Dr. Jiahua Jack Zhu
Dr. Jiahua Jack ZhuAssociate ProfessorChemical and Biomolecular Engineering DepartmentThe University of AkronRm. 411A, Whitby Hall, Akron, OH 44325-3906Tel: (330)972-6859; Fax: (330)972-5856Homepage: ail: jzhu1@uakron.eduProfessional PreparationYangzhou UniversityNanjing University of TechnologyLamar UniversityApplied ChemistryChemical EngineeringChemical EngineeringBS, 2006MS, 2009Ph.D., 2013AppointmentsAssociate Professor, Chemical & Biomolecular Engineering DepartmentThe University of Akron, Akron, OH 44325 USAAssistant Professor, Chemical & Biomolecular Engineering DepartmentThe University of Akron, Akron, OH 44325 USAResearch Assistant, Dan F. Smith Department of Chemical EngineeringLamar University, Beaumont, TX 77710 USAResearch Assistant, Department of Chemistry & Chemical EngineeringNanjing University of Technology, Nanjing, Jiangsu, 09/2006-05/2009Honors and 201220112011201120112011Research Fellowship, American-Scandinavian FoundationFaculty summer fellowship, The University of AkronEarly Career Investigator Award, ECS Electrodeposition DivisionEarly Career Award, Polymer Processing SocietyTMS FMD Young Professional Leader Development Award, TMS SocietyFaculty summer fellowship, The University of AkronBiomimicry research award, The University of AkronFirestone research award, The University of AkronFaculty summer fellowship, The University of AkronScholarship from SPE Thermoplastic Elastomers Special Interest GroupChinese government award for outstanding self-financed students abroadNSF travel fellowship: CMMI Engineering Research and Innovation Conference3rd place research excellence award: Chinese-American Chemical Society-Southwest Chapter1st place poster award, AIChE Conference, Environmental Division3rd place poster award, AIChE Conference, Materials Engineering & Sciences Division2nd place poster award, International Polyolefins ConferenceNSF travel fellowship: CMMI Engineering Research and Innovation Conference1
Book Chapters1.“Nanostructured Ceramic Oxides: Preparation, Property Analysis and Applications”, Encyclopediaof Semiconductor Nanotechnology, Edited by Ahmad Umar, in press (2010).2.S. Wei, J. Zhu, P. Mavinakuli, Z. Guo, Chapter 4: “Magnetic Polymer Nanocomposites:Fabrication, Processing, Property Analysis and Applications” Multifunctional PolymerNanocomposites, CRC Press, Edited by Jinsong Leng and Alan K. T. Lau, (2010).3.L. Chen, J. Zhu. Chapter: “Carbon Nanocomposites in Electrochemical Capacitor Applications”.Multifunctional Nanocomposites for Energy and Environmental Applications. Chinese HigherEducation Press and John Wiley & Sons, Inc. 20184.N. Mehra, L. Mu, J. Zhu. Chapter: “Thermal Conduction in Polymer Composites”. Polymer-basedmultifunctional Nanocomposites. Elsevier. 2018Patents1.Luyi Sun, Zhanhu Guo, Jiahua Zhu, Suying Wei, Surfactant-free synthesis of magneticpolypropylene nanocomposites, US9023230 B1.2.Jiahua Zhu, Gunjin Yun, Full field strain sensors using mechanoluminescence materials,US20150267107 A1.3.Jiahua Zhu, Long Chen, Tuo Ji, Method of making mesoporous carbon from natural wood andmesoporous carbon hollow tubes made thereby, US10259714B2.Teaching Courses1.Materials and Energy Balance (Fall, 2013 present)2.Chemical Engineering Computation (Spring, 2014 present)3.Process Design II (Spring, 2018)4.Thermal Transport in Materials: Theory and Applications (Spring, 2016 2017)Peer-Reviewed Journal Publications (citation 6700, h-index 45)1.H. Lin, N. Mehra, Y. Li and J. Zhu*, “Graphite Oxide/Boron Nitride Hybrid Membranes: The Roleof Cross-plane Laminar Bonding for A Durable Membrane with Large Water Flux and HighRejection Rate”, In revision (2019)2.M. A. Kashfipour, R. S. Dent, N. Mehra, X. Yang, J. Gu,* and J. Zhu*, “Directional XylitolCrystal Propagation in Oriented Micro-channels of Boron Nitride Aerogel for Isotropic HeatConduction”, Composites Science and Technology, 182, 107715 (2019)3.X. Yang, Y. Guo, Y. Han, Y. Li, T. Ma, M. Chen, J. Kong, J. Zhu* and J. Gu*, “Significantimprovement of thermal conductivities for BNNS/PVA composite films via electrospinningfollowed by hot-pressing technology”, Composites Part B, 175, 107070 (2019)4.N. Mehra, M. Jeske, X. Yang, J. Gu*, M. Kashfipour, Y. Li, J. Baughmanc and J. Zhu*,“Hydrogen-bond Driven Self-assembly of Two-dimensional Supramolecular Melamine-CyanuricAcid Crystals and Its Self-alignment in Polymer Composites for Enhanced Thermal Conduction”,ACS Applied Polymer Materials, 1(6), 1291-1300 (2019)2
5.N. Mehra, Y. Li, X. Yang, J. Li, M. Kashfipour, J. Gu* and J. Zhu*, “Engineering MolecularInteraction in Polymeric Hybrids: Effect of Thermal Linker and Polymer Chain Structure onThermal Conduction”, Composites Part B, 155, 509-515 (2019)6.L. Mu, X. Ma, X. Guo, M. Chen, T. Ji, J. Hua, J. Zhu*, Y. Shi*, “Structural Strategies to DesignBio-Ionic Liquid: Tuning Molecular Interaction with Lignin for Enhanced Lubrication”, Journal ofMolecular Liquids, 280, 49-57 (2019)7.L. Mu, J. Wu, L. Matsakas, M. Chen, U. Rova, P. Christakopoulos, J. Zhu*, Y. Shi*, “Twoimportant factors of selecting lignin as efficient lubricating additives in poly (ethylene glycol):Hydrogen bond and molecular weight”, International Journal of Biological Macromolecules, 129,564-570 (2019)8.M. A. Kashfipour, N. Mehra, R. Dent and J. Zhu*, “Regulating Intermolecular Chain Interaction ofBiopolymer with Natural Polyol for Flexible, Optically Transparent and Thermally ConductiveHybrids”, Engineered Science, In press (2019)9.T. Ji, Z. Li, C. Liu, X. Lu*, L. Li, and J. Zhu*, “Niobium-doped TiO2 Solid Acid Catalysts:Strengthened Interfacial Polarization, Amplified Microwave Heating and Enhanced EnergyEfficiency of Hydroxymethylfurfural Production”, Applied Catalysis B: Environmental, 243, 741749 (2019)10.N. Mehra, M. A. Kashfipour and J. Zhu*, “Filler free technology for enhanced thermallyconductive optically transparent polymeric materials using low thermally conductive organiclinkers”, Applied Materials Today, 13, 207-216 (2018)11.H. Lin, R. Liu, S. Dangwal, S.-J. Kim, N. Mehra, Y. Li, J. Zhu*, “Permselective H2/CO2Separation and Desalination of Hybrid GO/rGO Membranes with Controlled Pre-crosslinking”,ACS Applied Materials & Interfaces, 10, 28166-28175 (2018)12.T. Ji, C. Liu, X. Lu, J. Zhu*, “Coupled Chemical and Thermal Drivers in Microwave towardsUltrafast HMF Oxidation to FDCA”, ACS Sustainable Chemistry & Engineering, 6, 11493-11501,(2018)13.H. Lin, S. Dangwal, R. Liu, S. Kim, Y. Li, J. Zhu*, “Reduced Wrinkling in GO Membrane byGrafting Basal-plane Groups for Improved Gas and Liquid Separations”, Journal of MembraneScience, 563, 336-344 (2018)14.Y. Li, N. Mehra, J. Zhu*, “Realizing Nanoscale Quantitative Thermal Mapping of ScanningThermal Microscopy by Resilient Tip-Surface Contact Resistance Models”, Nanoscale Horizons, 3,505-516 (2018)15.N. Mehra, Y. Li, J. Zhu*, “Small Organic Linkers with Hybrid Terminal Groups Drive EfficientPhonon Transport in Polymers”, Journal of Physical Chemistry C, 122, 10327-10333 (2018)16.J. Wu, L. Mu, J. Zhu, X. Feng*, X. Lu, R. Larsson, Y. Shi*, “Synthesis of hollow fullerene-likemolybdenum disulfide/reduced graphene oxide nanocomposites with excellent lubricatingproperties”, Carbon, 134, 423-430 (2018)17.N. Mehra, L. Mu, T. Ji, Z. Yang, J. Kong, J. Gu*, J. Zhu*, “Thermal Transport in PolymericMaterials and across Composite Interfaces”, Applied Materials Today, 12, 92-130 (2018)18.Y. Zhu, F. Sun, H. Qian, H. Wang*, L. Mu, and J. Zhu, “A Biomimetic Spherical CactusSuperhydrophobic Coating with Durable and Multiple Anti-Corrosion Effects”, ChemicalEngineering Journal, 338, 670-679 (2018)19.T. Ji, R. Tu, L. Li, L. Mu, C. Liu, X. Lu and J. Zhu*, “Localizing Microwave Heat by SurfacePolarization of Titanate Nanostructures for Enhanced Catalytic Reaction Efficiency”, AppliedCatalysis B: Environmental, 227, 266-275 (2018)3
20.Y. Li, N. Mehra, T. Ji, X. Yang, L. Mu, J. Gu and J. Zhu*, “Stiffness-Thermal ConductionRelationship at Composite Interface: Effect of Particle Alignment on Long-range Confinement ofPolymer Chains Monitored by Scanning Thermal Microscopy”, Nanoscale, 10, 1695-1703 (2018)21.T. Ji, R. Tu, L. Mu, X. Lu, J. Zhu*, “Structurally Tuning Microwave Absorption of Core/shellStructured CNT/Polyaniline Catalysts for Energy Efficient Saccharide-HMF Conversion”, AppliedCatalysis B: Environmental, 220, 581-588 (2018)22.M. A. Kashfipour, Nitin Mehra, J. Zhu*, “A Review on the Role of Interface in Mechanical,Thermal and Electrical Properties of Polymer Composites”, Advanced Composites and HybridMaterials, 1, 415-439 (2018)23.X. Yang, C. Liang, T. Ma, Y. Guo, J. Kong, J. Gu*, M. Chen and J. Zhu*, “A Review onThermally Conductive Polymeric Composites: Classification, Measurement, Model and Equations,Mechanism and Fabrication Methods”, Advanced Composites and Hybrid Materials, 1, 207-230(2018)24.T. Ji, C. Ma, L. Brisbin, Y. Dong* and J. Zhu*, “Effect of Interface on the Mechanical Behavior ofPolybutadiene-silica Composites: An Experimental and Simulation Study”, Journal of AppliedPolymer Science, DOI: 10.1002/APP.46089 (2018)25.L. Mu, J. Wu, L. Matsakas, M. Chen, A. Vahidi, M. Grahn, U. Rova, P. Christakopoulos*, J. Zhu*,Y. Shi*, “Lignin from Hardwood and Softwood Biomass as a Lubricating Additive to EthyleneGlycol”, Molecules, 23, 537 (2018)26.J. Huang, W. Zhuang, C. Wei, L. Mu, J. Zhu, Y. Zhu, J. Wu, Y. Chen, H. Ying, “Concanavalin Ainduced orientation immobilization of Nuclease P1: The effect of lectin agglutination”, ProcessBiochemistry, 64, 160-169 (2018)27.Y. Liang, H. Qin, N. Mehra, J. Zhu, Z. Yang, G. L. Doll, C. Ye,* Y. Dong,* “Controllablehierarchical micro/nano patterns on biomaterial surfaces fabricated by ultrasonic nanocrystallinesurface modification”, Materials & Design, 137, 325-334, (2018)28.N. Mehra, L. Mu, T. Ji, Y. Li, J. Zhu*, “Moisture Driven Thermal Conduction in Polymer andPolymer Blends”, Composites Science & Technology, 151, 115-123 (2017)29.R. An*, Y. Dong, J. Zhu, C. Rao, “Adhesion and Friction Forces in Biofouling Attachments toNanotube- and PEG- Patterned TiO2 Surfaces”, Colloids and Surfaces B: Biointerfaces, 159, 108117 (2017)30.C. Ma, T. Ji, C. Robertson, R. Rajeshbabu, J. Zhu, Y. Dong*, “Molecular Insight into the MullinsEffect: Irreversible Disentanglement of Polymer Chains Revealed by Molecular DynamicsSimulation”, Physical Chemistry Chemical Physics, 19, 19468-19477 (2017)31.L. Mu, J. He, Y. Li, T. Ji, N. Mehra, Y. Shi, J. Zhu*, “The Molecular Origin of Efficient PhononTransfer in Modulated Polymer Blends: Effect of Hydrogen Bonding on Polymer Coil Size andAssembled Microstructure”, Journal of Physical Chemistry C, 121, 14204-14212 (2017)32.X. Wu, Wei Zhuang,* J. Zhu, L. Mu, L. Lu, Y. Zhu, X. Lu, “Carbon coated Li4Ti5O12 fibers:Relying on the lithium diffusivity in TiO2-B crystal structure for high rate lithium battery”, Journalof Alloys and Compounds, 721, 545-553 (2017)33.L. Mu, Y. Shi,* J. Hua, W. Zhuang, J. Zhu*, “Engineering Hydrogen Bonding Interaction andCharge Separation in Bio-Polymers for Green Lubrication”, Journal of Physical Chemistry B, 121,5669-5678 (2017)34.N. Mehra, L. Mu, J. Zhu*, “Developing Heat Conduction Pathways through Short Polymer Chainsin a Hydrogen Bonded Polymer System”, Composites Science & Technology, 148, 97-105 (2017)4
35.L. Mu, Y. Li, N. Mehra, T. Ji, J. Zhu*, “Expedited Phonon Transfer in Interfacially ConstrainedPolymer Chain along Self-organized Amino Acid Crystals”, ACS Applied Materials & Interfaces, 9,12138-12145 (2017)36.T. Ji, R. Tu, L. Mu, X. Lu, J. Zhu*, “Enhancing Energy Efficiency in Saccharide-HMF Conversionwith Core/shell Structured Microwave Responsive Catalysts”, ACS Sustainable Chemistry &Engineering, 5, 4352-4358 (2017)37.L. Mu, Y. Shi, X. Guo, W. Zhuang, L. Chen, T. Ji, J. Hua, H. Wang, J. Zhu*, “GraftingHeteroelement-Rich Groups on Graphene Oxide: Tuning Polarity and Molecular Interaction withBio-Ionic Liquid for Enhanced Lubrication”, Journal of Colloid & Interface Science, 498, 47-54(2017)L. Chen, T. Ji, L. Mu, Y. Shi, H. Wang and J. Zhu*, “Pore Size Dependent Molecular Adsorptionof Cationic Dye in Biomass Derived Hierarchically Porous Carbon”, Journal of EnvironmentalManagement, 196, 168-177 (2017)38.39.R. Bao, J. Li, L. Li, T. J. Cutright, L. Chen, J. Zhu, J. Tao*, “Effect of Microbial Induced CalcitePrecipitation on Surface Erosion of Granular Soils: Proof of Concept”, Journal of theTransportation Research Board, DOI: 10.3141/2657-02 (2017).40.T. Ji, C. Ma, L. Brisbin, L. Mu, C. G. Robertson, Y. Dong, J. Zhu*, “Organosilane Grafted Silica:Quantitative Correlation of Microscopic Surface Characters and Macroscopic Surface Properties”,Applied Surface Science, 399, 565-572 (2017)41.L. Chen, T. Ji, L. Mu, J. Zhu*, “Cotton Fabric Derived Hierarchically Porous Carbon and NitrogenDoping for Sustainable Capacitor Electrode”, Carbon, 111, 839-848 (2017)42.R. Tu, S. Chen, W. Cao, S. Zhang, L. Li, T. Ji, J. Zhu, J. Li*, X. Lu*, “The effect of H2O2desorption on achieving improved selectivity for direct synthesis of H2O2 over TiO2(B)/anatasesupported Pd catalyst”, Catalysis Communications, 89, 69-72 (2017)43.T. Ji, L. Chen, L. Mu, J. Zhu*, “Molecular Transformation, Diffusion and Assembling into Threedimensional Freestanding Tube Arrays via a Triphasic Reaction”, Langmuir, 32, 11525-11531(2016)44.J. Kim, A. Shankar, J. Zhu, D. S. Choi, Z. Guo, J. E. Ryu*, “Reinforcement of Cu NanoinkSintered Film with Extended Carbon Nanofibers for Large Deformation of Printed Electronics”,Journal of Composite Materials, 51, 997-1003 (2016)45.C. Ma, T. Ji, C. G. Robertson, R. Rajeshbabu, J. Zhu, and Y. Dong*, "Molecular dynamic modelingof nanoparticle/polymer system", Tire Science and Technology, in press (2016)46.L. Mu, T. Ji, L. Chen, N. Mehra, Y. Shi, J. Zhu*, “Pave Thermal Highway with Self-OrganizedNanocrystals in Transparent Polymer Composites”, ACS Applied Materials & Interfaces, 8, 2908029087 (2016)47.L. Chen, L. Mu, T. Ji, J. Zhu*, “Boosting Energy Efficiency of Nickel Cobaltite via InterfacialEngineering in Hierarchical Supercapacitor Electrode”, Journal of Physical Chemistry C, 120,23377-23388 (2016)48.L. Mu, Y. Shi,* X. Guo, J. Wu, T. Ji, L. Chen, X. Feng, X. Lu, J, Hua, J. Zhu*, “Enriching Heteroelements in Lignin as Lubricating Additives for Bio-Ionic Liquids”, ACS Sustainable Chemistry &Engineering, 4, 3877-3887 (2016)49.H. Wang,* Z. Liu, X. Zhang, C. Lv, R. Yuan, Y. Zhu, L. Mu, J. Zhu, “Durable Self-healingSuperhydrophobic Coating with Biomimic "Chloroplast" Analogous Structure”, AdvancedMaterials Interfaces, 3, 1600040 (2016)50.R. Yuan, S. Wu, P. Yu, B. Wang, L. Mu, X. Zhang, Y. Zhu, B. Wang, H. Wang,* J. Zhu*“Superamphiphobic and Electroactive Nanocomposite towards Self-cleaning, Anti-wear and Anticorrosion Coatings”, ACS Applied Materials & Interfaces, 8 (19), 12481-12493 (2016)5
51.T. Ji, W. Cao, L. Chen, L. Mu, H. Wang, X. Gong, X. Lu and J. Zhu*, “Confined MolecularMotion across Liquid/liquid Interfaces towards Free-standing Conductive Polymer Tube Arrays”,Journal of Materials Chemistry A, 4, 6290-6294 (2016)52.T. Ji, L. Chen, L. Mu, R. Yuan, M. Knoblauch, F. S. Bao, Y. Shi, H. Wang, and J. Zhu*, “GreenProcessing of Plant Biomass into Mesoporous Carbon as Catalyst Support”, Chemical EngineeringJournal, 295, 301-308 (2016)53.L. Mu, Y. Shi*, H. Wang, J. Zhu*, “Lignin in Ethylene Glycol and Poly(Ethylene Glycol):Fortified Lubricants with Internal Hydrogen Bonding”, ACS Sustainable Chemistry & Engineering,4 (3), 1840–1849 (2016)54.L. Mu, Y. Shi*, T. Ji, L. Chen, R. Yuan, H. Wang, J. Zhu*, “Ionic Grease Lubricants: Protic[Triethanolamine][Oleic acid] and Aprotic [Choline][Oleic acid]”, ACS Applied Materials &Interfaces, 8, 4977-4982 (2016)55.W. Zhuang, L. He, L.J. Zhu, J. Zheng, X. Liu, Y. Dong, J. Wu, J. Zhou, Y. Chen, H. Ying*,“Efficient nanobiocatalytic systems of nuclease P-1 immobilized on PEG-NH2 modified grapheneoxide: effects of interface property heterogeneity”, Colloids and Surfaces B-Biointerfaces, 145, 785794 (2016)56.T. Ji, L. Chen, L. Mu, R. Yuan, H. Wang, M. Knoblauch, F. S.Bao and J. Zhu*, “HeterogeneousNucleation/growth of Silver Nanoparticles onto Oxygenated Mesoporous Carbon: Alcohol Effectand Catalytic Property”, Catalysis Communications, 77, 65-69 (2016)57.R. Yuan, S. Wu, B. Wang, Z. Liu, L. Mu, T. Ji, L. Chen, B. Liu, H. Wang*, J. Zhu*,“Superamphiphobicity and Electroactivity Enabled Dual Physical/chemical Protections in NovelAnticorrosive Nanocomposite Coatings”, Polymer, 85, 37-46 (2016)58.L. Chen, T. Ji, L. Mu, Y. Shi, L. Brisbin, Z. Guo, M. A. Khan, D. P. Young and J. Zhu*, “FacileSynthesis of Mesoporous Carbon Nanocomposites from Natural Biomass for Efficient DyeAdsorption and Selective Heavy Metal Removal”, RSC Advances, 6, 2259-2269 (2016)59.T. Ji, L. Chen, L. Mu, R. Yuan, M. Knoblauch, F. S. Bao, J. Zhu*, “In-situ Reduction of AgNanoparticles on Oxygenated Mesoporous Carbon Fabric: Exceptional Catalyst for NitroaromaticsReduction”, Applied Catalysis B: Environmental, 182, 306-315 (2016)60.L. Mu*, J. Zhu*, J. Fan, Z. Zhou, Y. Shi, X. Feng*, H. Wang and X. Lu, de Blends Reinforced with Zinc Oxide Nanoparticles", Journal ofNanomaterials, 2015, 545307 (2015) -- Invited Contribution61.J. Wu, J. Zhu, L. Mu, Y. Shi, Y. Dong, X. Feng, X. Lu, “High Load Capacity with Ionic LiquidLubricated Tribological System”, Tribology International, 94, 315-322 (2015)62.W. Zhuang, Y. Zhang, J. Zhu, R. An, B. Li; L. Mu, J. Wu, J. Zhou, Y. Chen, X. Lu, “Influences ofGeometrical Topography and Surface Chemistry on the Stable Immobilization of AdenosineDeaminase on Mesoporous TiO2”, Chemical Engineering Science, 139, 142-151 (2015)63.R. Yuan, H. Wang, T. Ji, L. Mu, L. Chen, Y. Zhu, J. Zhu*, “Superhydrophobic Polyaniline HollowSpheres with Mesoporous Brain-like Convex-fold Shell Textures”, Journal of Materials ChemistryA, 3, 19299-19303 (2015)64.L. Chen, T. Ji, R. Yuan, L. Mu, L. Brisbin, J. Zhu*, “Unveiling Mesopore Evolution in CarbonizedWood: Interfacial Separation, Migration and Degradation of Lignin Phase”, ACS SustainableChemistry & Engineering, 3, 2489-2495 (2015)65.K. Wang, C. Liu, C. Yi, L. Chen, J. Zhu, R. Weiss and X. Gong*, “Efficient Perovskite HybridSolar Cells via Ionomer Interfacial Engineering”, Advanced Functional Materials, 25, 6875–6884(2015)6
66.L. Mu, Y. Shi, L. Chen, T. Ji, R. Yuan, H. Wang, J. Zhu*, “[N-Methyl-2-pyrrolidone][C1-C4Carboxylic Acid]: A Novel Solvent System with Exceptional Lignin Solubility”, ChemicalCommunication, 51, 13554-13557 (2015)67.L. Mu, Y. Shi, X. Guo, T. Ji, L. Chen, R. Yuan, L. Brisbin, H. Wang, J. Zhu*, “Non-corrosiveGreen Lubricants: Strengthened Lignin-[Choline][Amino Acid] Ionic Liquids Interaction viaReciprocal Hydrogen Bonding”, RSC Advances, 5, 66067-66072 (2015)68.H. Wang, B. Xiao, X. Cheng, C. Wang, L. Zhao, Y. Zhu, J. Zhu, X. Lu. “NiMo CatalystsSupported on Graphene-Modified Mesoporous TiO2 towards Highly Efficient Hydrodesulfurizationof Dibenzothiophene”, Applied Catalysis A: General, 502, 157-165 (2015)69.L. Chen, J. Tuo, L. Brisbin, J. Zhu*. “Hierarchical Porous and High Surface Area Tubular Carbonas Dye Adsorbent and Capacitor Electrode”, ACS Applied Materials & Interfaces, 7, 12230-12237(2015)70.Y. Zhu, H. Wang, J. Zhu, L. Chang, L. Ye. “Nanoindentation and Thermal Study ofPolyvinylalcohol/Graphene Oxide Nanocomposite Film through Organic/Inorganic Assembly”,Applied Surface Science, 349, 27-34 (2015)71.L. Chen, H. Wang, H. Wei, Z. Guo, M, Khan, D. P. Young, J. Zhu*. “Carbon Monolith withEmbedded Mesopore and Nanoparticles as Novel Adsorbent for Water Treatment”, RSC Advances,5, 42540-42547 (2015)72.T. Ji, L. Chen, M. Schmitz, F. S. Bao, J. Zhu*. “Hierarchical Macrotube/Mesopore CarbonDecorated with Mono-Dispersed Ag Nanoparticles as Highly Active Catalyst”, Green Chemistry, 17,2515-2523 (2015)73.K. Wang, C, Liu, P. Du, L. Chen, J. Zhu, A. Karim, X. Gong. “Efficiencies of Perovskite HybridSolar Cells Influenced by Film Thickness and Morphology of CH3NH3PbI3-xClx Layer”, OrganicElectronics, 21, 19-26 (2015)74.W. Zhuang, L. He, J. Zhu, R. An, X. Wu, L. Mu, X. Lu, L. Lv, X. Liu and H. Ying. “TiO2Nanofibers Heterogeneously Wrapped with Reduced Graphene Oxide as Efficient Pt ElectrocatalystSupports for Methanol Oxidation”, International Journal of Hydrogen Energy, 40, 3679-3688 (2015)75.H. Wang,* L. Yan, D. Liu, C. Wang, Y. Zhu, J. Zhu, “Investigation of the Tribological Properties:Core-Shell Structured Magnetic Ni@NiO Nanoparticles Reinforced Epoxy Nanocomposites”,Tribology International, 83, 139-145 (2015)76.W. Zhuang, L. Li, J. Zhu, R. An, L, Lv, X. Lu, X. Wu, and H. Ying, “Facile Synthesis ofMesoporous MoS2-TiO2 Nanofibers for Ultrastable Lithium Ion Battery Anodes”,ChemElectroChem, 2, 374-381 (2015)77.H. Wei, Y. Wang, J. Guo, N. Shen, D. Jiang, X. Zhang, X. Yan, J. Zhu, Q. Wang, L. Shu, H. Lin,S. Wei, and Z. Guo. “Advanced Micro/nanocapsules for Self-healing Smart AnticorrosionCoatings”, Journal of Materials Chemistry A, 3, 469-480 (2015)78.L. Chen, L. Huang, J. Zhu*, “Stitch Graphene Oxide Sheets into Membrane at Liquid/LiquidInterface”, Chemical Communication, 50(100), 15944-15947 (2014)79.Y. Wang, Q. He, X. Zhang, J. Guo, J. Zhu, G. Zhao, H. A. Colorado, J. Yu, L. Sun, S. Bhana, M. A.Khan, X. Huang, D. P. Young, H. Wang, X. Wang, S. Wei and Z. Guo. “Magnetic Graphene OxideNanocomposites: Nanoparticles Growth Mechanism and Property Analysis”, Journal of MaterialsChemistry C, 2, 9478-9488 (2014)80.R. An, W. Zhuang, Z. Yang, J. Zhu, Y. Wang, Y. Dong, N. Wu, X. Lu, “Protein AdsorptiveBehavior on Mesoporous Titanium Dioxide Determined by Geometrical Topography”, ChemicalEngineering Science, 117, 146-155 (2014)7
81.Z. Liu, L. Chen, L. Zhang, S. Poyraz, X. Zhang*, and J. Zhu*, “Ultrafast Cr(VI) Removal fromPolluted Water by Microwave Synthesized Iron Oxide Submicron Wires”, ChemicalCommunication, 50(59), 8036-8039 (2014)82.L. Chen, J. Zhu*, “Metal Nanoparticles Directed NiCo2O4 Nanostructure Growth on CarbonNanofibers with High Capacitance”, Chemical Communication, 50(56), 8253-8256 (2014)83.J. Zhu*, L. Mu, L. Chen, Y. Shi, H. Wang, X. Lu, X. Feng*, “Interface StrengthenedPolyimide/Carbon Nanofibers Nanocomposites with Superior Mechanical and TribologicalProperties”, Macromolecular Chemistry and Physics, 215, 1407-1414 (2014)84.J. Zhu, M. Chen, H. Wei, N. Yerra, N. Haldolaarachchige, Z. Luo, D. P. Young, T. C. Ho, S. Wei,and Z. Guo “Magnetocapacitance in Magnetic Microtubular Nanocomposites under ExternalMagnetic Field”, Nano Energy, 6, 180-192 (2014)85.J. Zhu, M. Chen, H. Qu, Gu, H. Wei, J. Guo, Z. Luo, N. Haldolaarachchige, D. P. Young, S. Wei,and Z. Guo, “Positive and Negative Magnetoresistance Phenomenon Observed in MagneticElectrospun Polyacrylonitrile-Based Carbon Nanocomposite Fibers”, Journal of MaterialsChemistry C, 2, 715-722 (2014)86.J. Zhu, H. Gu, J. Guo, M. Chen, H. Wei, Z. Luo, H. A. Colorado, N. Yerra, D. Ding, T. C. Ho, N.Haldolaarachchige, J. Hopper, D. P. Young, S. Wei, and Z. Guo, “Mesoporous Magnetic CarbonNanocomposite Fabrics towards Highly Efficient Cr(VI) Removal”, Journal of Materials ChemistryA, 2, 2256-2265 (2014).87.D. Ding, H. Wei, J. Zhu, Q. He, X. Yan, S. Wei, and Z. Guo. “Strain Sensitive PolyurethaneNanocomposites Reinforced with Multiwalled Carbon Nanotubes”, Energy and Environment Focus,3, 85-93 (2014)88.H. Gu, J. Guo, H. Wei, X. Zhang, J. Zhu, L. Shao, Y. Huang, N. Haldoaarachchige, D.P. Young, S.Wei and Z. Guo. “Magnetoresistive Conductive Polymer-Tungsten Trioxide Nanocomposites withUltrahigh Sensitivity at Low Magnetic Field”, Polymer, 55, 944-950 (2014)89.J. Zhu, M. Chen, Q. He, L. Shao, S. Wei and Z. Guo, “An Overview of the Engineered GrapheneNanostructures and Nanocomposites”, RSC Advances, 3, 22790-22824 (2013).90.J. Zhu, M. Chen, S. Pallavkar, N. Yerra, Z. Luo, T. C. Ho, S. Wei, Z. Guo, “MicrowaveSynthesized Wearable Microtubular Carbon/Co-Co3O4 Nanocomposites toward ElectrochemicalEnergy Storage”, Nanoscale, 5, 1825-1830 (2013).91.J. Zhu, S. Pallavkar, M. Chen, N. Yerra, Z. Luo, H. A. Colorado, H. Lin, N. Haldolaarachchige,Thomas C. Ho, D. P. Young, S. Wei and Z. Guo, “Magnetic Carbon Nanostructures: MicrowaveEnergy – Assisted Pyrolysis vs Conventional Pyrolysis”, Chemical Communication, 49, 258-260(2013).92.J. Zhu, M. Chen, H. Qu, Z. Luo, S. Wu, H. A. Colorado, S. Wei and Z. Guo, “Magnetic FieldInduced Capacitance Enhancement in Graphene and Magnetic Graphene Nanocomposites”, Energy& Environmental Science, 6, 194-204 (2013).93.X. Zhang, O. Alloul, Q. He, J. Zhu, M. Verde, Y. Li, S. Wei and Z. Guo, “Strengthened MagneticEpoxy Nanocomposites with Protruding Nanoparticles on the Graphene NanoSheets”, Polymer,54(14), 3594–3604 (2013)94.X. Zhang, O. Alloul, J. Zhu, Q. He, Z. Luo, H. A. Colorado, N. Haldolaarachchige, D. P. Young, T.D. Shen, S. Wei and Z. Guo, “Iron Core Carbon Shell Nanoparticles Reinforced ElectricallyConductive Magnetic Epoxy Resin Nanocomposites with Reduced Flammability”, RSC Advances, 3,9453-9464 (2013)8
95.H. Wei, J. Zhu, S. Wu, S. Wei, Z. Guo, “Electrochromic Polyaniline/Graphite OxideNanocomposites with Endured Electrochemical Energy Storage”, Polymer, 54(7), 1820-1831(2013).96.J. Zhu, M. Chen, H. Qu, X. Zhang, Z. Luo, H. A. Colorado, S. Wei and Z. Guo, “InterfacialPolymerized Polyaniline/Graphite Oxide Composites toward Electrochemical Energy Storage”,Polymer, 53(25), 5953-5964 (2012).97.J. Zhu, H. Gu, Z. Luo, N. Haldolaarachchige, D. P. Young, S. Wei and Z. Guo, “CarbonNanostructures Derived Polyaniline Metacomposites: Electrical, Dielectric and GiantMagnetoresistive Properties”, Langmuir, 28(27), 10246-10255 (2012)98.J. Zhu, Q. He, Z. Luo, A. Khasanov, Y. Li, L. Sun, Q. Wang, S. Wei and Z. Guo, “PropertyManipulated Polypropylene-Iron Nanocomposites with Maleic Anhydride Polypropylene”, Journalof Materials Chemistry, 22, 15928-15938 (2012)99.J. Zhu, R. Sadu , S. Wei , D. Chen , N. Haldolaarachchige, Z. Luo , J. Gomes , D. P. Young and Z.Guo, “Magnetic Graphene Nanoplatelet Composites toward Arsenic Removal”, ECS Journal ofSolid State Science and Technology, 1(1), M1-M5 (2012)100. J. Zhu, H. Gu, S. B. Rapole, Z. Luo, S. Pallavkar, N. Haldolaarachchige, T. J. Benson, T. C.Ho, J. Hopper, D. P. Young, S. Wei and Z. Guo, “Looped Carbon Capturing and EnvironmentalRemediation: Case Study of Magnetic Polypropylene Nanocomposites”, RSC Advances, 2, 48444856 (2012)101. J. Zhu, X. Zhang, N. Haldolaarachige, Q. Wang, Z. Luo, J. Ryu, D. P. Young, S. Wei andZ. Guo, “Polypyrrole Metacomposites with Different Carbon Nano-Structures”, Journal ofMaterials Chemistry, 22 (11), 4996-5005 (2012)102. J. Zhu, S. Wei, H. Gu, R. Sowjanya, Q. Wang, Z. Luo, N. Haldolhchige, D. Young, Z. Guo, “Onepot Synthesis of Magnetic Graphene Nanocomposites Decorated with Core@Double-shellNanoparticles for Fast Chromium Removal”, Environmental Science & Technology, 46 (2), 977-985(2012)103. J. Zhu, S. Wei, I. Y. Lee, S. Park, J. Willis, N. Haldolaarachchige, D. P. Young, Z. Luo and Z. Guo,“Silica Stabilized Iron Particles toward Anti-corrosion Magnetic Polyurethane Nanocomposites”,RSC Advances, 2, 1136-1143 (2012)104. J. Zhu, S. Wei, N. Haldolarachchige, J. He, D. P. Young and Z. Guo, “Very Large MagnetoresistiveGraphene Disk with Negative Permittivity”, Nanoscale, 4, 152-156 (2012)105. J. Zhu, Z. Luo, S. Wu, N. Haldolarachchige, J. He, D. P. Young, S. Wei and Z. Guo, “MagneticGraphene Nanocomposites: Electron Conduction, Giant Magnetoresistance and Tunable NegativePermittivity”, Journal of Materials Chemistry, 22, 835-844 (2012) BACK COVER106. J. Zhu, S. Wei, M. Chen, H. Gu, S. B. Rapole, S. Pallavkar, T. C Ho, J. Hopper, and Z. Guo,“Magnetic Nanocomposites for Environmental Remediation”, Advanced Powder Technology, 24,459-467 (2013) Invited Review.107. Q. Wang, X. Zhang, C. J. Wang, J. Zhu, Z. Guo and D. O’Hare, “Polypropylene/Layered DoubleHydroxide Nanocomposites”, Journal of Materials Chemistry, 22, 19113-19121 (2012).108. M. Chen, H. Qu, J. Zhu, Z. Luo, A. Khasanov, A. S. Kucknoor, N. Haldolaarachchige, D. P. Young,S. Wei, and Z. Guo, “Magnetic Electrospun Fluorescent Polyvinylpyrrolidone NanocompositeFibers”, Polymer, 53(20), 4501-4511 (2012).109. L. Mu, Y. Shi, X. Feng, J. Zhu, X. Lu, “The Effect of Thermal Conductivity and FrictionCoefficient on the Contact Temperature of Polyimide Composites: Experimental and Finite ElementSimulation”, Tribology International, 53, 45-52 (2012)9
110. Q. He, T. Yuan, J. Zhu, Z. Luo, N. Haldolaarachchige, L. Sun, A. Khasanov, Y. Li, D. P. Young, S.Wei and Z. Guo, “Magnetic High Density Polyethylene Nanocomposites Reinforced with In-situSynthesized Fe@FeO Core-Shell Nanoparticles”, Polymer, 53(16), 3642-3652 (2012)111. Q. Wang, X. Zhang, J. Zhu, Z. Guo and D. O’Hare, “Preparation of Stable Dispersion of LayeredDouble Hydroxides (LDHs) in Nonpolar Hydrocarbons: New Routes to Polyolefin/LDHNanocomposites”, Chemical Communications, 48, 7450-7452 (2012)112. X. Zhang, J. Zhu, N. Haldolaarachchige, J. Ryu, D. P. Young, S. Wei, and Z. Guo, “SyntheticProcess Engineered Polyaniline Nanostructures with Tunable Morphology and Physical Properties”,Polymer, 53(10), 2109-2120 (2012)113. H. Gu, Y. Huang, X. Zhang, Q. Wang, J. Zhu, L. Shao, N. Haldolaarachchige, D. P. Young, S. Wei,and Z. Guo, “Magnetoresistive Polyaniline-Magnetite Nanocomposites with Negative DielectricalProperties”, Polymer, 53(3), 801-809 (2012)114. E. Atabey, S. Wei, X. Zhang, H. Gu, X. Yan, Y. Huang, L. Shao, Q. He, J. Zhu, L. Sun, A. S.Kucknoor, A. Wang, Z. Guo, “Fluorescent Electrospun Polyvinyl Alcohol/CdSe@ZnSNanocomposite Fibers”, Journal of Composite Materials, 47, 3175-3186 (2012)115. J. Zhu, S. Wei, Y. Li, S. Pallavkar, H. Lin, N. Haldolaarachchige, Z. Luo, D. P. Young and Z. Guo,“Comprehensive and Sustainable Recycling of Po
Oct 17, 2011 · Nanjing University of Technology Chemical Engineering MS, 2009 Lamar University Chemical Engineering Ph.D., 2013 . Chinese-American Chemical Society-Southwest Chapter 2011 1st place poster award, AIChE Conference, Environmental Division 2011 3rd place poster award, AIChE .
HYDRAULIC BOTTLE JACKS 1 HYDRAULIC BOTTLE JACKS K12150 - 1850kg Hydraulic Bottle Jack K12151 - 4000kg Hydraulic Bottle Jack K12152 - 6000kg Hydraulic Bottle Jack K12153 - 10000kg Hydraulic Bottle Jack K12157 - 20000kg Hydraulic Bottle Jack K12158 - 10000kg Hydraulic Bottle Jack K12159 - 20000kg Hydraulic Bottle Jack ED1 / JUNE 19 Distributed by Kincrome Tools and Equipment www.kincrome.com.au
The most common form of jacks available is the hydraulic bottle jack, screw jack and the toggle or scissor jack which is used to lift a vehicle to carry out maintenance on it (Parth 2016). The toggle of jack is commonly known as the scissor jack. Toggle jack (Figure 1) is a simple mechanism that
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Barnett, Mac. Jack Goes West Bad bunny Jack is back, with another madcap adventure. This time he and the Lady visit the wild west and Jack is accused of robbing a bank. Don’t miss the earlier titles: Hi Jack, Jack at Bat and Jack Bla
Scissor or Toggle Jack A toggle or Scissor jack is a device which lifts heavy equipment. The most common form is a car jack, floor jack or garage jack which lifts vehicles so that maintenance can be performed. Car jacks usually use toggle advantage to allow a human to lift a vehicle by manual force alone. More powerful jacks use hydraulic power toFile Size: 265KB
Floor Jack 2. Scissor Jack 3. Hydraulic Bottle Jack 4. Hi-lift Jack These manually operated jacks involve more human effort and are time consuming. The operator also needs to identify the current position where the jack needs to be placed in order to safely lift the car which somet
In the Scissor Jack mechanism, the bumps are rises by upward motion of scissor jack which is provided just below the bump. Various parts used in Scissor Jack mechanism are listed below Fig -3: Actual mechanism of scissor jack 3.1 Scissor Jack Screw jack along with electric motor can
Service Level Agreement For any other Business Broadband Service, We’ll aim to restore the Service within 24 hours of you reporting the Fault. Where we need a site visit to resolve a Fault, we only do site visits on Working Days during Working Hours (please see definitions at the end of the document). Service Credits are granted at our discretion date by which Exclusions (applicable to all .
