temperature

H. Zhang;B. G. Shen;Z. Y. Xu;J. Shen

147
Citations
Large reversible magnetocaloric effect caused by two successive magnetic transitions in ErGa compound

J. Chen;B. G. Shen;Q. Y. Dong;F. X. Hu

145
Citations
Magnetic entropy change in La(Fe0.98Co0.02)11.7Al1.3

Feng-xia Hu;Bao-gen Shen;Ji-rong Sun;Zhao-hua Cheng

129
Citations
Permanent magnetic properties of rapidly quenched (La,Ce)2Fe14B nanomaterials based on La–Ce mischmetal

Ming Zhang;Zhubai Li;Baogen Shen;Fengxia Hu

129
Citations
Magnetocaloric effect in itinerant electron metamagnetic systems La(Fe1-xCOx)11.9Si1.1

F. X. Hu;J. Gao;X. L. Qian;Max Ilyn

129
Citations
Giant barocaloric effect in hexagonal Ni2In-type Mn-Co-Ge-In compounds around room temperature.

Rong-Rong Wu;Rong-Rong Wu;Li-Fu Bao;Feng-Xia Hu;Hui Wu;Hui Wu

128
Citations
Magnetic entropy change and its temperature variation in compounds La(Fe1−xCox)11.2Si1.8

F. X. Hu;X. L. Qian;J. R. Sun;G. J. Wang

118
Citations
High-Mobility Spin-Polarized Two-Dimensional Electron Gases at EuO / KTaO 3 Interfaces

Hongrui Zhang;Yu Yun;Xuejing Zhang;Hui Zhang

118
Citations
Large magnetic entropy change in TbAl2 and (Tb0.4Gd0.6)Al2

F. W. Wang;Xixiang Zhang;F. X. Hu

111
Citations
Reduction of hysteresis loss and large magnetocaloric effect in the C- and H-doped La(Fe, Si)13 compounds around room temperature

H. Zhang;B. G. Shen;Z. Y. Xu;X. Q. Zheng

103
Citations