2026 Hongxia Wang: 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	56	8213	7942	2381	2373	167	12278

Discipline name

D-Index

World Ranking

Current World Ranking

National Ranking

Current National Ranking

Publications

Citations

Materials Science

8213

7942

2381

2373

167

12278

Overview

Hongxia Wang is affiliated with Tianjin Polytechnic University in China and specializes in research within the fields of Engineering and Materials Science. Their work spans numerous subfields including Biomedical Engineering, Mechanical Engineering, Materials Chemistry, Polymers and Plastics, and Biomaterials.

The scope of their research encompasses several main topics such as:

Advanced Sensor and Energy Harvesting Materials
Conducting Polymers and Applications
Innovative Energy Harvesting Technologies
Surface Modification and Superhydrophobicity
Electrospun Nanofibers in Biomedical Applications
Tactile and Sensory Interactions
Supercapacitor Materials and Fabrication

Hongxia Wang has contributed to a significant number of publications with frequent appearance in specific venues that include:

Nano Energy
Journal of Materials Chemistry A
SSRN Electronic Journal
Applied Energy
ACS Applied Materials & Interfaces

Collaborations form an important part of their scholarly output, with frequent coauthors such as:

Tong Lin
Hao Shao
Wenyu Wang
Jian Fang
Xin Jin

Some notable recent papers authored by Hongxia Wang include:

Micro-meso porous structured carbon nanofibers with ultra-high surface area and large supercapacitor electrode capacitance, 2020, Journal of Power Sources
Efficient conversion of sound noise into electric energy using electrospun polyacrylonitrile membranes, 2020, Nano Energy
Self-Healing Superwetting Surfaces, Their Fabrications, and Properties, 2022, Chemical Reviews
A pH-sensitive drug delivery system based on folic acid-targeted HBP-modified mesoporous silica nanoparticles for cancer therapy, 2020, Colloids and Surfaces A Physicochemical and Engineering Aspects
The development of natural and designed protein nanocages for encapsulation and delivery of active compounds, 2021, Food Hydrocolloids

Best Publications

Fluoroalkyl silane modified silicone rubber/nanoparticle composite: a super durable, robust superhydrophobic fabric coating.

Hua Zhou;Hongxia Wang;Haitao Niu;Adrian Gestos

688
Citations
Durable, Self-Healing Superhydrophobic and Superoleophobic Surfaces from Fluorinated-Decyl Polyhedral Oligomeric Silsesquioxane and Hydrolyzed Fluorinated Alkyl Silane

Hongxia Wang;Yuhua Xue;Jie Ding;Liangfang Feng

561
Citations
Robust, self-healing superamphiphobic fabrics prepared by two-step coating of fluoro-containing polymer, fluoroalkyl silane, and modified silica nanoparticles

Hua Zhou;Hongxia Wang;Haitao Niu;Adrian Gestos

508
Citations
An assessment on the future development of high-entropy alloys: Summary from a recent workshop

Z.P. Lu;H. Wang;M.W. Chen;I. Baker

493
Citations
The charge effect of cationic surfactants on the elimination of fibre beads in the electrospinning of polystyrene

Tong Lin;Hongxia Wang;Huimin Wang;Xungai Wang

418
Citations
A Superamphiphobic Coating with an Ammonia-Triggered Transition to Superhydrophilic and Superoleophobic for Oil–Water Separation†

Zhiguang Xu;Yan Zhao;Hongxia Wang;Xungai Wang

384
Citations
Magnetic Liquid Marbles: A “Precise” Miniature Reactor

Yuhua Xue;Hongxia Wang;Yan Zhao;Liming Dai

365
Citations
Magnetic liquid marbles: manipulation of liquid droplets using highly hydrophobic Fe3O4 nanoparticles.

Yan Zhao;Jian Fang;Hongxia Wang;Xungai Wang

363
Citations
A Waterborne Coating System for Preparing Robust, Self-healing, Superamphiphobic Surfaces

Hua Zhou;Hongxia Wang;Haitao Niu;Yan Zhao

346
Citations
Thermoelectric Fabrics: Toward Power Generating Clothing

Yong Du;Kefeng Cai;Song Chen;Hongxia Wang

321
Citations
One-step coating of fluoro-containing silica nanoparticles for universal generation of surface superhydrophobicity

Hongxia Wang;Jian Fang;Tong Cheng;Jie Ding

317
Citations
Effect of electrospinning parameters and polymer concentrations on mechanical-to-electrical energy conversion of randomly-oriented electrospun poly(vinylidene fluoride) nanofiber mats

Hao Shao;Jian Fang;Hongxia Wang;Tong Lin

281
Citations
Enhanced mechanical energy harvesting using needleless electrospun poly(vinylidene fluoride) nanofibre webs

Jian Fang;Haitao Niu;Hongxia Wang;Xungai Wang

277
Citations
Directional Fluid Transport in Thin Porous Materials and its Functional Applications.

Yan Zhao;Hongxia Wang;Hua Zhou;Tong Lin

253
Citations
Self-Crimping Bicomponent Nanofibers Electrospun from Polyacrylonitrile and Elastomeric Polyurethane

Tong Lin;Hongxia Wang;Xungai Wang

242
Citations
Superamphiphobic Fabrics: Superstrong, Chemically Stable, Superamphiphobic Fabrics from Particle‐Free Polymer Coatings (Adv. Mater. Interfaces 6/2015)

Hua Zhou;Hongxia Wang;Haitao Niu;Jian Fang

229
Citations
Directional water-transfer through fabrics induced by asymmetric wettability

Hongxia Wang;Jie Ding;Liming Dai;Xungai Wang

222
Citations
Robust, superamphiphobic fabric with multiple self-healing ability against both physical and chemical damages.

Hongxia Wang;Hua Zhou;Adrian Gestos;Jian Fang

221
Citations
Fluorine-Free Superhydrophobic Coatings with pH-induced Wettability Transition for Controllable Oil–Water Separation

Zhiguang Xu;Yan Zhao;Hongxia Wang;Hua Zhou

211
Citations
Micro-meso porous structured carbon nanofibers with ultra-high surface area and large supercapacitor electrode capacitance

He Wang;He Wang;Haitao Niu;Haitao Niu;Hongjie Wang;Hongjie Wang;Wenyu Wang

203
Citations
Superphobicity/philicity Janus Fabrics with Switchable, Spontaneous, Directional Transport Ability to Water and Oil Fluids

Hua Zhou;Hongxia Wang;Haitao Niu;Tong Lin

197
Citations