Biography
Dr. Hongxia Wang is an ARC Postdoctoral Research Fellow (APD). Her research focuses on functional fibrous materials. Her current research interests include:
(1) Fibres and fabrics with special wettability (e.g. superhydrophobicity, superamphiphobicity and superhydrophilicity);
(2) Fibrous materials with novel directional-liquid transfer ability;
(3) Electrically conductive fibres;
(4) Functionalization of fibres and fabrics using coating technology;
(5) Novel applications of functional fibres and fabrics.
As Principal Investigator, Dr. Wang has won two ARC Discovery Projects. She has published more than 60 articles in high impact factor journals (e.g. Advanced Materials, Advanced Functional Materials and Angew Chieme Int Ed).
Career highlights
2014-present: Research Fellow, Deakin University, Australia.
2011-2014: ARC APD Research Fellow, Deakin University, Australia.
2010-2011: Alfred Deakin Postdoctoral Research Fellow, Deakin University, Australia
Research interests
Current projects
• Superhydrophobic/superamphiphobic/superhydrophilic fabrics
• Directional liquid-transport fabrics
• Multifunctional fabric materials
• Environmental friendly self-cleaning coating technology
Publications
A novel Janus fabric with stable amphibious directional oil transport function
H Zhou, H Wang, T Lin, H Niu
(2022), Vol. 427, pp. 1-9, Chemical Engineering Journal, Amsterdam, The Netherlands, C1
Y Cao, H Shao, H Wang, X Yang, Q Gao, Q Chen, J Fang, T Cheng, T Lin
(2022), Vol. 7, Advanced Materials Technologies, C1
Y Liu, H Shao, H Wang, Z Ji, R Bai, F Chen, B Li, C Chang, T Lin
(2022), Vol. 9, pp. 1-10, Advanced Materials Interfaces, London, Eng., C1
Thermoacoustic energy harvesting using thermally-stabilized polyacrylonitrile nanofibers
Y Zheng, W Wang, J Niu, X Jin, Y Sun, L Peng, W Li, H Wang, T Lin
(2022), Vol. 95, pp. 1-11, Nano Energy, Amsterdam, The Netherlands, C1
Effect of water and DMSO on mechanoelectrical conversion of Schottky DC generators
X Ding, H Shao, H Wang, R Bai, J Fang, T Lin
(2022), Vol. 10, pp. 13055-13065, Journal of Materials Chemistry A, Cambridge, Eng., C1
H Wang, H Niu, H Wang, W Wang, X Jin, H Wang, H Zhou, T Lin
(2021), Vol. 482, Journal of Power Sources, C1
M Tang, Y Wu, J Yang, H Wang, T Lin, Y Xue
(2021), Vol. 858, Journal of Alloys and Compounds, C1
High-precision detection of ordinary sound by electrospun polyacrylonitrile nanofibers
L Peng, X Jin, J Niu, W Wang, H Wang, H Shao, C Lang, T Lin
(2021), Vol. 9, pp. 3477-3485, Journal of Materials Chemistry C, C1
Z Cai, L Fan, H Wang, S Lamon, S Alexander, T Lin, S Edwards
(2021), Vol. 22, pp. 1867-1874, Biomacromolecules, Washington, D.C., C1
Q Li, M Li, X Zhao, K Zhao, H Wang, C Qiao, X Li, Z Zhang, H Chang, T Lin
(2021), Vol. 116, Diamond and Related Materials, C1
High-Performance Voice Recognition Based on Piezoelectric Polyacrylonitrile Nanofibers
H Shao, H Wang, Y Cao, X Ding, J Fang, W Wang, X Jin, L Peng, D Zhang, T Lin
(2021), Vol. 7, Advanced Electronic Materials, C1
Y Cao, H Shao, H Wang, X Yang, Q Gao, T Cheng, J Fang, T Lin
(2021), Vol. 6, Advanced Materials Technologies, C1
H Chi, Z Xu, Z Wei, T Zhang, H Wang, T Lin, Y Zhao
(2021), Vol. 13, pp. 29150-29157, ACS Applied Materials and Interfaces, Washington, DC, C1
Durable anti-oil-fouling superhydrophilic membranes for oil-in-water emulsion separation
S Fu, Y Xu, H Wang, F Sun, J He, Z Liu, Z Xu, H Wang, T Lin
(2021), Vol. 41, pp. 681-689, Journal of Polymer Engineering, Berlin, Germany, C1
X Ding, H Shao, H Wang, W Yang, J Fang, D Zhang, T Lin
(2021), Vol. 89, Nano Energy, C1
W Wang, Y Zheng, Y Sun, X Jin, J Niu, M Cheng, H Wang, H Shao, T Lin
(2021), Vol. 9, pp. 20395-20404, Journal of Materials Chemistry A, Cambridge, Eng., C1
H Shao, H Wang, Y Cao, X Ding, R Bai, H Chang, J Fang, X Jin, W Wang, T Lin
(2021), Vol. 89, Nano Energy, C1
J Ding, J Kearney, H Wang, T Tian, G Rutledge, T Lin, X Wang
(2021), Vol. 17, Small, Germany, C1
H Zhou, H Wang, H shao, T Lin, H Xu, H Niu
(2021), Vol. 211, Materials and Design, C1-1
H Niu, H Zhou, H Shao, H Wang, X Ding, R Bai, T Lin
(2021), Vol. 90, Nano Energy, C1-1
M Li, Y Zhang, F Zhu, X Zhao, R Li, H Wang, J Liu, X Li, H Chang, T Lin
(2021), Vol. 28, Journal of Polymer Research, C1-1
Electrospinning: an advanced nanofiber production technology
Haitao Niu, Hua Zhou, Hongxia Wang
(2020), pp. 1-44, ENERGY HARVESTING PROPERTIES OF ELECTROSPUN NANOFIBERS, Bristol, Eng., B1
Preparation of keratin/PET nanofiber membrane and its high adsorption performance of Cr(VI)
X Jin, H Wang, X Jin, H Wang, L Chen, W Wang, T Lin, Z Zhu
(2020), Vol. 710, Science of the Total Environment, Netherlands, C1
J Liu, H Zhou, X Wu, H Wang, Z Ji, Y Xing, J Lu, X Wei, T Lin
(2020), Vol. 7, pp. 1-8, Advanced Materials Interfaces, London, Eng., C1
A versatile, highly-effective nanofibrous separation membrane
Hua Zhou, Haitao Niu, Hongxia Wang, Weidong Yang, Xin Wei, Hao Shao, Tong Lin
(2020), Vol. 12, pp. 2359-2365, Nanoscale, London, Eng., C1
Highly Efficient Solvent-free Conversion of CO
Q Li, H Yang, M Li, K Zhao, B Duan, C Zhang, H Wang, C Qiao, H Chang, T Lin
(2020), Vol. 59, pp. 8136-8144, Industrial and Engineering Chemistry Research, C1
Substantial Improvement of Oil Aerosol Filtration Performance Using In-Plane Asymmetric Wettability
X Wei, Y Liu, H Zhou, F Chen, H Wang, Z Ji, G Chase, T Lin
(2020), Vol. 12, pp. 28852-28860, ACS Applied Materials and Interfaces, Washington, D.C., C1
H Shao, H Wang, Y Cao, X Ding, J Fang, H Niu, W Wang, C Lang, T Lin
(2020), Vol. 75, Nano Energy, C1
N Awad, C Wong, H Zhou, H Niu, H Wang, Y Morsi, T Lin
(2020), Vol. 31, pp. 2114-2127, Journal of biomaterials science, polymer edition, Abingdon, Eng., C1
W Wang, X Han, J Niu, X Jin, H Wang, H Shao, T Lin
(2020), Vol. 8, pp. 24166-24174, Journal of materials chemistry A, Cambridge, Eng., C1
Piezoelectric energy conversion performance of electrospun nanofibers
Hao Shao, Hongxia Wang, Jian Fang
(2019), pp. 1-42, Energy Harvesting Properties of Electrospun Nanofibers, Bristol, Eng., B1
Triboelectric effect and triboelectric energy generators
Yuying Cao, Hao Shao, Hongxia Wang, Tong Lin, Jian Fang
(2019), pp. 1-28, Energy Harvesting Properties of Electrospun Nanofibers, Bristol, Eng., B1
D Zhang, T Yuan, G Wei, H Wang, L Gao, T Lin
(2019), Vol. 774, pp. 495-501, Journal of alloys and compounds, Amsterdam, The Netherlands, C1
X Wei, H Zhou, F Chen, H Wang, Z Ji, T Lin
(2019), Vol. 29, Advanced Functional Materials, C1
X Jin, H Wang, Y Liu, H Wang, W Wang, T Lin
(2019), Vol. 470, pp. 783-791, Applied surface science, Amsterdam, The Netherlands, C1
Doping Effect on Conducting Polymer-Metal Schottky DC Generators
H Shao, J Fang, H Wang, H Zhou, H Niu, F Chen, G Yan, S Fu, Y Cao, T Lin
(2019), Vol. 5, Advanced Electronic Materials, C1
Unexpectedly high piezoelectricity of electrospun polyacrylonitrile nanofiber membranes
W Wang, Y Zheng, X Jin, Y Sun, B Lu, H Wang, J Fang, H Shao, T Lin
(2019), Vol. 56, pp. 588-594, Nano energy, Amsterdam, The Netherlands, C1
Amphibious superamphiphilic fabrics with self-healing underwater superoleophilicity
S Fu, H Zhou, H Wang, H Niu, W Yang, H Shao, T Lin
(2019), Vol. 6, pp. 122-129, Materials Horizons, London, Eng., C1
Novel Water Harvesting Fibrous Membranes with Directional Water Transport Capability
J Wu, H Zhou, H Wang, H Shao, G Yan, T Lin
(2019), Vol. 6, Advanced Materials Interfaces, C1
H Wang, W Wang, H Wang, Y Li, X Jin, H Niu, H Wang, H Zhou, T Lin
(2019), Vol. 6, Advanced Materials Interfaces, C1
Motion sensors achieved from a conducting polymer-metal Schottky contact
Y Zhou, J Fang, H Wang, H Zhou, G Yan, H Shao, Y Zhao, T Lin
(2019), Vol. 9, pp. 6576-6582, RSC Advances, England, C1
Q Li, H Chang, R Li, H Wang, J Liu, S Liu, C Qiao, T Lin
(2019), Vol. 469, pp. 111-117, Molecular Catalysis, Amsterdam, The Netherlands, C1
Schottky direct-current energy harvesters with large current output density
H Shao, J Fang, H Wang, H Niu, H Zhou, Y Cao, F Chen, S Fu, T Lin
(2019), Vol. 62, pp. 171-180, Nano energy, Amsterdam, The Netherlands, C1
Multifunctional directional water transport fabrics with moisture sensing capability
H Wang, H Niu, H Zhou, X Wei, W Yang, T Lin
(2019), Vol. 11, pp. 22878-22884, ACS applied materials and interfaces, Washington, D.C., C1
Superhydrophilic, underwater directional oil-transport fabrics with a novel oil trapping function
S Fu, H Zhou, H Wang, H Niu, W Yang, H Shao, J Wang, T Lin
(2019), Vol. 11, pp. 27402-27409, ACS applied materials and interfaces, Washington, D.C., C1
T Yan, H Zhou, H Niu, H Shao, H Wang, Z Pan, T Lin
(2019), Vol. 7, pp. 10049-10058, Journal of Materials Chemistry C, C1
Anti-oil-fouling, easily-cleaning, superhydrophilic-superoleophobic fabrics
H Zhou, H Niu, H Wang, T Lin
(2019), pp. 66-68, Fiber Society 2019 Spring Conference : Renaissance of Fibers and Fibrous Materials: Science, Technology, Fashion, and New Applications, Hong Kong, China, E1
Magnet-responsive, superhydrophobic fabrics from waterborne, fluoride-free coatings
S Fu, H Zhou, H Wang, J Ding, S Liu, Y Zhao, H Niu, G Rutledge, T Lin
(2018), Vol. 8, pp. 717-723, RSC Advances, England, C1
Conversion of carbon dioxide into cyclic carbonates using wool powder-KI as catalyst
H Chang, Q Li, X Cui, H Wang, Z Bu, C Qiao, T Lin
(2018), Vol. 24, pp. 174-179, Journal of CO2 utilization, Amsterdam, The Netherlands, C1
Efficient removal of aerosol oil-mists using superoleophobic filters
X Wei, F Chen, H Wang, H Zhou, Z Ji, T Lin
(2018), Vol. 6, pp. 871-877, Journal of materials chemistry A, Cambridge, Eng., C1
Electro-aerodynamic field aided needleless electrospinning
G Yan, H Niu, H Zhou, H Wang, H Shao, X Zhao, T Lin
(2018), Vol. 29, Nanotechnology, England, C1
H Chang, Q Li, X Cui, H Wang, C Qiao, Z Bu, T Lin
(2018), Vol. 449, pp. 25-30, Molecular catalysis, Amsterdam, The Netherlands, C1
Multicolor Electrochromic Fibers with Helix-Patterned Electrodes
Y Zhou, J Fang, H Wang, H Zhou, G Yan, Y Zhao, L Dai, T Lin
(2018), Vol. 4, Advanced Electronic Materials, C1
Pore size effect on one-way water-transport cotton fabrics
H Wang, W Wang, H Wang, X Jin, J Li, H Wang, H Zhou, H Niu, T Lin
(2018), Vol. 455, pp. 924-930, Applied surface science, Amsterdam, The Netherlands, C1
Highly Permeable, Directional Water Transport Cotton Fabrics
H Wang, H Zhou, X Wei, H Niu, T Lin
(2018), Vol. 5, Advanced Materials Interfaces, C1
Durable superoleophobic-superhydrophilic fabrics with high anti-oil-fouling property
H Zhou, H Wang, W Yang, H Niu, X Wei, S Fu, S Liu, H Shao, T Lin
(2018), Vol. 8, pp. 26939-26947, RSC Advances, England, C1
Recent Progress in Durable and Self-Healing Super-Nonwettable Fabrics
H Zhou, H Wang, H Niu, T Lin
(2018), Vol. 5, Advanced Materials Interfaces, C1
W Wang, H Wang, X Jin, H Wang, T Lin, Z Zhu
(2018), Vol. 153, pp. 643-652, Polymer, Amsterdam, The Netherlands, C1
H Wang, H Wang, W Wang, X Jin, T Lin
(2018), Vol. 32, pp. 730-735, 材料导报/Materials review, Chongqing, China, C1
Enhancement of coil electrospinning using two-level coil structure
H Niu, H Zhou, G Yan, H Wang, S Fu, X Zhao, H Shao, T Lin
(2018), Vol. 57, pp. 15473-15478, Industrial and Engineering Chemistry Research, Washington, D.C., C1
H Wang, W Wang, H Wang, X Jin, H Niu, H Wang, H Zhou, T Lin
(2018), Vol. 1, pp. 431-439, ACS Applied Energy Materials, C1
Highly air-permeable, directional, water-transport cotton fabrics
H Wang, H Zhou, T Lin
(2018), pp. 1-3, Fibers and Textiles for Value Creation in Connected Industries : Proceedings of the Fiber Society 2018 Spring Conference, Tokyo, Japan, E1
Directional Fluid Transport in Thin Porous Materials and its Functional Applications
Y Zhao, H Wang, H Zhou, T Lin
(2017), Vol. 13, Small, Germany, C1
H Shao, J Fang, H Wang, C Lang, G Yan, T Lin
(2017), Vol. 302, Macromolecular Materials and Engineering, C1
A Waterborne Coating System for Preparing Robust, Self-healing, Superamphiphobic Surfaces
H Zhou, H Wang, H Niu, Y Zhao, Z Xu, T Lin
(2017), Vol. 27, Advanced Functional Materials, C1
S Liu, H Zhou, H Wang, Y Zhao, H Shao, Z Xu, Z Feng, D Liu, T Lin
(2017), Vol. 4, Advanced Materials Interfaces, C1
C Lang, J Fang, H Shao, H Wang, G Yan, X Ding, T Lin
(2017), Vol. 35, pp. 146-153, Nano Energy, C1
Direct current energy generators from a conducting polymer-inorganic oxide junction
H Shao, J Fang, H Wang, H Zhou, T Lin
(2017), Vol. 5, pp. 8267-8273, Journal of Materials Chemistry A, C1
H Wang, H Zhou, S Liu, H Shao, S Fu, G Rutledge, T Lin
(2017), Vol. 7, pp. 33986-33993, RSC Advances, C1
Argon-Plasma Reinforced Superamphiphobic Fabrics
S Liu, H Zhou, H Wang, W Yang, H Shao, S Fu, Y Zhao, D Liu, Z Feng, T Lin
(2017), Vol. 13, Small, Germany, C1-1
Y Du, K Cai, S Shen, R Donelsonand, J Xu, H Wang, T Lin
(2017), Vol. 7, pp. 43737-43742, RSC Advances, C1-1
H Chang, Q Li, C Xu, R Li, H Wang, Z Bu, T Lin
(2017), Vol. 153, pp. 119-127, Composites science and technology, Amsterdam, The Netherlands, C1-1
G Yan, H Niu, X Zhao, H Shao, H Wang, H Zhou, T Lin
(2017), Vol. 56, pp. 12337-12343, Industrial and engineering chemistry research, Washington, D.C., C1
Progress in electrospun nanofibrous membranes used for oil-water separation
H Wang, W Wang, H Wang, X Jin, J Li, T Lin, Z Zhu
(2017), Vol. 31, pp. 144-151, Cailiao daobao/Materials review, Chongqing, China, C1
Polymer-Metal Schottky Contact with Direct-Current Outputs
H Shao, J Fang, H Wang, L Dai, T Lin
(2016), Vol. 28, pp. 1461-1466, Advanced Materials, Germany, C1
D Wang, L Gao, D Zhang, D Yang, H Wang, T Lin
(2016), Vol. 169, pp. 142-151, Materials chemistry and physics, Amsterdam, The Netherlands, C1
Effect of vapor-phase glutaraldehyde crosslinking on electrospun starch fibers
W Wang, X Jin, Y Zhu, C Zhu, J Yang, H Wang, T Lin
(2016), Vol. 140, pp. 356-361, Carbohydrate Polymers, England, C1
Z Xu, Y Zhao, H Wang, H Zhou, C Qin, X Wang, T Lin
(2016), Vol. 8, pp. 5661-5667, ACS applied materials and interfaces, Washington, D.C., C1
H Niu, H Zhou, H Wang, T Lin
(2016), Vol. 301, pp. 707-713, Macromolecular materials and engineering, Weinheim, C1
Directional Water Transport Fabrics with Durable Ultra-High One-Way Transport Capacity
C Zeng, H Wang, H Zhou, T Lin
(2016), Vol. 3, Advanced Materials Interfaces, C1
High-performance supercapacitor electrode from cellulose-derived, inter-bonded carbon nanofibers
J Cai, H Niu, H Wang, H Shao, J Fang, J He, H Xiong, C Ma, T Lin
(2016), Vol. 324, pp. 302-308, Journal of power sources, Amsterdam, The Netherlands, C1
One-Way Water-Transport Cotton Fabrics with Enhanced Cooling Effect
H Zhou, H Wang, H Niu, C Zeng, Y Zhao, Z Xu, S Fu, T Lin
(2016), Vol. 3, Advanced Materials Interfaces, C1
Recent Development in Durable Super-Liquid-Repellent Fabrics
H Zhou, Y Zhao, H Wang, T Lin
(2016), Vol. 3, Advanced Materials Interfaces, C1
Heat transfer in directional water transport fabrics
C Zeng, H Wang, H Zhou, T Lin
(2016), Vol. 4, Fibers, C1-1
H Shao, J Fang, H Wang, T Lin
(2016), Vol. 8, pp. 418-422, Advanced materials letters, Linkoping, Sweden, C1
Power generation: polymer-metal Schottky contact with direct-current outputs (Adv. Mater. 7/2016)
H Shao, J Fang, H Wang, L Dai, T Lin
(2016), Vol. 28, pp. 1524-1524, Advanced materials, Berlin, Germany, J2
X Liu, J Fang, M Gao, H Wang, W Yang, T Lin
(2015), Vol. 151, pp. 330-336, Materials Chemistry and Physics, C1
H Shao, J Fang, H Wang, T Lin
(2015), Vol. 5, pp. 14345-14350, RSC Advances, Cambridge, Eng., C1
Z Xu, Y Zhao, H Wang, X Wang, T Lin
(2015), Vol. 54, pp. 4527-4530, Angewandte chemie international edition, Weinheim, Germany, C1
H Wang, H Zhou, H Niu, J Zhang, Y Du, T Lin
(2015), Vol. 2, Advanced Materials Interfaces, C1
Thermoelectric fabrics: toward power generating clothing.
Y Du, K Cai, S Chen, H Wang, S Shen, R Donelson, T Lin
(2015), Vol. 5, pp. 6411-6411, Scientific Reports, England, C1
Desalination of Water using a Superhydrophobic Fabric
H Wang, H Zhou, H Niu, C Huang, A Abbas, J Fang, T Lin
(2015), Vol. 19, pp. 1-8, Research Journal of Textile and Apparel, Hong Kong, C1
C Zeng, H Wang, H Zhou, T Lin
(2015), Vol. 5, pp. 61044-61050, RSC advances, Cambridge, Eng., C1
H Wang, H Zhou, W Yang, Y Zhao, J Fang, T Lin
(2015), Vol. 7, pp. 22874-22880, ACS applied materials and interfaces, Washington, D.C., C1
Electrospun fibrous membranes with super-large-strain electric superhydrophobicity
H Zhou, H Wang, H Niu, T Lin
(2015), Vol. 5, pp. 1-9, Scientific reports, London, Eng., C1
H Shao, J Fang, H Wang, C Lang, T Lin
(2015), Vol. 7, pp. 22551-22557, ACS applied materials and interfaces, Washington, D.C., C1
Superstrong, chemically stable, superamphiphobic fabrics from particle-free polymer coatings
H Zhou, H Wang, H Niu, J Fang, Y Zhao, T Lin
(2015), Vol. 2, pp. 1-1, Advanced materials: interfaces, London, Eng., J2-1
H Niu, H Wang, H Zhou, T Lin
(2014), Vol. 4, pp. 11782-11787, RSC Advances, C1
J Fang, H Niu, H Wang, X Wang, T Lin
(2013), Vol. 6, pp. 2196-2202, Energy and environmental science, Cambridge, England, C1
H Wang, H Zhou, A Gestos, J Fang, H Niu, J Ding, T Lin
(2013), Vol. 9, pp. 277-282, Soft matter, Cambridge, England, C1
Unidirectional water transfer effect from fabrics having a superhydrophobic-to-hydophilic gradient
H Wang, X Wang, T Lin
(2013), Vol. 13, pp. 839-842, Journal of nanoscience and nanotechnology, Valencia, Calif., C1
H Zhou, H Wang, H Niu, A Gestos, T Lin
(2013), Vol. 23, pp. 1664-1670, Advanced functional materials, London, England, C1
H Wang, H Zhou, A Gestos, J Fang, T Lin
(2013), Vol. 5, pp. 10221-10226, ACS applied materials and interfaces, Washington, D.C., C1
L Wang, H Wang, L Feng, T Lin
(2013), Vol. 299, pp. 878-884, Macromolecular materials and engineering, London, England, C1
H Zhou, H Wang, H Niu, T Lin
(2013), Vol. 3, pp. 1-6, Scientific reports, London, England, C1
J Fang, H Wang, X Wang, T Lin
(2012), Vol. 103, pp. 937-944, Journal of the textile institute, Abingdon, England, C1
Y Tang, Y Zhao, H Wang, Y Gao, X Liu, X Wang, T Lin
(2012), Vol. 100 A, pp. 2071-2078, Journal of biomedical materials research - Part A, Hoboken, United States, C1
H Zhou, H Wang, H Niu, A Gestos, X Wang, T Lin
(2012), Vol. 24, pp. 2409-2412, Advanced materials, Weinheim, Germany, C1
Y Tang, C Wong, H Wang, A Sutti, M Kirkland, X Wang, T Lin
(2011), Vol. 17, pp. 209-217, Tissue engineering. Part C. methods, New Rochelle, N.Y., C1
E Nuhiji, F Amar, H Wang, N Byrne, T Nguyen, T Lin
(2011), Vol. 21, pp. 10823-10828, Journal of materials chemistry, Cambridge, U. K., C1
H Wang, Y Xue, T Lin
(2011), Vol. 7, pp. 8158-8161, Soft matter, Cambridge, U. K., C1
H Wang, Y Xue, J Ding, L Feng, X Wang, T Lin
(2011), Vol. 50, pp. 11433-11436, Angewandte chemie, Weinheim, Germany, C1
Y Zhao, J Fang, H Wang, X Wang, T Lin
(2010), Vol. 22, pp. 707-710, Advanced materials, Weinheim, Germany, C1
Super water repellent fabrics produced by silica nanoparticle-containing coating
H Wang, J Ding, T Lin, X Wang
(2010), Vol. 14, pp. 30-37, Research journal of textile and apparel, Hong Kong, C1
H Wang, J Ding, Y Xue, X Wang, T Lin
(2010), Vol. 25, pp. 1336-1343, Journal of materials research, New York, N.Y., C1
Directional water-transfer through fabrics induced by asymmetric wettability
H Wang, J Ding, L Dai, X Wang, T Lin
(2010), Vol. 20, pp. 7938-7940, Journal of materials chemistry, Cambridge, England, C1
Evolution of fiber morphologies during poly(acrylonitrile) electrospinning
J Fang, H Wang, H Niu, T Lin, X Wang
(2010), Vol. 287, pp. 155-161, Macromolecular symposia, Weinheim, Germany, C1
Evolution of fiber morphology during electrospinning
J Fang, H Wang, H Niu, T Lin, X Wang
(2010), Vol. 118, pp. 2553-2561, Journal of applied polymer science, Hoboken, N.J., C1
Magnetic liquid marbles: a "precise" miniature reactor
Y Xue, H Wang, Y Zhao, L Dai, L Feng, X Wang, T Lin
(2010), Vol. 22, pp. 4814-4818, Advanced materials, London, Eng., C1
J Fang, H Wang, Y Xue, X Wang, T Lin
(2010), Vol. 2, pp. 1449-1455, ACS applied materials & interfaces, Washington, D.C., C1
Y Xue, H Wang, D Yu, L Feng, L Dai, X Wang, T Lin
(2009), pp. 6418-6420, Chemical communications, Cambridge, England, C1
H Wang, J Fang, T Cheng, J Ding, L Qu, L Dai, X Wang, T Lin
(2008), pp. 877-879, Chemical communications, London, England, C1
Electroless synthesis of nano-structured gold particles using conducting polymer nanoparticles
J Ding, H Wang, T Lin, B Lee
(2008), Vol. 158, pp. 585-589, Synthetic metals, Lausanne, Switzerland, C1
Polypyrrole-coated electrospun nanofibre membranes for recovery of Au(III) from aqueous solution
H Wang, J Ding, B Lee, X Wang, T Lin
(2007), Vol. 303, pp. 119-125, Journal of membrane science, Amsterdam, The Netherlands, C1
Using chitosan as a thickener for electrospinning dilute PVA solutions to improve fibre uniformity
T Lin, J Fang, H Wang, T Cheng, X Wang
(2006), Vol. 17, pp. 3718-3723, Nanotechnology, Bristol, England, C1
The effects of dye dopants on the conductivity and optical absorption properties of polypyrrole
E Håkansson, T Lin, H Wang, A Kaynak
(2006), Vol. 156, pp. 1194-1202, Synthetic metals, Lausanne, Switzerland, C1
Polypyrrole nanoparticles and dye absorption properties
H Wang, T Lin, A Kaynak
(2005), Vol. 151, pp. 136-140, Synthetic metals, Lausanne, Switzerland, C1
T Lin, H Wang, H Wang, X Wang
(2005), Vol. 21, pp. 1-4, Journal of materials science & technology, [Shenyang, China], C1
Self-crimping bicomponent nanofibres electrospun from polyacrylonitrile and elastomeric polyurethane
T Lin, H Wang, X Wang
(2005), Vol. 17, pp. 2699-2703, Advanced materials, Weinheim, Germany, C1
T Lin, H Wang, H Wang, X Wang
(2004), Vol. 15, pp. 1375-1381, Nanotechnology, Bristol, England, C1
Fluorescence quenching behaviour of hyperbranched polymer to the nitro-compounds
H Wang, T Lin, F Bai, A Kaynak
(2004), pp. 459-468, Nanoengineered nanofibrous materials, Belek-Antalya, Turkey, E1
Funded Projects at Deakin
Australian Competitive Grants
Superhydrophobic Fabrics for Solar Desalination of Seawater
Dr Hong Wang
ARC - Discovery Projects
- 2013: $90,992
- 2012: $87,551
- 2011: $87,355
Water-phase Assembly of Durable, Superamphiphobic, Self-cleaning Surfaces
Dr Hong Wang, Dr Yan Zhao
ARC - Discovery Projects
- 2017: $84,059
- 2016: $79,401
- 2015: $81,433
Functional Innovations for Merino wool II: Low-temperature curing of water-resistant coatings and screen-printing of directional water-transport wool
Dr Hong Wang, Prof Tong Lin, Dr Hua Zhou
AWI Grant - Research - Australian Wool Innovation Limited
- 2015: $40,000
Superwettability Effects on Oil-mist Coalescing Fibrous Filters
Dr Hong Wang, Prof George Chase, Zhongli Ji
ARC - Discovery Projects
- 2021: $96,466
- 2020: $94,761
- 2019: $93,085
Other Public Sector Funding
Development of Functional Coatings for Repelling Low Surface-Energy, High Permeability and Solubility Chemical Fluids
Dr Hong Wang, Dr Hua Zhou, Prof Tong Lin
DSTO Grant - Research - Defence Science & Technology Organisation
- 2016: $30,000
Industry and Other Funding
Continuous Electrospinning of Nanofibres
Prof Tong Lin, Dr Haitao Niu, Dr Hong Wang
Nantong Xinau Technology
- 2017: $20,000
Preparation of Directional Wicking Fabrics using a Ultra-spray Method.
Prof Tong Lin, Dr Hua Zhou, Dr Haitao Niu, Dr Hong Wang
Shanghai AR New Materials Technology Ltd
- 2019: $50,000
- 2018: $50,000
Other Funding Sources
Superhydrophobic Treatment of Fabrics
Dr Hong Wang, Prof Tong Lin
DSTO contract
- 2015: $13,500
Supervisions
Sida Fu
Thesis entitled: Multiple Functional Superwettability Fabrics
Doctor of Philosophy (Engineering), Institute for Frontier Materials
Xin Wei
Thesis entitled: Superwettability Fibrous Filters for Aerosol Oil-mist Filtration
Doctor of Philosophy (Engineering), Institute for Frontier Materials
Chao Zeng
Thesis entitled: Superhydrophobic coating and directional water transport fabrics
Doctor of Philosophy (Engineering), Institute for Frontier Materials