Publications

  • Y. Joshi, S. Zamani, C. Klaassen, and Y.L. Joo,” Mitigation and In-situ Probing of Volume Expansion in Silicon Graphene Hybrid Anodes for High Capacity, High Rate Capable Lithium Ion Batteries”, Advanced Energy and Sustainable Research 2, 2100125 (2021).
  • C-W. Chang, S. Zamani, H. Seo, Y. Park, T. Kang, D.M. Smilgies, A.R. Lim, and Y.L. Joo, “A Prospect of Cost-Effective Handling and Transportation of Graphene Oxides: Folding and Redispersion of Graphene Oxide Microsheets”, Nanotechnology 32, 455601 (2021).
  • S. Zamani, J.S Won, M. Salim, M. AlAmer, C.W. Chang, P. Kumar, K. Amponsah, A.R. Lim, and Y.L. Joo, “Ultralight Graphene/Graphite Hybrid Fibers via Entirely Water-based Processes and Their Application to Density-controlled, High Performance Composites”, Carbon 173, 880–890 (2021).
  • A.R. Lim, S.H. Kim, and Y.L. Joo, “Physicochemical Properties and Structural Dynamics of Organic–inorganic Hybrid Perovskite [NH3(CH2)3NH3]ZnX4 (X=Cl and Br) crystals”, Scientific Reports 11, 8408 (2021).
  • J.S. Won, H.R. Lee, M.J. Lee, M.H. Jeon, S.G. Lee, and Y.L. Joo, “Fabrication of Activated Carbon Fibers with Sheath-Core, Hollow, or Porous Structures via Conjugated Melt Spinning of Polyethylene Precursor”, Polymers 12, 2895 (2020).
  • M.J. Divvela and Y.L. Joo, “Design Principles in Continuous Inkjet Electrohydrodynamic Printing from Discretized Modeling and Image Analysis”, Journal of Manufacturing Processes 54, 413-419 (2020).
  • A.R. Lim, S. H. Kim, and Y.L. Joo, “Structural Dynamics of CH3NH3+ and PbBr3 in Tetragonal and Cubic Phases of CH3NH3PbBr3 Hybrid Perovskite by Nuclear Magnetic Resonance”, Scientific Reports 10,13140 (2020).
  • M. AlAmer, S. Zamani, K. Fok, A. Satish, A.R. Lim and Y.L. Joo, “Facile Production of Graphenic Microsheets and Their Assembly via Water-based, Surfactant-aided Mechanical Deformations”, ACS Applied Materials and Interfaces 12, 8944-8951 (2020).
  • G.L. Shebert, S. Zamani, C. Yi, and Y.L. Joo, “Polysulfide Entrapment and Retardation in Gel Electrolyte Li-S Batteries: Experiments and Modeling”, Journal of Materials Chemistry A 8, 4341 – 4353 (2020).
  • S. Pinge, Y. Qiu, V. Monreal, D. Baskaran, A. Ravirajan. and Y.L. Joo, “Comprehensive Analysis of Three-Dimensional Line Edge Roughness in Pre-and Post- Etch Line Space Patterns of Block Copolymer Lithography”, Physical Chemistry Chemical Physics 22, 478 – 488 (2020).
  • M.J. Divvela, R. Zhang, Y. Zhmayev, S. Pinge, J.H. Lee, S.W. Kim and Y.L. Joo, “Control of Formation of Viscoelastic Droplets and Distribution of Nano-inclusions in Functional Deposition for Lithium-Sulfur Batteries”, Soft Matter 15, 6485-6494 (2019).
  • B.P. Williams, G.L. Shebert, and Y.L. Joo, “Metal Oxide Coatings on Carbon Electrodes with Large Mesopores for Deeply Charged Zinc Bromine Redox Flow Batteries”, Journal of Electrochemical Society 166, A2245-A2254 (2019).
  • Y. Zhmayev, G.L. Shebert, S. Pinge, P. Kaur, H. Liu, and Y.L. Joo, “Non-Enthalpic Enhancement of Spatial Distribution and Orientation of CNTs and GNRs in Polymer Nanofibers”, Polymer 178, 121551 (2019).
  • A.B. Shah, Y. Wu, and Y.L. Joo, “Direct Addition of Sulfur and Nitrogen Functional Groups to Graphite Felt Electrodes for Improving All-Vanadium Redox Flow Battery Performance”, Electrochimica Acta 297, 905-915 (2019).
  • M. AlAmer, A.R. Lim, and Y.L. Joo, “Continuous Synthesis of Structurally Uniform Graphene Oxide Materials in a Model Taylor-Couette Flow Reactor”, Ind. Eng. Chem. Res.  58, 1123-1462 (2019).
  • W. Halim, J.H. Lee, S.M. Park, R. Zhang, S. Sarkar, T. O’Neil, E. Chiang, and Y.L. Joo, “Directly Deposited Binder Free Sulfur Electrode Enabled by Air-Controlled Electrospray Process”, ACS Applied Energy Materials 2, 678−686 (2019).
  • J.H. Lee, J. Kang, S.W. Kim, W. Halim, M.W. Frey, and Y.L. Joo, “Effective Suppression of the Polysulfide Shuttle Effect in Lithium–Sulfur Batteries by Implementing rGO-PEDOT:PSS Coated Separators via Air-Controlled Electrospray”, ACS Omega 3 16465–16471 (2018).
  • M.J. Divvela, L. M. Shephard, M.W. Frey, and Y.L. Joo, “Discretized Modeling of Motionless Printing based on Retarded Bending Motion and Deposition Control of Electrically Driven Jet”, 3D Printing and Additive Manufacturing 5, 248-256 (2018).
  • A.R. Lim and Y.L. Joo, “Cation Dynamics by 1H and 13C MAS NMR in Hybrid Organic-Inorganic (CH3CH2NH3)2CuCl4 Single Crystal”, RSC Advances 8, 34110–34115 (2018).
  • G. Shoorideh, B. Ko, A. Berry, M.J. Divvela, Y.K. Kim, Z. Li, B. Patel, S. Chakrapani, and Y.L. Joo, “Harvesting Inter and Intra-Conductivity of Graphene Nanoribbons for Directly Deposited, High-Rate Silicon-Based Anode for Li-ion Batteries”, ACS Applied Energy Materials 1, 1106-1115 (2018).
  • S. Pinge, D. Baskaran, Y.L. Joo, “Evaluation of Line-edge/ Line-width Roughness of Directed Self-assembled PS-b-PMMA patterns using Coarse-Grained Molecular Dynamics Simulation”, SPIE Proceedings 10584N, Emerging Patterning Technologies (2018).
  • A.B. Shah, X. Zhou, P. Brezovec, D. Markiewicz, and Y.L. Joo, “Conductive Membrane Coatings for High Rate Vanadium Redox Flow Batteries”, ACS Omega 3, 1856-1863 (2018).
  • G.L. Shebert and Y.L. Joo, “Simultaneous Uniaxial Extensional Deformation and Cylindrical Confinement of Block Copolymers using Non-equilibrium Molecular Dynamics”, Soft Matter 14, 1389-1396 (2018).
  • S. Pinge, G. Lin, D. Baskaran, M. Padmanaban, and Y.L. Joo, “Designing an Ordered Template of Cylindrical Arrays based on a Simple Flat Plate Confinement of Block Copolymers: A Coarse-Grained Molecular Dynamics Study”, Soft Matter 14, 597-613 (2018).
  • J. Lee, B. Ko, J. Kang, Y. Chung, Y. Kim, W. Halim, J.H. Lee, and Y.L. Joo, “Facile and Scalable Fabrication of Highly Loaded Sulfur Cathodes and Lithium-Sulfur Pouch Cells via Air-Controlled Electrospray”, Materials Today Energy 6, 255–263 (2017).
  • M.J. Divvela, A.C. Ruo, Y. Zhmayev, and Y.L. Joo, “Discretized Modeling for Centrifugal Spinning of Viscoelastic Liquids”, J. of Non-Newtonian Fluid Mechanics 247, 62-77 (2017).
  • L. M. Shephard, M.W. Frey, and Y.L. Joo, “Immersion Electrospinning as a New Method to Direct Fiber Deposition”, Macromolecular Materials and Engineering  302 1700148 (2017).
  • J.H. Park, and Y.L. Joo, “A Facile Precursor Route to Highly Loaded Metal/Ceramic Nanofibers as a Robust Surface-Enhanced Raman Template”, Applied Surface Science 416 742-750 (2017).
  • M.J. Divvela and Y.L. Joo, “Discretized Modeling of Beads on a String Morphology from Conducting and Viscoelastic Polymer Jets during Electrospinning”, J. of Applied Physics 121, 134306 (2017).
  • A. R. Lim, S.W. Kim, and Y.L. Joo, “Structural Phase Transitions and Ferroelastic Properties of Perovskite-type Layer (CH3NH3)2CdCl4”, J. of Applied Physics 121, 215501 (2017).
  • L. Fei, S.H. Yoo, R.A. Villamayor, B.P. Williams, S. Gong, S. Park, K. Shin, and Y.L. Joo, “Graphene Oxide Involved Air-controlled Electrospray for Uniform, Fast, Instantly Dry, and Binder-Free Electrode Fabrication”, ACS Applied Materials & Interfaces 9, 9738–9746 (2017).
  • S.A. Smith, B.P. Williams, and Y.L. Joo, “Effect of Polymer and Ceramic Morphology on the Material and Electrochemical Properties of Electrospun PAN/Polymer Derived Ceramic Composite Nanofiber Membranes for Lithium Ion Battery Separators”, Journal of Membrane Science 526, 315-322 (2017).
  • S.A. Smith, J.H. Park, B.P. Williams, and Y.L. Joo, “Polymer/Ceramic Co-continuous Nanofiber Membranes via Room-Temperature Curable Organopolysilazane for Improved Lithium Ion Battery Performance”, Special Issue on Batteries and SupercapacitorsJournal of Materials Science 52, 3657-3669 (2017).
  • Y. Zhmayev, S. Pinge, G. Shoorideh, G.L. Shebert, P. Kaur, H. Liu, and Y.L. Joo, “Controlling Placement of Spherical Nanoparticles in Electrically Driven Polymer Jets and Its Application to Li-ion Battery Anode”, Small 12, 5543–5553 (2016).
  • G. Shoorideh, Y.S. Kim, and Y.L. Joo, “Facile, Water-Based, Direct-Deposit Fabrication of Hybrid Silicon Assemblies for Scalable and High-Performance Li-ion Battery Anodes”, Electrochimica Acta 222, 946-955 (2016).
  • B.P. Williams, and Y.L. Joo, “Tunable Large Mesopores in Carbon Nanofiber Interlayers for High-Rate Lithium Sulfur Batteries”, Journal of The Electrochemical Society 163, A2745-A2756  (2016).
  • J. Kim, J.M Carlin, S.A. Smith and Y.L. Joo, “Thermal Restacking of Graphene Structure to Improve Lithium-air Battery Cyclability”, Electrochem. Communication 70, 43-46 (2016).
  • G.L. Shebert and Y.L. Joo, “Effect of Elongational Flow on Immiscible Polymer Blend/Nanoparticle Composites: a Molecular Dynamics Study”, Soft Matter 12, 6132-6140 (2016).
  • L. Fei, B.P. Williams, S.H. Yoo, J. Kim, G. Shoorideh, and Y.L. Joo, “Graphene Folding in Si Rich Carbon Nanofibers for Highly Stable, High Capacity Li-Ion Battery Anodes”, ACS Applied Materials and Interfaces 8, 5243-5250 (2016).
  • L. Fei, B.P. Williams, S.H. Yoo, J.M. Carlin, and Y.L. Joo, “A General Approach to Fabricate Free-standing Metal Sulfides@Carbon Nanofiber Network as Lithium Ion Battery Anodes”, Chemical Communication 52, 1501-1504 (2016).
  • Y.S. Kim, Y.L. Joo, and Y.J. Kwark, “Highly Stable Silicon–Carbon–Nitrogen Composite Anodes From Silsesquiazane for Rechargeable Lithium-Ion Battery”, Journal of Materials Science and Technology 32, 195-199 (2016).
  • Y. Zhmayev, M.J. Divvela, A.C. Ruo, T. Huang, and Y.L. Joo, “The Jetting Behavior of Viscoelastic Boger Fluids during Centrifugal Spinning”, Physics of Fluids 27, 123101 (2015).
  • Y.S. Kim, G. Shoorideh, Y. Zhamyev, J.H. Lee, Z. Li, B. Patel, S. Chakrapani, J.H. Park, S. Lee, and Y.L. Joo, “Critical Contribution of Unzipped Graphene Nanoribbons to Stable Silicon Rich–Carbon Fiber Anodes for Rechargeable Li–ion Batteries”, Nano Energy 16, 446-457 (2015).
  • J. Yin, J.M. Carlin, J. Kim, Z. Li, J.H. Park, B. Patel, S. Chakrapani, S. Lee, and Y.L. Joo, “Synergy between Metal Oxide Nanofibers and Graphene Nanoribbons for Rechargeable Lithium-Oxygen Battery Cathodes”, Advanced Energy Materials 5, 1401412 (2015).
  • B.P. Williams, S. Pinge, Y.K. Kim, J. Kim, and Y.L. Joo, “Enhanced Dispersion and Stability of Petroleum Coke Water Slurries by Triblock Copolymer and Xanthan Gum: Rheological and Adsorption Studies”, Langmuir 31, 8989-8997 (2015).
  • D.J. Marchand, E. Schneider, B.P. Williams, Y.L. Joo, J. Kim, G.T. Kim, and S. H. Kim, “Physical and Chemical Changes of Coal During Catalytic Fluidized Bed Gasification”, Fuel Processing Technology 130, 292-298 (2015).
  • D. Cho, J.H. Park, Y. Jeong, and Y.L. Joo, “Synthesis of Titanium Carbide-Carbon Nanofibers via Carbothermal Reduction of Titania with Carbon”, Ceramics International 41, 10974 (2015).
  • D. Cho, M. Kim, J. Hwang, J.H. Park, Y.L. Joo, and Y. Jeong, “Facile Synthesis of Porous Silicon Nanofibers by Magnesium Reduction for Application in Lithium Ion Batteries”, Nanoscale Research Letters 10, 424 (2015).
  • D. Cho, S. Chen, Y. Jeong, and Y.L. Joo, “Surface Hydro-properties of Electrospun Fiber Mats”, Fibers and Polymers 16, 1578-1586 (2015).
  • Y.S. Kim, W.B. Kim, and Y.L. Joo, “Further Improvement of Battery Performance via Charge Transfer Enhanced by Solution-based Antimony Doping into Tin Dioxide Nanofibers”, Journal of Materials Chemistry A 2, 2833-2837 (2014).
  • J.H. Park, J. Yin, V. Kalra, and Y.L. Joo, “Role of Nanoparticle Selectivity in the Symmetry Breaking of Cylindrically Confined Block Copolymers”, Journal of Physical Chemistry C 118, 7653-7668 (2014).
  • J.H. Park, and Y.L. Joo, “Interconnected Morpholgies via Nanorod Inclusion in Confined Assembly of Symmetric Block Copolymers”, Physical Chemistry Chemical Physics 16, 8865-8871 (2014).
  • J.H. Park and Y.L. Joo, “Tailoring Nanorod Alignment in a Polymer Matrix by Elongational Flow under Confinement: Simulation, Experiments, and Surface Enhanced Raman Scattering Application”, Soft Matter 10, 3494-3505 (2014).
  • J.H. Park, V. Kalra, and Y.L. Joo, “Controlling the Dispersion and Orientation of Nanorods in Polymer Melt under Shear: Coarse-Grained Molecular Dynamics Simulation Study”, Journal of Chemical Physics 140, 124903 (2014).
  • Y.S. Kim, K.W. Kim, D. Cho, N.S. Hansen, J. Lee, and Y.L. Joo, “Silicon-Rich Carbon Hybrid Nanofibers from Water-Based Spinning: The Synergy Between Silicon and Carbon for Li-ion Battery Anode Application”, ChemElectroChem 1, 220-226 (2014).
  • T.H. Huh, H.E. Im, Y.S. Kim, Y.L. Joo, and Y.J. Kwark, “Polysilane-Based Ceramics as Anodes in Lithium Ion Batteries”, Textile Science and Engineering 51, 101-106 (2014).
  • B.A. Rolfe, J. Chun, and Y.L. Joo, “Dynamics of Micelle-Nanoparticle Systems Undergoing Shear: A Coarse-Grained Molecular Dynamics Approach”, Soft Matter 9, 10294-10305 (2013).
  • D. Cho, A. Naydich, M.W. Frey, and Y.L. Joo, “Further Improvement on Air Filtration Efficiency of Cellulose Filters Coated with Nanofibers via Inclusion of Electrostatically Active Nanoparticles”, Polymer 54, 2364-2372 (2013).
  • M.F. Aljishi, A. Ruo, J.H. Park, B. Nasser, W.S. Kim, and Y.L. Joo, “Effect of Flow Structure at the Onset of Instability on Barrium Sulfate Precipitation in Taylor-Couette Crystallizer”, J. Crystal Growth 373, 20-31 (2013).
  • N.S. Hansen, D. Cho, and Y.L. Joo, “Metal Nanofibers with Highly Tunable Electrical and Magnetic Properties via Highly Loaded Water-Based Electrospinning,” Small 8 1510-1514 (2012).
  • Y. Cho, D. Cho, J.H. Park, M.W. Frey, C.K. Ober, and Y.L. Joo, “Preparation and Characterization of Amphiphilic Triblock Terpolymer-Based Nanofibers as Antifouling Biomaterials”, Biomacromolecules 13 1606-1614 (2012).
  • J.H. Park, V. Kalra, and Y.L. Joo, “Cylindrically Confined Assembly of Asymmetric Block Copolymers with and without Nanoparticles”, Soft Matter 8 1845-1857 (2012).
  • A.T. Nguyen, Y.L. Joo, and W.S. Kim, “Multiple Feeding Strategy for Phase Transformation of GMP in Continuous Couette-Taylor Crystallizer”, Crystal Growth & Design 12 2780-2788 (2012).
  • D. Cho, A. Netravali, and Y.L. Joo, “Mechanical Properties and Biodegradability of Electrospun Soy Protein Isolate/PVA Nanofibers”, Polymer Degradation and Stability 97, 747-754 (2012).
  • D.J. Woo, N.S. Hansen, Y.L. Joo, S.K. Obendorf, “Photocatalytic Self-detoxification by Coaxially Electrospun Nanofiber containing TiO2 Nanoparticles”, Textile Research Journal 82, 1920-1927(2012).
  • N.S. Hansen, T.E. Furguson, J.E. Panels, A.A. Park and Y.L. Joo, “Inorganic Nanofibers with Tailored Placement of Nanocatalysts for the Hydrogen Production via Alkaline Hydrolysis of Glucose”, Nanotechnology 22 325302 (2011).
  • E. Zhmayev, D. Cho and Y.L. Joo, “Electrohydrodynamic Quenching in Polymer Melt Electrospinning”, Physics of Fluids 23, 073102 (2011).
  • C.P. Carroll and Y.L. Joo, “Discretized Modelling of Electrically Driven Viscoelastic Jets in the Initial Stage of Electrospinning”, Journal of Applied Physics 109, 094315 (2011).
  • D. Cho, H. Zhou, and Y.L. Joo, “Structural Studies of Electrospun Nylon 6 Fibers from Solution and Melt”, Polymer 52, 4600-4609 (2011).
  • D. Cho, W.J. Bae, Y.L. Joo, C.K. Ober and M.W. Frey, “Properties of PVA/HfO2 Hybrid Electrospun Fibers and Calcined Inorganic HfO2 Fibers”, Journal of Physical Chemistry C 115, 5535-5544 (2011).
  • A. Cho, D.M. Shin, H.W. Jung, J.C. Hyun, J.S. Lee, D. Cho, and Y.L. Joo, “Effect of Annealing on the Crystallization and Properties of Electrospun PLA and Nylon 6 Fibers”, Journal of Applied Polymer Science 120, 752-758 (2011).
  • D. Cho, H. Zhou, Y. Cho, D. Audus, and Y.L. Joo, “Structural Studies and Hydrophobicity of Electrospun Polypropylene Fibers from Solution and Melt”, Polymer 51, 6005-6012 (2010).
  • E. Zhmayev, D. Cho and Y.L. Joo, “Nanofibers from Gas-Assisted Polymer Melt Electrospinning”, Polymer 51, 4140-4144 (2010).
  • M. Kamperman, L.T.J. Korley, B. Yau, K.M. Johansen, Y.L. Joo, U. Wiesner, “Nanomanufacturing of Continuous Composite Nanofibers with Confinement-induced Morphologies”, Polymer Chemistry 1, 1001-1004 (2010).
  • E. Lee, D.L. Koch and and Y.L. Joo, “Cross Stream Forces and Velocities of Fixed and Freely Suspended Particles in Viscoelastic Plane Poiseuille Flow: Perturbation and Numerical Analysis”, Journal of Non-Newtonian Fluid Mechanics 165, 1309-1327 (2010).
  • V. Kalra, F. Escobedo, Y.L. Joo, “Effect of Shear on Nanoparticle Dispersion in Polymer Melts: A Coarse-grained Molecular Dynamics Study”, Journal of Chemical Physics 132, 024901 (2010).
  • E. Zhmayev, D. Cho and Y.L. Joo, “Modeling of Melt Electrospinning for Semi-Crystalline Polymers”, Polymer 51, 274-290 (2010).
  • D. Cho, O. Nnadi, A. Netravali, and Y.L. Joo, “Electrospun Hybrid Soy Protein/PVA Fibers”, Macromolecular Materials and Engineering 295 763-773 (2010).
  • V. Kalra and Y.L. Joo, “Coarse-Grained Molecular Dynamics Study of Block Copolymer/Nanoparticle Composites under Elongational Flow”, Journal of Chemical Physics 131, 214904 (2009).
  • C.P. Carroll and Y.L. Joo, “Axisymmetric Instabilities in Electrospinning of Highly Conducting, Viscoelastic Polymer Solutions”, Physics of Fluids 21, 103101 (2009).
  • V. Kalra, J.H. Lee, J. Park, M. Marquez and Y.L. Joo, “Confined Assembly of Asymmetric Block Copolymer Nanofibers via Multi-axial Jet Electrospinning”, Small 5, 2323-2332 (2009).
  • C. Xiang, Y.L. Joo, and M.W. Frey, “Nanocomposite Fibers Electrospun from Poly(lactic acid)/Cellulose Nanocrystals”, J. Biobased Materials and Bioenergy 3, 147-155 (2009).
  • V. Kalra, J. Lee, J.H. Lee, S.G. Lee, M. Marquez, U. Wiesner, Y.L. Joo, “Controlling Nanoparticle Location via Confined Assembly in Electrospun Block Copolymer Nanofibers”, Small 4, 2067-2073 (2008).
  • J.E. Panels, J. Lee, K.Y. Park, S.Y. Kang, M. Marquez, U. Wiesner, Y.L. Joo, “Synthesis and Characterization of Magnetically Active Carbon Nanofiber/Iron Oxide Composites with Hierarchical Pore Structures”, Nanotechnology 19, 455612 (2008).
  • V. Kalra, S. Mendez, F. Escobedo, Y.L. Joo, “Coarse-grained Molecular Dynamics Simulation on the Placement of Nanoparticles within Symmetric Diblock Copolymers under Shear Flow”, Journal of Chemical Physics 128, 164909 (2008).
  • C.P. Carroll and Y.L. Joo, “Axisymmetric Instabilities of Electrically Driven Viscoelastic Jets”, Journal of Non-Newtonian Fluid Mechanics 153, 130-148 (2008).
  • E. Zhmayev, H. Zhou and Y.L. Joo, “Modeling of Non-isothermal Polymer Jets in Melt Electrospinning”, Journal of Non-Newtonian Fluid Mechanics 153, 95-108 (2008).
  • C.P. Carroll, E. Zhmayev, V. Kalra and Y.L. Joo, “Nanofibers from Electrically Driven Viscoleastic Jets: Modeling and Experiments”, Korea-Australia Rheology Journal 20, 153-164 (2008).
  • S.J. Hwang, Y.L. Joo, and S.J. Lee, “Properties of High-Impact Polystyrene/Organoclay Nanocomposites Synthesized via In Situ Polymerization”, Journal of Applied Polymer Science 110, 1441-1450 (2008).
  • Choi, S. S., J. C. Kim. S. G. Lee and Y. L. Joo, “Influence of the cure systems on long time thermal aging behaviors of NR composites.” Macromolecular Research 16, 561-566 (2008).
  • Y.M. Lee and Y.L. Joo, “Brownian Dynamics Simulations of Polyelectrolyte Molecules Traveling through an Entropic Trap Array during Electrophoresis”, Journal of Chemical Physics 127, 124902 (2007).
  • H.J. Park, J.W. Dingee, S.R. Fitzgibbon, A.B. Anton, Y.L. Joo, “Controlling Cellulose Microstructure via Electrospinning with Applications in Enzymatic Hydrolysis”, Journal of Biobased Materials and Bioenergy 1, 245-256 (2007).
  • M.W. Frey, D. Li, T. Tsong, A.J. Baeumner, Y.L. Joo, “Incorporation of Biotin into PLA Nanofibers via Suspension and Dissolution in the Electrospinning Dope”, Journal of Biobased Materials and Bioenergy 1, 220-228 (2007).
  • S.W. Lee, K.U. Kim, S.S. Choi, T.Y. Park, Y.L. Joo, and S.G. Lee, “Preparation of SiO2/TiO2 Composite Fibers by Sol-Gel Reaction and Electrospinning”, Materials Letters 61, 889-893 (2007).
  • Y.U. Kim, T.S. Lee, E.H. Kim, Y.L. Joo, and S.G. Lee, “A Study on the Preparation and Microstructure of the BaTiO3/SiO2 Composite Fibers”, J. of Korean Society of Textile Engineers and Chemists 44, 274-279 (2007).
  • V. Kalra, S. Mendez, J.H. Lee, H. Nguyen, M. Marquez, and Y.L. Joo, “Confined Assembly of Coaxially Electrospun Block Copolymer Fibers”, Advanced Materials 18, 3299-3303 (2006).
  • C.P. Carroll and Y.L. Joo, “Electrospinning of Viscoelastic Boger Fluids: Modeling and Experiments”, Physics of Fluids 18, 053102-14 (2006).
  • V. Kalra, P.A. Kakad, S. Mendez, T. Ivannikov, M. Kamperman, and Y.L. Joo, “Self-Assembled Structures in Electrospun PS-b-PI Copolymers Fibers”, Macromolecules 39, 5453-5457 (2006).
  • H. Zhou, T.B. Green, and Y.L. Joo, “The Thermal Effects on Electrospinning of Polylactic Acid Melts”, Polymer 47, 7497-7505 (2006).
  • Y.M. Lee and Y.L. Joo, “Brownian Dynamics Simulations of Star-Branched Polymers in Dilute Solutions in Extensional Flow”, Journal of Non-Newtonian Fluid Mechanics 140, 71-86 (2006).
  • J.E. Panels and Y.L. Joo, “Incorporation of Vanadium Oxide in Silica Nanofiber Mats via Electrospinning and Sol-gel Synthesis”, Journal of Nanomaterials 2006, 41327 (2006).
  • D. Li, M.W. Frey, Y.L. Joo, “Characterization of Nanofibrous Membranes with Capillary Flow Porometry”, Journal of Membrane Science 286, 104-114 (2006).
  • C.W. Kim, D.S. Kim, S.Y. Kang, M. Marquez and Y.L. Joo, “Structural Studies of Electrospun Cellulose Nanofibers”, Polymer 47, 5097-5107 (2006).
  • Y.L. Joo and D. Choudhary, “Using Visualization and Computation in the Analysis of Separation processes”, Chemical Engineering Education 40, 313-322 (2006).
  • J.B. Ko, S.W. Lee, D.E. Kim, Y.U. Kim, G. Li, S.G. Lee, T.S, Chang, D. Kim and Y.L. Joo, “Fabrication of SiO2/ZrO2 Composite Fiber Mats via Electrospinning”, Journal of Porous Materials 13, 325-330 (2006)
  • H. Zhou, K.W. Kim, E.P. Giannelis, Y.L. Joo, “Nanofibers from Poly (L-Latic) Acid Nanocomposites: Effects of Nanoclay on Molecular Structures” in Polymeric Nanofibers, ACS Symposium Series Book 918, 217-230 (2006).
  • C.W. Kim, M.W. Frey, M. Marquez and Y.L. Joo, “Preparation of Electrospun Cellulose Nanofibers via Direct Dissolution”, Journal of Polymer Science: Part B: Polymer Physics 43, 1673-1683 (2005).
  • Y.L. Joo, H. Zhou, S.-G. Lee, H.-K. Lee and J.K. Song, “Solid State Compaction and Drawing of Ultra High Molecular Weight Polyethylene Reactor Powders”, Journal of Applied Polymer Science 98, 718-730 (2005).
  • J.H. Chang, S.J. Kim, Y.L. Joo and S.S. Im, “Poly(ethylene terephtalate) Nanocomposites by in-situ Interlayer Polymerization: the Thermo-Mechanical Properties and Morphology of the Hybrid Fibers”, Polymer 45, 919-926 (2004).
  • S.S. Choi, S.G. Lee, S.S. Im, S.H. Kim and Y.L. Joo, “Silica Nanofibers from Electrospinning/Sol-Gel Process” , Journal of Materials Science Letters 22, 891-893 (2003)
  • M.D. Smith, Y.L. Joo, R.C. Armstrong and R.A. Brown, “Linear Stability Analysis of Flow of an Oldroyd-B Fluid through a Linear Array of Cylinders”, Journal of Non-Newtonian Fluid Mechanics 109, 13-50 (2003)
  • I. Ghosh, Y.L. Joo, G.H. McKinley, R.A. Brown and R.C. Armstrong, “A New Model for Dilute Polymer Solutions in Flows with Strong Extensional Components”, Journal of Rheology 46, 1057-1090 (2002)
  • J.K.C. Suen, Y.L. Joo and R.C. Armstrong, “Molecular Orientation Effects in Viscoelasticity”, Annual Review of Fluid Mechanics 34, 417-444 (2002)
  • Y.L. Joo, J. Sun, M.D. Smith, R.C. Armstrong, R.A. Brown and R.A. Ross, “2-D Numerical Analysis of Nonisothermal Melt Spinning with and without Phase Transition”, Journal of Non-Newtonian Fluid Mechanics 102, 37-70 (2002).
  • A. Caola, Y.L. Joo, R.C. Armstrong and R.A. Brown, “Highly Parallel Time Integration of Viscoelastic Flows”, Journal of Non-Newtonian Fluid Mechanics 100, 191-216 (2001).
  • Y.L. Joo, O.H. Han, H.-K. Lee and J.K. Song, “Characterization of Ultra High Molecular Weight Polyethylene Nascent Reactor Powders by X-Ray Diffraction and Solid State NMR”, Polymer 41, 1355-1368 (2000).
  • S.G. Lee, W. Cho, Y.L. Joo, J.K. Song. C.W. Joo, “Characteristics of High Strength Polyethylene Tape Yarns and Their Composites by Solid State Processing Methods”, Journal of Korean Society for Composite Materials 12, 91-100 (1999).
  • Y.L. Joo and M.H. Cho, “Utilization of Rheology Control to Develop Wood-Grain Textured Poly(vinyl chloride)/Wood Flour Composites”, International Polymer Processing 14, 10-20 (1999).
  • J.S. Oh and Y.L. Joo, “The Mechanical Properties of Glass Fiber Reinforced PP/EPDM Blends from Recycled Automotive Bumpers”, Polymer Recycling 3, 119-129 (1997/98).
  • Y.L. Joo and J.S. Oh, “Morphological & Rheological Studies of PMMA/Impact Modifier Blends”, Korean Journal of Rheology 9, 151-162 (1997).
  • J.K. Song, Y.L. Joo and H.K. Lee, “High-Modulus, High-Strength Polyethylene Fibers for Composite Materials”, Fiber Technology and Industry 1, 86-97 (1997).
  • Y.L. Joo, “Rheological Behavior and Extrusion Characteristics of Polycarbonate/Carbon Black Composites”, Journal of Reinforced Plastics and Composites 16, 1196-1209 (1997).
  • Y.L. Joo, “Principles of Polymer Extrusion Process”, Polymer Science & Technology 7, 271-279 (1996).
  • Y.L. Joo and E.S.G. Shaqfeh, “Observations of Purely Elastic Instabilities in the Taylor-Dean Flow of a Boger Fluid”, Journal of Fluid Mechanics 262, 27-73 (1994).
  • Y.L. Joo and E.S.G. Shaqfeh, “The Effects of Inertia on the Viscoelastic Dean and Taylor-Couette Flow Instabilities with Application to Coating Flows”, Physics of Fluids A 4, 2415–2431 (1992).
  • Y.L. Joo and E.S.G. Shaqfeh “A Purely Elastic Instability in Dean and Taylor-Dean Flow”, Physics of Fluids A 4, 524-543 (1992).
  • Y.L. Joo and E.S.G. Shaqfeh, “Viscoelastic Poiseuille Flow Through a Curved Channel: A New Elastic Instability”, Physics of Fluids A 3, 1691-1694 (1991).