2026 Menghe Miao: 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	48	10858	10489	317	315	157	8196

Discipline name

D-Index

World Ranking

Current World Ranking

National Ranking

Current National Ranking

Publications

Citations

Materials Science

10858

10489

317

315

157

8196

Overview

Menghe Miao is affiliated with the Commonwealth Scientific and Industrial Research Organisation in Australia. Their research focuses on the fields of Engineering and Materials Science, contributing extensively to both areas.

The scientist's main subfields of study include:

Polymers and Plastics
Mechanical Engineering
Biomedical Engineering
Electronic, Optical and Magnetic Materials
Materials Chemistry

Menghe Miao's work covers a range of key topics such as:

Polymer composites and self-healing
Epoxy Resin Curing Processes
Synthesis and properties of polymers
Conducting polymers and applications
Fiber-reinforced polymer composites
Supercapacitor Materials and Fabrication
Advanced Sensor and Energy Harvesting Materials

Frequent publication venues for Miao include:

Macromolecules
Green Chemistry
Composites Part B Engineering
Advanced Materials
Materials & Design

Some notable recent papers authored or co-authored by Menghe Miao are:

Closed-Loop Recyclable Fully Bio-Based Epoxy Vitrimers from Ferulic Acid-Derived Hyperbranched Epoxy Resin, 2022, Macromolecules
Degradable and recyclable bio-based thermoset epoxy resins, 2020, Green Chemistry
Closed-Loop Recycling of Both Resin and Fiber from High-Performance Thermoset Epoxy/Carbon Fiber Composites, 2021, ACS Macro Letters
High performance flexible supercapacitor based on metal-organic-framework derived CoSe2 nanosheets on carbon nanotube film, 2021, Journal of Power Sources
Synthesis of degradable hyperbranched epoxy resins with high tensile, elongation, modulus and low-temperature resistance, 2020, Composites Part B Engineering

Frequent collaborators in Miao's research include:

Daohong Zhang
Junheng Zhang
Zejun Xu
Lingjie Yu
Chao Zhi

Best Publications

High‐Performance Two‐Ply Yarn Supercapacitors Based on Carbon Nanotubes and Polyaniline Nanowire Arrays

Kai Wang;Qinghai Meng;Yajie Zhang;Zhixiang Wei

649
Citations
A bio-based hyperbranched flame retardant for epoxy resins

Junheng Zhang;Xiaoqian Mi;Shiyuan Chen;Zejun Xu

332
Citations
Influence of moisture absorption on the interfacial strength of bamboo/vinyl ester composites

Hongyan Chen;Hongyan Chen;Menghe Miao;Xin Ding

315
Citations
High-performance two-ply yarn supercapacitors based on carbon nanotube yarns dotted with Co3 O4 and NiO nanoparticles.

Unknown

283
Citations
Electrical conductivity of pure carbon nanotube yarns

Menghe Miao

271
Citations
Core-spun carbon nanotube yarn supercapacitors for wearable electronic textiles.

Daohong Zhang;Daohong Zhang;Menghe Miao;Haitao Niu;Zhixiang Wei

265
Citations
Flexible supercapacitors based on carbon nanotube-MnO2 nanocomposite film electrode

Qiufan Wang;Yun Ma;Xiao Liang;Daohong Zhang

201
Citations
Surface properties of low-temperature plasma treated wool fabrics

Chi Wai Kan;K. Chan;C. W.M. Yuen;M. H. Miao

163
Citations
Poisson’s ratio and porosity of carbon nanotube dry-spun yarns

Menghe Miao;Jill McDonnell;Lucy Vuckovic;Stephen C. Hawkins

156
Citations
Recyclable thermoset hyperbranched polymers containing reversible hexahydro- s -triazine

Zejun Xu;Yeyun Liang;Xu Ma;Sufang Chen

155
Citations
Commingled natural fibre/polypropylene wrap spun yarns for structured thermoplastic composites

Lu Zhang;Menghe Miao

152
Citations
Yarn spun from carbon nanotube forests: Production, structure, properties and applications

Menghe Miao

126
Citations
Degradable and recyclable bio-based thermoset epoxy resins

Xianchao Chen;Xianchao Chen;Sufang Chen;Zejun Xu;Junheng Zhang

120
Citations
Effect of gamma-irradiation on the mechanical properties of carbon nanotube yarns

Menghe Miao;Stephen C. Hawkins;Jackie Y. Cai;Thomas R. Gengenbach

115
Citations
Asymmetric carbon nanotube–MnO2 two-ply yarn supercapacitors for wearable electronics

Fenghua Su;Fenghua Su;Menghe Miao

110
Citations
Studies of JetRing Spinning Part I: Reducing Yarn Hairiness with the JetRing

Xungai Wang;Menghe Miao;Yanlai How

104
Citations
Novel core/shell CoSe2@PPy nanoflowers for high-performance fiber asymmetric supercapacitors

Qiufan Wang;Yun Ma;Xiao Liang;Daohong Zhang

103
Citations
Low Temperature Plasma on Wool Substrates: The Effect of the Nature of the Gas

C.W. Kan;K. Chan;C.W.M. Yuen;M.H. Miao

101
Citations
Closed-Loop Recycling of Both Resin and Fiber from High-Performance Thermoset Epoxy/Carbon Fiber Composites

Xu Ma;Haifeng Xu;Zejun Xu;Yu Jiang

94
Citations
Flexible, high performance Two-Ply Yarn Supercapacitors based on irradiated Carbon Nanotube Yarn and PEDOT/PSS

Fenghua Su;Menghe Miao

86
Citations
Flexible Asymmetric Threadlike Supercapacitors Based on NiCo2Se4 Nanosheet and NiCo2O4/Polypyrrole Electrodes

Qiufan Wang;Yun Ma;Yunlong Wu;Daohong Zhang

80
Citations
Highly aligned flax/polypropylene nonwoven preforms for thermoplastic composites

Menghe Miao;Mingjing Shan

80
Citations