1) C. Li, J. Wang*, A Highly Sensitive and Stretchable Liquid-Free Ionic Conductive Elastomers for Soft Ionotronics, in preparation.

2) W. Yu, C. Li, W. Zhai, J. Wang*, Metal-organic framework (MOF) nanoparticles assisted foaming of high hardness thermoplastic polyurethanes, submitted.

3) J. Li, X.Y. Wang*, X. Wei, M.M. Hassan, Q. Lu*, J. Wang*, Green Synthesis of Mechanically Robust and Antibacterial Chitosan-based Hydrogels for Wound Dressing, submitted.

4) X. Y. Wang, M. M. Hassan, X. He, G. Hu, Y. Ren, H. Kim, S. A. Mirkhani, J. Hu, A. Sen, J. Wang*, T. G. Dong*, Q. Lu*, “Thymol-loaded polylactic acid electrospun fibrous membranes with synergistic biocidal and anti-bacterial adhesion properties via morphology control”, Colloids Surf. A Physicochem. Eng. Asp., 2023, 677, 132360.

5) L. Azubuike, J. Wang, U. Sundararaj, “Carbon Nanotube Migration in a Compatibilized Blend System, Leading to Kinetically Induced Enhancement in Electrical Conductivity and Mechanical Properties”, Nanomaterials, 2023, 13, 1039.

6) X. Y. Wang, J. Wang, D. Rousseau, C. H. Tang, “Fabrication of chitosan colloidal gels via pH-mediated self-association”, Food Hydrocolloids, 2023, 135, 108126.

7) X. Y. Wang, J. Wang, C. Zhao, L. Ma, D. Rousseau, C. H. Tang, “Facile fabrication of chitosan colloidal films with pH-tunable surface hydrophobicity and mechanical properties”, Food Hydrocolloids, 2023, 137, 108429.

8) X. Y. Wang, L. Ma, Q. Zhao, B. G. Hyun, H. Liu, L. Yu, J. Wang*, C. B Park*, “Flexible Poly(ether-block-amide)/Carbon Nanotube Composites for Electromagnetic Interference Shielding”, ACS Appl. Nano Mater., 2022, 5, 5, 7598–7608.

9) T. Jiang, X. Wang, H. Liu, L. Yu*, C. B. Park, J. Wang*, “Closely packed conductive droplets with polygon-like patterns confined at the interface in ternary polymer blends”, Langmuir, 2022, 38, 10, 3189–3201.

10) J. Wang, A. Reyna-Valencia, B. D. Favis, “Surface Migration of Conductive PEBA in Ternary Polymer Blend Films with Different Wetting Morphologies”, Macromolecules, 2021, 54, 12, 5607–5617.

11) Y. Huang, T. Gancheva, A. Abidli, B. D. Favis, J. Wang*, C. B. Park*, “Hydrophobic Porous Polypropylene with Hierarchical Structures for Ultrafast and Highly Selective Oil/Water Separation”, ACS Applied Materials & Interfaces, 2021, 13, 14, 16859–16868 (Featured on the cover).

12) C. Zhao, J. Wang*, B. Zhao, E. Chang, P. C. Lee, C. B. Park*, “Nano-fibrillation of High-performance and Conductive Ternary PP/PEBA/PET Blends with Core-shell Structures”, Chemical Engineering Journal, 2021, 419, 129603.

13) S. E. Fenni, J. Wang, B. D. Favis, A. J. Müller, D. Cavallo, “Nucleation of poly(lactide) partially wet droplets in ternary blends with poly(butylene succinate) and poly(ε-caprolactone)”, Macromolecules, 2020, 53 (5): 1726-1735.

14) J. Wang, C. Zhao, L. H. Mark, X. Wang, R. Li, N. Moghimian, M. Hamidinejad and C. B. Park, “Facilitating Supercritical CO2 Assisted Exfoliation of Graphene Nanoplatelets with the Polymer Matrix”, Chemical Engineering Journal, 2020, 394: 124930.

15) J. Wang, Y. Kazemi, S. Wang, M. Hamidinejad, M. B. Mahmud, P. P?tschke, C. B. Park, “Enhancing the electrical conductivity of PP/CNT nanocomposites through crystal-induced volume exclusion effect with a slow cooling rate”, Composites Part B: Engineering, 2020, 183: 107663.

16) S. E. Fenni, J. Wang, N. Haddaoui B. D. Favis, A. J. Müller, D. Cavallo, “Nucleation of poly(lactide) partially wet droplets in ternary blends with poly(butylene succinate) and poly(ε-caprolactone)”, Polymer Crystallization, 2020, 3 (6): e10145 (Featured on the cover).

17) X. Y. Wang, J. Wang, D. Rousseau, C. H. Tang, “Chitosan-stabilized emulsion gels via pH-induced droplet flocculation”, Food Hydrocolloids, 2020, 105: 105811.

18) S. E. Fenni, J. Wang, N. Haddaoui, B. D. Favis, A. J. Müller, D. Cavallo, “Crystallization and self-nucleation of PLA, PBS and PCL in their immiscible binary and ternary blends”, Thermochimica Acta, 2019, 677: 117-130.

19) J. Wang, A. H. Tsou, B. D. Favis, “Effects of Polyethylene Molecular Weight Distribution on Phase Morphology Development in Poly(p-Phenylene Ether) and Polyethylene Blends”, Macromolecules, 2018, 51 (22): 9165–9176 (Featured on the cover).

20) J. Wang, A. Reyna-Valencia, B. D. Favis, “Assembling Conductive PEBA Copolymer at the Continuous Interface in Ternary Polymer Systems: Morphology and Resistivity”, Macromolecules 2016, 49: 5115?5125.

21) J. Wang, A. Tsou, H. Passino, B. D. Favis, “PPE-g-HDPE in High-performance Poly(p-Phenylene Ether)/Polyethylene Blends: Synthesis and Compatibilization”, Polymer, 2018, 138: 92-102.

22) J. Wang, A. Reyna-Valencia, B. D. Favis, “Controlling the continuity and surface migration of conductive poly(ether-block-amide) in melt processed cast-film blends”, Polymer, 2018, 136: 224-234.

23) J. Wang, A. Reyna-Valencia, B. D. Favis, “Continuity, morphology and surface resistivity in binary blends of poly(ether-block-amide) with polyethylene and polystyrene”, European Polymer Journal, 2017, 91: 197-211.

24) J. Wang, A. Reyna-Valencia, R. Chaigneau, B. D. Favis, “Controlling the Hierarchical Structuring of Conductive PEBA in Ternary and Quaternary Blends”, Industrial & Engineering Chemistry Research, 2016, 55: 12848–12859.

25) J. Wang, B. H. Lessard, M. Maric, B. D. Favis, “Hierarchically Porous Polymeric Materials from Ternary Polymer Blends”, Polymer, 2014, 55: 3461?3467.

26) H. Wang, Y. Liu, L. Chen, X. Li, J. Wang, F. Xie, “Insights into the multi-scale structure and digestibility of heat-moisture treated rice starch”, Food chemistry, 2018, 242: 323-329.

27) F. W. Xie, L.Yu, B. Su, P. Liu, J. Wang, H. S. Liu and L. Chen, “Rheological properties of starches with different amylose/amylopectin ratios”, Journal of Cereal Science, 2009, 49 (3): 371-377.

28) F. W. Xie, W. C. Liu, P. Liu and J. Wang, P. J. Halley and L. Yu, “Starch thermal transitions comparatively studied by DSC and MTDSC”, Starch/St?rke, 2010, 62 (7): 350–357.

29) J. Wang, L. Yu, F. Xie, L. Chen, L. Li, “Rheological properties and phase transition of cornstarches with different amylose/amylopectin ratios under shear stress”, Starch/St?rke, 2010, 62: 667?675.