IntroductionHe got his phD in Chemical Engineering and Technology from Beijing University of Chemical Technology in 2011, and carried research in Groningen University in Netherland during 2013 to 2014. He is currently affiliated with the Safety Engineering Department and the Innovative Yinglan Team of Polymer Materials Advanced Manufacturing Technology. He mainly use molecular dynamics simulations to explore the behavior of polymers and their composites, and is proficient in simulating the behavior and properties from the microscopic details to the macro level. He has published over 30 SCI papers in internationally journals such as ACS Nano, Journal of Physical Chemistry C, Solar Energy Materials and Solar Cells, Applied Thermal Engineering, Langmuir, Journal of Chemical Physics, and so on. His research is focused on molecular dynamics simulations of polymer systems and their related product manufacturing processes. Molecular dynamics simulation can provide an insight into the microscopic behavior and processing of polymer systems at the micro level (molecular scale). Specifically, the main research areas include carbon fiber, electrospinning, nanolayered materials, polymer nanocomposites, molecular and material simulation, micro nano heat transfer, process safety simulation, etc. EducationWork ExperienceSocial PositionSocial ActivitiesResearchHe mainly use molecular dynamics simulations to explore the behavior of polymers and their composites, and is proficient in simulating the behavior and properties from the microscopic details to the macro level. He has published over 30 SCI papers in internationally journals such as ACS Nano, Journal of Physical Chemistry C, Solar Energy Materials and Solar Cells, Applied Thermal Engineering, Langmuir, Journal of Chemical Physics, and so on. His research is focused on molecular dynamics simulations of polymer systems and their related product manufacturing processes. Molecular dynamics simulation can provide an insight into the microscopic behavior and processing of polymer systems at the micro level (molecular scale). Specifically, the main research areas include carbon fiber, electrospinning, nanolayered materials, polymer nanocomposites, molecular and material simulation, micro nano heat transfer, process safety simulation, etc. TeachingHe teaches undergraduate courses of Chemical Technology and Safety, and Emergent Rescue Skills and Accident Management. PostgraduatesFundingPreparation of Multilayer PAN Ribbon Precursors and Insights into the Control of Their Interlayer Interfaces (600,000, NSFC). Insights into the Mechanism of Electric Field Force and Jet Formation in Melt Electrospinning (20,0000, NSFC). Vertical ProjectHorizontal ProjectPublications[1] Zhang Z, Song L, Cheng L, Tan J, Yang W. Accelerated Graphitization of PAN-Based Carbon Fibers: K+-Effected Graphitization via Laser Irradiation [J]. Acs Sustainable Chemistry & Engineering, 2022, 10(24): 8086-8093. [2] Zhang Z, Cheng L, Sheng T, Yu J, Tan J, Yang W. SiC Nanofiber-Coated Carbon/Carbon Composite for Electromagnetic Interference Shielding [J]. Acs Applied Nano Materials, 2022, 5(1): 195-204. [3] Zhang Z, Cheng L, Kroll P, Tan J, Yang W. Cost-effective carbonized waste corrugated boards with surface decorated by SiC@C nanofibers and nanospheres for electromagnetic interference shielding [J]. Applied Surface Science, 2022, 590: [4] Yu J, Gao X, Yang W, Zhang Z, Sheng T, Xiao J, Cheng L, Tan J. Preparation of nanocarbon-coated glass fibre/phenolic composites for EMI shielding [J]. Bulletin of Materials Science, 2022, 45(3): [5] Song L, Zuo X, An Y, Zhan J, Zhang Y, Yang W, Tan J, Cheng L. Microwave and oxygen co-assisted rapid polymerization of dopamine [J]. Materials Letters, 2022, 309: [6] Song L, Zhang Y, Zhan J, An Y, Yang W, Tan J, Cheng L. Interfacial thermal resistance in polymer composites: a molecular dynamic perspective [J]. Molecular Simulation, 2022, 48(10): 902-925. [7] Gao X, Yang W, Tan J, Song L, Cheng L, Tian X. Structural, electrical, and electromagnetic shielding properties of nanocarbon-coated glass fiber-reinforced polypropylene [J]. Polymer Composites, 2022, 43(5): 2796-2802. [8] Zhang Z, Tan J, Cheng L, Yang W. In-situ growth of silicon carbide nanofibers on carbon fabric as robust supercapacitor electrode [J]. Ceramics International, 2021, 47(17): 24652-24662. [9] Zhang Z, Tan J, Cheng L, Yang W. Carbon nano-layer coated TiO2 nanoparticles for efficient photocatalytic CO2 reduction into CH4 and CO [J]. Ceramics International, 2021, 47(24): 34106-34114. [10] Zhang Z, Cheng L, Tan J, Yang W. Efficient fabrication of carbon/silicon carbide composite for electromagnetic interference shielding applications [J]. Ceramics International, 2021, 47(17): 23942-23949. [11] Song L, Zhang Y, Yang W, Tan J, Cheng L. Molecular Structure Effect of a Self-Assembled Monolayer on Thermal Resistance across an Interface [J]. Polymers, 2021, 13(21): [12] Gao X, Yang W, Cheng L, Ding Y, Zhan J, Tan J. Epoxy resin composite containing nanocarbon-coated glass fiber and cloth for electromagnetic interference shielding [J]. Journal of Materials Research and Technology-Jmr&T, 2021, 13: 1759-1766. [13] Chen X, Zhang Y, Liang J, Li H, Chen M, Cheng L, He X, Yang W. String electrospinning based on the standing wave vibration [J]. Journal of Materials Science, 2021, 56: 9518–9531. [14] Zhang Z, Yang W, Cheng L, Cao W, Sain M, Tan J, Wang A, Jia H. Carbon Fibers with High Electrical Conductivity: Laser Irradiation of Mesophase Pitch Filaments Obtains High Graphitization Degree [J]. Acs Sustainable Chemistry & Engineering, 2020, 8(48): 17629-17638. [15] Zhen X, Zhang L, Shi M, Li L, Cheng L, Jiao Z, Yang W, Ding Y. Mechanical Behavior of PMMA/SiO2 Multilayer Nanocomposites: Experiments and Molecular Dynamics Simulation [J]. Macromolecular Research, 2019, 28: 266–274. [16] Zhang Y, Zhang L, Cheng L, Qin Y, Li Y, Yang W, Li H. Efficient preparation of polymer nanofibers by needle roller electrospinning with low threshold voltage [J]. Polym Eng Sci, 2019, 59(4): 745-751. [17] Zhang J, Wang B, Liu X, Cheng L, Yan H, Ding Q, Tan J, Yang W. Energy-Saving Performance and Production Accuracy of the Direct-Pressure Tire Curing Technology with an Expandable Steel Internal Mold [J]. Applied Sciences, 2019, 10(1): 79. [18] Shi M, Yang W, Zhang Y, Tan J, Cheng L, Jiao Z, Zhen X. Mechanical and dielectric properties and crystalline behavior of multilayer graphite‐filled polyethylene composites [J]. Journal of Applied Polymer Science, 2019, 136(42): 48131. [19] Shi M, Yang W, Cheng L, Zhen X, Jiao Z. Confinement effects on the orientation of graphene in multilayer polymer nanocomposites during lamination: A molecular dynamics simulation [J]. Journal of Applied Physics, 2019, 126(4): 045103. [20] Liu H C, Yang W M, Tan J, Cheng L S. A Fin-shaped Flow Channel Enhances Water Removal Performance in a Proton Exchange Membrane Fuel Cell [J]. Fuel Cells, 2019, 19(1): 51-59. [21] Jiang M, Jin Q, Cheng L. Effects of Ticket-Checking Failure on Dynamics of Pedestrians at Multi-Exit Inspection Points with Various Layouts [J]. International Journal of Environmental Research and Public Health, 2019, 16(5): 846. [22] Gao X, Wang Y, Zhang Z, Tan J, Cheng L, Yang W. Conductive nano-carbon coating on silica by pyrolysis of polyethylene [J]. Materials Letters, 2019, 255: 126567. [23] Xue M M, Cheng L S, Faustino I, Guo W L, Marrink S J. Molecular Mechanism of Lipid Nanodisk Formation by Styrene-Maleic Acid Copolymers [J]. Biophys J, 2018, 115(3): 494-502. [24] Wang H, Yang W M, Cheng L S, Guan C F, Yan H. Chinese ink: High performance nanofluids for solar energy [J]. Solar Energy Materials and Solar Cells, 2018, 176: 374-380. [25] Wang H, An Y, Cheng L S, Yan H, Guan C F, Yang W M. Bionic structure mimicking frog eggs as working fluid for solar thermal collection [J]. Solar Energy Materials and Solar Cells, 2018, 183: 151-156. [26] Sha Y, Yang W M, Li S Y, Yao L B, Li H Y, Cheng L S, Yan H, Cao W Y, Tan J. Laser induced graphitization of PAN-based carbon fibers [J]. RSC Adv, 2018, 8(21): 11543-11550. [27] Qin Y X, Cheng L S, Zhang Y P, Chen X Q, Wang X, He X T, Yang W M, An Y, Li H Y. Efficient preparation of poly(lactic acid) nanofibers by melt differential electrospinning with addition of acetyl tributyl citrate [J]. Journal of Applied Polymer Science, 2018, 135(31): 9. [28] Liu H C, Yang W M, Tan J, An Y, Cheng L S. Numerical analysis of parallel flow fields improved by micro-distributor in proton exchange membrane fuel cells [J]. Energy Conv Manag, 2018, 176: 99-109. [29] Liu H C, Yang W M, Cheng L S, Tan J. Numerical Analysis of Different Multi-serpentine Flow Fields for Proton Exchange Membrane Fuel Cells [J]. Fuel Cells, 2018, 18(2): 173-180. [30] Liu H C, Tan J, Cheng L S, Yang W M. A Slope Right-angle Turn Applied in the Flow Channel Promotes Water Management in Proton Exchange Membrane Fuel Cells [J]. Fuel Cells, 2018, 18(4): 422-432. [31] Liu H C, Tan J, Cheng L S, Yang W M. Enhanced water removal performance of a slope turn in the serpentine flow channel for proton exchange membrane fuel cells [J]. Energy Conv Manag, 2018, 176: 227-235. [32] Jian R R, Yang W M, Cheng L S, Xie P C. Numerical Simulation on the Enhanced Mixing of Polymer Melt by Single Screw with Torsion Elements in the Homogenizing Section [J]. Polym-Korea, 2018, 42(6): 910-918. [33] Cheng X, Yang W M, Zhang Y C, Kang Y, Ding Y M, Jiao Z W, Cheng L S. Understanding the electro-stimulated deformation of PVC gel by in situ Raman spectroscopy [J]. Polymer Testing, 2018, 65: 90-96. [34] Cheng X, Yang W M, Cheng L S, Yan H, Jiao Z W. Tunable-focus negative poly(vinyl chloride) gel microlens driven by unilateral electrodes [J]. Journal of Applied Polymer Science, 2018, 135(15): 6. [35] Chen X Q, Cheng L S, Li H Y, Barhoum A, Zhang Y C, He X T, Yang W M, Bubakir M M, Chen H B. Magnetic Nanofibers: Unique Properties, Fabrication Techniques, and Emerging Applications [J]. ChemistrySelect, 2018, 3(31): 9127-9143. [36] Xie P C, Yang H G, Zhao Y G, Yu W X, Cheng L S, Yang W M, Yan H, Tan J. Carbide-bonded graphene coating of mold insert for rapid thermal cycling in injection molding [J]. Applied Thermal Engineering, 2017, 122: 19-26. [37] Li H, Li Y, Yang W, Cheng L, Tan J. Needleless Melt-Electrospinning of Biodegradable Poly(Lactic Acid) Ultrafine Fibers for the Removal of Oil fromWater [J]. Polymers, 2017, 9(2): 3. [38] Jian R R, Yang W M, Cheng L S, Xie P C. Numerical analysis of enhanced heat transfer by incorporating torsion elements in the homogenizing section of polymer plasticization with the field synergy principle [J]. International Journal of Heat and Mass Transfer, 2017, 115: 946-953. [39] Shi M N, Zhang Y C, Cheng L S, Jiao Z W, Yang W M, Tan J, Ding Y M. Interfacial Diffusion and Bonding in Multilayer Polymer Films: A Molecular Dynamics Simulation [J]. Journal of Physical Chemistry B, 2016, 120(37): 10018-10029. [40] Liao W, Zheng X, Cheng L, Zhao Y, Cheng Y, Wang Y. Layout effects of multi-exit ticket-inspectors on pedestrian evacuation [J]. Safety Science, 2014, 70: 1-8. [41] Cheng L S, Cao D P. Designing a Thermo-switchable Channel for Nanofluidic Controllable Transportation [J]. ACS Nano, 2011, 5(2): 1102-1108. [42] Cheng L S, Cao D P. Aggregation of polymer-grafted nanoparticles in good solvents: A hierarchical modeling method [J]. J Chem Phys, 2011, 135(12): 10. [43] Cheng L S, Cao D P. Self-Assembly of Star-Polymer-Attached Nanospheres for Polymer Nanocomposites [J]. J Phys Chem C, 2010, 114(13): 5732-5740. [44] Cheng L S, Cao D P. Effect of Tail Architecture on Self-Assembly of Amphiphiles for Polymeric Micelles [J]. Langmuir, 2009, 25(5): 2749-2756. [45] Cheng L S, Cao D P. Understanding self-assembly of rod-coil copolymer in nanoslits [J]. J Chem Phys, 2008, 128(7): 9. [46] Cheng L S, Cao D P. A hybrid approach for microscopic properties and self-assembly of dendrimers between two hard walls [J]. Journal of Physical Chemistry B, 2007, 111(36): 10775-10784. [47] Cao D P, Cheng L S, Wang W C. Density functional theory for molecular orientation of hard rod fluids in hard slits [J]. Chin Phys, 2007, 16(8): 2296-2303. AwardsPatentHonor RewardAdmissions Information |