Zhong-Ming Li spends much of his time researching Composite material, Polymer, Carbon nanotube, Composite number and Graphene. In his study, Nucleation and Shear flow is inextricably linked to Crystallization, which falls within the broad field of Composite material. His Polymer research includes themes of Nanotechnology, Polymer chemistry and Thermoelectric effect.
His studies in Carbon nanotube integrate themes in fields like Percolation threshold and Crystallite. The Composite number study combines topics in areas such as Ultimate tensile strength, Thermal conductivity and Phase. Zhong-Ming Li interconnects Oxide, Nanosheet, Fourier transform infrared spectroscopy, Polystyrene and Conductive polymer in the investigation of issues within Graphene.
His primary scientific interests are in Composite material, Polymer, Composite number, Carbon nanotube and Crystallization. Zhong-Ming Li integrates many fields, such as Composite material and Tacticity, in his works. In his work, Nanosheet is strongly intertwined with Graphene, which is a subfield of Polymer.
His biological study spans a wide range of topics, including Thermal conductivity and Temperature coefficient. His research in Carbon nanotube tackles topics such as Nanocomposite which are related to areas like Oxide. The study incorporates disciplines such as Nucleation, Shear flow, Polymer chemistry, Differential scanning calorimetry and Crystallinity in addition to Crystallization.
His primary areas of investigation include Composite material, Composite number, Carbon nanotube, Electrical conductor and Polymer. As a part of the same scientific study, Zhong-Ming Li usually deals with the Composite material, concentrating on Dielectric and frequently concerns with Nanocomposite. The concepts of his Composite number study are interwoven with issues in Toughness and Heat transfer.
His Carbon nanotube study also includes fields such as
The scientist’s investigation covers issues in Composite material, Electrical conductor, Electromagnetic shielding, Composite number and EMI. His studies deal with areas such as Passive cooling and Crystallite as well as Composite material. His work deals with themes such as Carbon and Carbonization, which intersect with Electrical conductor.
His biological study deals with issues like Carbon nanotube, which deal with fields such as Optoelectronics, Thermoplastic polyurethane and Substrate. Zhong-Ming Li interconnects Ultimate tensile strength, Thermal conductivity, Heat transfer and Polymer in the investigation of issues within Composite number. The study incorporates disciplines such as Extrusion and Polyethylene in addition to Polymer.
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Temperature dependence of graphene oxide reduced by hydrazine hydrate
Peng-Gang Ren;Ding-Xiang Yan;Xu Ji;Tao Chen.
Structured Reduced Graphene Oxide/Polymer Composites for Ultra-Efficient Electromagnetic Interference Shielding
Ding-Xiang Yan;Huan Pang;Bo Li;Robert Vajtai.
Advanced Functional Materials (2015)
Review on auxetic materials
Wei Yang;Zhong-Ming Li;Wei Shi;Bang-Hu Xie.
Journal of Materials Science (2004)
Conductive polymer composites with segregated structures
Huan Pang;Ling Xu;Ding-Xiang Yan;Zhong-Ming Li.
Progress in Polymer Science (2014)
Efficient electromagnetic interference shielding of lightweight graphene/polystyrene composite
Ding-Xiang Yan;Peng-Gang Ren;Huan Pang;Qiang Fu.
Journal of Materials Chemistry (2012)
An electrically conducting polymer/graphene composite with a very low percolation threshold
Huan Pang;Tao Chen;Gangming Zhang;Baoqing Zeng.
Materials Letters (2010)
Isothermal Crystallization of Poly(l-lactide) Induced by Graphene Nanosheets and Carbon Nanotubes: A Comparative Study
Jia-Zhuang Xu;Tao Chen;Chuan-Lu Yang;Zhong-Ming Li.
High barrier graphene oxide nanosheet/poly(vinyl alcohol) nanocomposite films
Hua-Dong Huang;Peng-Gang Ren;Jun Chen;Wei-Qin Zhang.
Journal of Membrane Science (2012)
On transcrystallinity in semi-crystalline polymer composites
Hui Quan;Zhong-Ming Li;Ming-Bo Yang;Rui Huang.
Composites Science and Technology (2005)
Electrically conductive carbon black (CB) filled in situ microfibrillar poly(ethylene terephthalate) (PET)/polyethylene (PE) composite with a selective CB distribution
Kun Dai;Xiang-Bin Xu;Zhong-Ming Li.
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