{"id":84,"date":"2020-10-13T17:00:53","date_gmt":"2020-10-13T09:00:53","guid":{"rendered":"https:\/\/sites.gc.sjtu.edu.cn\/yunlong-guo\/?page_id=84"},"modified":"2025-11-07T15:17:44","modified_gmt":"2025-11-07T07:17:44","slug":"publications","status":"publish","type":"page","link":"https:\/\/sites.gc.sjtu.edu.cn\/yunlong-guo\/publications\/","title":{"rendered":"Publications"},"content":{"rendered":"\n

Selected<\/strong> Publications List<\/strong><\/p>\n\n\n\n

    \n
  1. Y. Teng and Y. Guo<\/strong>\u2020, \u201cTuning the viscoelasticity and conformational structure through electric field: from unentangled to entangled polymers\u201d, ACS Applied Polymer Materials 7, 13618 (2025)<\/li>\n\n\n\n
  2. Y. Huang, S. Chen, X. Yu, J. Zhou, C. Su, Y. Fu, Y. Guo<\/strong>, S.-H. Bo\u2020, and H. Zhu\u2020, \u201cRevealing the optimal cycling intervals and atomic-scale mechanisms of alkaline alloy anodes for solid-state batteries\u201d, Nano Energy 142, 111227 (2025)<\/li>\n\n\n\n
  3. Z.-T. Sun, S. Chen, T. Zhao, Y. Guo<\/strong>, Z. Xu\u2020, S. Zhou\u2020, and S.-H. Bo\u2020, \u201cReal 2D galvanostatic model: encoding physicochemical heterogeneity into a full battery\u201d, Physical Review Letters 135, 68001 (2025)<\/li>\n\n\n\n
  4. J. Zhu, Y. Qiao, L. Yan, Y. Zeng, Y. Wu, H. Bian, Y. Huang, Y. Ye, Y. Huang, R.C.W. Hii, Y. Teng, Y. Guo<\/strong>, G. Li\u2020, Z. Qu\u2020, \u201cPropulsion contribution from individual filament in a flagellar bundle\u201d, Applied Physics Letters 126, 73702 (2025)<\/li>\n\n\n\n
  5. S. Chen, Q. Cao, B. Tang, X. Yu, Z. Zhou, S.-H. Bo\u2020, and Y. Guo<\/strong>\u2020, \u201cChemomechanical pairing of alloy anodes and solid-state electrolytes\u201d, ACS Energy Letters 9, 5373 (2024)<\/li>\n\n\n\n
  6. X. Yu, S. Chen, B. Tang, X.-L. Li, J. Zhou, Y. Ren, J. Wei, C. Yang, Y. Guo<\/strong>, Z. Zhou, and S.-H. Bo\u2020, \u201cThe debate over hard carbon and alloy anodes continues for solid-state sodium batteries\u201d, ACS Energy Letters 9, 4441 (2024)<\/li>\n\n\n\n
  7. Y. Huang, S. Chen, J. Liu, Y. Yang, X. Yu, X. Xu, H. Jing, Y. Guo<\/strong>, S.-H. Bo, H. Duan\u2020, and H. Zhu\u2020, \u201cOptimizing lithium-silver alloy phases for enhanced energy density and electrochemical performance\u201d, Next Materials 4, 100188 (2024)<\/li>\n\n\n\n
  8. Y. Xiao, P. Bai, and Y. Guo<\/strong>\u2020, \u201cModulus alteration of thin polystyrene films by their neighboring PDMS: soft and hard confinement\u201d, Journal of Chemical Physics 160, 211105 (2024)<\/li>\n\n\n\n
  9. X. Luo, L. Jiao, Y. Guo<\/strong>, H. Bao, C. Zhao, and X. Gu\u2020, \u201cUltrahigh freshwater production achieved by unidirectional heat transfer interfacial evaporation solar still integrated with waste heat recovery\u201d, Energy Conversion and Management 304, 118226 (2024)<\/li>\n\n\n\n
  10. Y. Teng and Y. Guo<\/strong>\u2020, \u201cMultiple relaxation dynamics under electric field enables tunable viscoelastic response of poly(methyl methacrylate) above glass transition temperature\u201d, Journal of Chemical Physics 160, 044903 (2024)<\/li>\n\n\n\n
  11. Y. Xiao, Z. Zhang, and Y. Guo<\/strong>\u2020, \u201cDirect measurement and modeling of viscoelastic-viscoplastic properties of freely standing thin polystyrene films\u201d, Journal of Chemical Physics 159, 214903 (2023)<\/li>\n\n\n\n
  12. Z. Zhang, P. Bai, Y. Xiao, Y. Guo<\/strong>\u2020, and Y. Wang\u2020, \u201cConformation-induced stiffening effect of crosslinked polymer thin films\u201d, Communication Physics 6, 332 (2023)<\/li>\n\n\n\n
  13. X. Mei, Y. Huang, S. Chen, M. Tang, J. Li, S.-H. Bo, and Y. Guo<\/strong>\u2020, \u201cImproving ion conductivity in polymer blend electrolytes by tuning microdynamics and interfaces\u201d, ACS Applied Polymer Materials 5, 9255 (2023)<\/li>\n\n\n\n
  14. M. Huo, M. Ma, Y. Teng, Y. Xiao, and Y. Guo<\/strong>\u2020, \u201cSuppressed physical aging in PMMA-titanium oxide nanocomposites by controlling alignment of nanoparticles\u201d, Journal of Applied Polymer Science 140, e54030 (2023)<\/li>\n\n\n\n
  15. M. Ma, W. Cui, Y. Guo, and W. Yu, “Adsorption-desorption effect on physical aging in PMMA-silica nanocomposites,” Polymer<\/em>, vol. 255, p. 125124, 2022\/08\/22\/ 2022.<\/li>\n\n\n\n
  16. P. Bai, Y. H. Xiao, W. Q. Yang, M. B. Duan, and Y. L. Guo, “A micro-vibration apparatus for dynamic mechanical analysis of ultrathin polymer films,” Rev Sci Instrum<\/em>, vol. 92, no. 10, OCT 1 2021, Art no. 103904.<\/li>\n\n\n\n
  17. P. Bai, M. C. Ma, L. Sui, and Y. L. Guo, “Nanoconfinement Controls Mechanical Properties of Elastomeric Thin Films,” J Phys Chem Lett<\/em>, vol. 12, no. 33, pp. 8072-8079, AUG 26 2021.<\/li>\n\n\n\n
  18. Y. G. Huang, X. T. Mei, and Y. L. Guo, “Segmental and interfacial dynamics quantitatively determine ion transport in solid polymer composite electrolytes,” JOURNAL OF APPLIED POLYMER SCIENCE<\/em>, vol. 139, no. 20, MAY 20 2022, Art no. e52143.<\/li>\n\n\n\n
  19. B. Tang et al., “Ultrathin salt-free polymer-in-ceramic electrolyte for solid-state sodium batteries,” eScience<\/em>, vol. 1, no. 2, pp. 194-202, 2021\/12\/01\/ 2021.<\/li>\n\n\n\n
  20. Ren, S., Chen G., Han S., Guo Y., Tu C<\/em>., and Yang S. Silicon Quantum Dot Luminescent Solar Concentrators and Downshifters with Antireflection Coatings for Enhancing Perovskite Solar Cell Performance. ACS Photonics<\/em>.<\/li>\n\n\n\n
  21. Ma, M., and Guo, Y. \u201cPhysical Aging of PS Blocks under 3D Soft Confinement in PS-b-PnBMA Diblock Copolymer: Two Equilibrations on The Way\u201d, Journal of Polymer Science<\/em>, 2021,59<\/em>,300.<\/li>\n\n\n\n
  22. Guo, Y., and Ren, S. “Bilayer PMMA Antireflective Coatings via Microphase Separation and MAPLE”. Journal of Polymer Engineering<\/em>, 2021, 41<\/em>, 164.<\/li>\n\n\n\n
  23. Huo, M.,Ma, M., and Guo, Y. \u201cEnhanced Electrorheological Properties of PMMA\u2013Titanium Oxide Nanocomposites\u201d, ACS Applied Polymer Materials<\/em>, 2020, 2<\/em>, 3411.<\/li>\n\n\n\n
  24. Huo, M., and Guo, Y. \u201cElectric Field Enhances Shear Resistance of Polymer Melts via Orientational Polarization in Microstructures\u201d, Polymers<\/em>, 2020, 12<\/em>, 335.<\/li>\n\n\n\n
  25. Mei, X., Wu, Y., Zhu, Y., Bo, S.-H., and Guo, Y. \u201cA Quantitative Correlation between Macromolecular Crystallinity and Ionic Conductivity in Polymer-Ceramic Composite Solid Electrolytes\u201d, Materials Today Communications,<\/em> 2020, 24<\/em>, 101004.<\/li>\n\n\n\n
  26. Huang, Y., Ma, M., and Guo, Y. \u201cMelt Crystallization and Segmental Dynamics of Poly(ethylene oxide) Confined in a Solid Electrolyte Composite\u201d\uff0cJournal of Polymer Science Part B: Polymer Physics<\/em>, 2020, 58<\/em>, 466.<\/li>\n\n\n\n
  27. Ma, M., and Guo, Y. \u201cPhysical Properties of Polymers Under Soft and Hard Nanoconfinement: A Review\u201d, Chinese Journal of Polymer Science<\/em>, 2020, 38<\/em>, 565.<\/li>\n\n\n\n
  28. Ma, M., and Guo, Y. \u201cAccelerated Aging of PS Blocks in PS-b-PMMA Diblock Copolymer Under Hard Confinement\u201d, Journal of Physical Chemistry B<\/em>, 2019, 123<\/em>, 2448.<\/li>\n\n\n\n
  29. Ma, M., Huang, Y., and Guo, Y. \u201cEnthalpy Relaxation and Morphology Evolution in Polystyrene-b-poly(methyl methacrylate) Diblock Copolymer\u201d, Macromolecules<\/em>, 2018, 51<\/em>, 7368.<\/li>\n\n\n\n
  30. Rehman, H.U., Chen, Y., Hedenqvist, M.S., Li, H., Xue, W., Guo, Y., Guo, Y., Duan, H., and Liu, H. \u201cSelf-healing Shape Memory PUPCL Copolymer with High Cycle Life\u201d, Advanced Functional Materials<\/em>, 2018, 28<\/em>, 1704109.<\/li>\n\n\n\n
  31. Zhou, Y., Pei, B., Miao Huo, Chen, Y., Li, H. Kang, H., Liu, H. and Guo, Y. \u201cSlow Down Dewetting in Polymer Films by Isocyanate Treated Graphene Oxide\u201d, Chinese Journal of Polymer Science<\/em>, 2018, 36<\/em>, 1070.<\/li>\n\n\n\n
  32. Cui, Y., Xie, D., Yu, P., Guo, Y., Rong, Y., Wen, M. and Zhu. G. \u201cFormation of Iron Hydride in \u03b1-Fe under Dislocation Strain Field and its Effect on Dislocation Interaction\u201d, Computational Materials Science,<\/em> 2018, 141<\/em>, 254.<\/li>\n\n\n\n
  33. Cui, Y., Guo, Y., Li, Y., Wan, J., Zhang, J., Rong, Y., Chen, N., Wang D., and Wang. Y. \u201cOrigin of the Modulus Anomaly Over a Wide Temperature Range of Mn0.70Fe0.25Cu0.05 Alloy\u201d, Computational Materials Science<\/em>, 2017, 140<\/em>, 89.<\/li>\n\n\n\n
  34. Chowdhury, M., Guo, Y., Wang, Y., Merling, W.L., Mangalara, J.H., Simmons, D.S., Priestley, R.D. \u201cSpatially Distributed Rheological Properties in Confined Polymers by Noncontact Shear,\u201d Journal of Physical Chemistry Letters<\/em>, 2017, 8<\/em>, 1229. (#: Co-first Authors)<\/li>\n\n\n\n
  35. Ma, M., Xue, T., Chen, S., Tang, Y., Chen, Y., Liu, H., and Guo, Y. \u201cFeatures of Structural Relaxation of Diblock Copolymers,\u201d Polymer Testing<\/em>, 2017, 60<\/em>, 1.<\/li>\n\n\n\n
  36. Hafeez, I.C.P., Guo, Y., Li, H., Duan, H., Chen, Y., and Liu, H. \u201cStretchable, Strong and Self-healing Hydrogel by Oxidized CNT-Polymer Composite Hydrogel,\u201d Composites Part A<\/em>, 2016, 90<\/em>, 250.<\/li>\n\n\n\n
  37. Jeong, H., Shepard, K.B., Purdum, G.E., Guo, Y., Loo, Y-L., Arnold, C.B., and Priestley, R.D. \u201cAdditive Growth and Crystallization of Polymer Films,\u201d Macromolecules<\/em>, 2016, 49<\/em>, 2860.<\/li>\n\n\n\n
  38. Sun, C., Guo, Y., Duan, H., Chen, Y., Guo, Y., Li, H., and Liu, H. \u201cSolvent-assisted Growth of Organic-inorganic Hybrid Perovskites With Enhanced Photovoltaic Performances,\u201d Solar Energy Materials & Solar Cells<\/em>, 2015, 143<\/em>, 360.<\/li>\n\n\n\n
  39. Guo, Y., Zhang, C., and Priestley, R.D. \u201cPolymer Thin Films Instability From A Patterned Edge,\u201d Applied Physics Letters<\/em>, 2014, 105<\/em>, 041603.<\/li>\n\n\n\n
  40. Liu, R., Qu, F., Guo, Y., Yao, N., and Priestley, R.D. \u201cAu @ Carbon Yolk-shell Nanostructures Via One-step Core-shell-shell Template,\u201d Chemical Communications<\/em>, 2014, 50<\/em>, 478.<\/li>\n\n\n\n
  41. Zhang, C., Guo, Y. and Priestley, R.D. \u201cCharacteristic Length of the Glass Transition in Isochorically Confined Polymer Glasses,\u201d ACS Macro Letter<\/em>, 2014, 3<\/em>, 501.<\/li>\n\n\n\n
  42. Liu, R., Guo, Y., Odusote, G., Qu, F., and Priestley, R.D. \u201cCore-shell Fe3O4 Polydopamine Nanoparticles Serve Multipurpose as Drug Carrier, Catalyst Support and Carbon Adsorbent,\u201d ACS Applied Materials & Interfaces<\/em>, 2013, 5<\/em>, 9167.<\/li>\n\n\n\n
  43. Priestley, R.D., Zhang, C., and Guo, Y. \u201cConfined Glassy Properties of Polymer Nanoparticles,\u201d Journal of Polymer Science, Part B: Polymer Physics<\/em>, 2013, 51<\/em>, 574.<\/li>\n\n\n\n
  44. Zhang, C., Guo, Y., Shepard, K.B., and Priestley, R.D. \u201cFragility of an Isochorically Confined Polymer Glass,\u201d Journal of Physical Chemistry Letters<\/em>, 2013, 4<\/em>, 431.<\/li>\n\n\n\n
  45. Shepard, K.B., Guo, Y., Arnold, C.B. and Priestley, R.D. \u201cNanostructured Morphology of Polymer Films Prepared by Matrix Assisted Pulsed Laser Evaporation,\u201d Applied Physics A<\/em>, 2013, 110<\/em>, 771.<\/li>\n\n\n\n
  46. Guo, Y., Morozov, A., Schneider, D., Chung, J.W., Zhang, C., Waldmann, M., Yao, N., Fytas, G., Arnold, C.B. and Priestley, R.D. \u201cUltrastable Nanostructured Polymer Glasses,\u201d Nature Materials<\/em>, 2012, 11<\/em>, 337.<\/li>\n\n\n\n
  47. Chung, J.W., Guo, Y., Kwak, S.Y. and Priestley, R.D. \u201cUnderstanding and Controlling Gold Nanoparticle Formation from A Robust Self-assembled Cyclodextrin Solid Template,\u201d Journal of Materials Chemistry<\/em>, 2012, 22<\/em>, 6017.<\/li>\n\n\n\n
  48. Guo, Y., Zhang, C., Lai, C., Priestley, R.D., D\u2019Acunzi, M. and Fytas, G. \u201cStructural Relaxation of Polymer Nanospheres under Soft and Hard Confinement: Isobaric versus Isochoric Conditions,\u201d ACS Nano<\/em>, 2011, 5<\/em>, 5365.<\/li>\n\n\n\n
  49. Zhang, C., Guo, Y. and Priestley, R.D. \u201cGlass Transition Temperature of Polymer Nanoparticles under Soft and Hard Confinement,\u201d Macromolecules<\/em>, 2011, 44<\/em>, 4001.<\/li>\n\n\n\n
  50. Chung, J.W., Guo, Y., Priestley, R.D. and Kwak, S.Y. \u201cColloidal Gold Nanoparticle Formation Derived From Self-assembled Supramolecular Structure of Cyclodextrin\/Au Salt Complex,\u201d Nanoscale<\/em>, 2011, 3<\/em>, 1766.<\/li>\n\n\n\n
  51. Guo, Y., Zhang, C., Lai, C. and Priestely, R.D. \u201cGlass Transition Temperature and Structural Relaxation of Polymer Nanoparticles under Soft and Hard Confinement,\u201d World Journal of Engineering<\/em>, 2010, Supplement 3<\/em>, 375.<\/li>\n\n\n\n
  52. Guo, Y., and Bradshaw, R.D. \u201cLong Term Creep of Polyphenylene Sulfide (PPS) subjected to Complex Thermal Histories: the Effects of Physical Aging,\u201d Polymer<\/em>, 2009, 50<\/em>, 4048.<\/li>\n\n\n\n
  53. Guo, Y., Wang, N., Bradshaw, R.D., and Brinson, L.C. \u201cModeling Mechanical Aging Shift Factors in Glassy Polymers during Nonisothermal Physical Aging: Part 1. Experiments and KAHR-ate Model Prediction,\u201d Journal of Polymer Science, Part B: Polymer Physics<\/em>, 2009, 47<\/em>, 340.<\/li>\n\n\n\n
  54. Guo, Y., and Bradshaw, R.D. \u201cIsothermal Physical Aging Characterization of Polyether-ether-ketone (PEEK) and Polyphenylene sulfide (PPS) Films by Creep and Stress Relaxation,\u201d Mechanics of Time-Dependent Materials<\/em>, 2007, 11<\/em>, 61.<\/li>\n\n\n\n
  55. Guo, Y., and Zhao, Y. \u201cPower Shaft Design for Dynamic Engine Test Bed,\u201d Internal Combustion Engine Engineering<\/em>, 2003, 24<\/em>, 37.<\/li>\n<\/ol>\n\n\n\n

    <\/p>\n\n\n\n

    <\/p>\n\n\n","protected":false},"excerpt":{"rendered":"

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