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Publications

 

Journal Covers - Tissue Engineering, Advanced Healthcare Materials

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  • L. Jin, Y. Tai, J. Nam (in press) Piezoelectric silk fibroin nanofibers: structural optimization to enhance piezoelectricity and biostability for neural tissue engineering. Nano Energy.
  • Z. Wang, Y. Tai, J. Nam, Y. Yin (2024) Integration of ZnS: Mn2+ Microparticles into ElectrospunPVDF-Based Nanofibers for Enhanced Mechanoluminescence. Advanced Functional Materials
  • Y. Tai, R. Goodrich, M. Maldonado, J. Ortiz, J. Martinez, G. Ico, A. Ko, H.P. Shih, J. Nam (2024) Nanofiber-microwell cell culture system for spatially patterned differentiation of pluripotent stem cells in 3D. Materials Today Bio.
  • Z. Ye, Y. Tai, Z. Han, S. Liu, M. L. Etheridge, J. L. Pasek-Allen, C. Shastry, Y. Liu, Z. Li, C. Chen, Z. Wang, J. C. Bischof, J. Nam, Y. Yin (2024) Engineering magnetic nanoclusters for highly efficient heating in radio-frequency nanowarming. Nano Letters.
  • Y. Tai, T.I. Tonmoy, S. Win, N.T. Brinkley, B.H. Park, J. Nam (2023) Enhanced peripheral nerve regeneration by mechano-electrical stimulation. npj Regenerative Medicine 8, 57.
  • Z. Wang, Y. Tai, J. Nam, Y. Yin (2023) Calcination-Induced Transformation of ZnS:Mn2+ Nanorods to Microparticles for Enhanced Mechanoluminescence. Chemistry of Materials 3c01136.
  • R. Goodrich, Y. Tai, Z. Ye, Y. Yin, J. Nam (2023) A Magneto-Responsive Hydrogel System for the Dynamic Mechano-Modulation of Stem Cell Niche. Advanced Functional Materials 2211288.
  • K. Ma, X. Xiong, W. Li, J. Nam, M. Qu, S. Kay (2022) The actin cytoskeleton-MRTF/SRF cascade transduces cellular physical niche cues to entrain circadian clock. Journal of Cell Science 135(19): jcs260094.
  • A. Banerjee, Y. Tai, N.V. Myung, J. Nam (2022) Non-destructive characterization of bone mineral content by machine learning-assisted electrochemical impedance spectroscopy. Frontiers in Bioengineering and Biotechnology 10:961108.
  • S. Yu, Y. Tai, J. Milam-Guerrero, J. Nam, N.V. Myung (2022) Electrospun organic piezoelectric nanofibers and their energy and bio applications. Nano Energy 107174.
  • S. Yu, J. Milam-Guerrero, Y. Tai, S. Yang, Y. Choi, J. Nam, and N.V. Myung (2021) Maximizing polyacrylonitrile nanofiber piezoelectric properties through optimization of electrospinning and post thermal treatment processes. ACS Applied Polymer Materials 4(1): 635-644.
  • Y. Tai, A. Banerjee, R. Goodrich, L. Jin, and J. Nam (2021) Development and Utilization of Multifunctional Polymeric Scaffolds for the regulation of Physical Cellular Microenvironments. Polymers 13(22): 3880.
  • A. Banerjee, T. Jariwala, Y. Baek, D. To, Y. Tai, J. Liu, H. Park, N. V. Myung, and J. Nam (2021) Magneto- and opto-stimuli responsive nanofibers as a controlled drug delivery system. Nanotechnology 32(50):5101.
  • Y. Tai, S. Yang, S. Yu, A. Banerjee, N. V. Myung, J. Nam (2021) Modulation of piezoelectric properties in electrospun PLLA nanofibers for application-specific self-powered stem cell culture platforms. Nano Energy 89:106444.  
  • Y. Tai, G. Ico, K. Low, J. Liu, T. Jariwala, D. Garcia-Viramontes, K. H. Lee, N. V. Myung, B. H. Park, J. Nam (2021) Formation of 3D Self-Organized Neuron-Glial Interface Derived from Neural Stem Cells via Mechano-Electrical Stimulation. Advanced Healthcare Materials 2100806.
  • A. Banerjee, T. Jariwala, S. Kim, Y. Tai, S. Chiang, H. Park, N.V. Myung, J. Nam (2021) A facile method for synthesizing polymeric nanofiber-fragments. Nano Select 202100194.
  • T. Jariwala, G. Ico, Y. Tai, H. Park, N. Myung and J. Nam (2021) Mechano-responsive piezoelectric nanofiber as an on-demand drug delivery vehicle. ACS Applied Bio Materials 4(4):3706-3715.
  • C. Horner, M. Maldonado, Y. Tai, R.M. Rony and J. Nam (2019)  Spatially regulated multi-phenotypic differentiation of stem cells in 3D via engineered mechanical gradient. ACS Applied Materials & Interfaces 11(49):45479-88.
  • S. Kim, G. Ico, Y. Bai, S. Yang, J. Lee, Y. Yin, N. Myung and J. Nam (2019) Utilization of magnetic field-driven microscopic motion for piezoelectric energy harvesting. Nanoscale 11:20527-533.
  • T. Lim, G. Ico, K. Jung, K.N. Bozhilov, J. Nam and A.A. Martinez-Morales (2018) Crystal growth and piezoelectric characterization of mechanically stable ZnO nanostructure arrays. CrystEngComm ​20:5688-94.
  • G. Ico, A. Myung, B.S. Kim, N.V. Myung and J. Nam (2018) Transformative piezoelectric enhancement of P(VDF-TrFE) synergistically driven by nanoscale dimensional reduction and thermal treatment. Nanoscale 10(6):2894-2901.
  • A. Brunelle, C. Horner, K. Low, G. Ico and J. Nam (2018) Electrospun thermosensitive hydrogel scaffold for enhanced chondrogenesis of human mesenchymal stem cells. Acta Biomaterialia 66:166-176.
  • C. Horner, K. Hirota, J. Liu, M. Maldonado, B.H. Park and J. Nam (2018) Magnitude-Dependent and Inversely-Related Osteogenic/Chondrogenic Differentiation of Human Mesenchymal Stem Cells by Dynamic Compressive Strain. Journal of Tissue Engineering and Regenerative Medicine 12(2):e637-e647.
  • M. Maldonado, R. Luu, G. Ico, A. Ospina, D. Myung, H. Shih and J. Nam (2017) Lineage- and developmental stage-specific mechano-modulation of induced pluripotent stem cell differentiation. Stem Cell Research & Therapy 8:216.
  • 37. P. Shirazi, G. Ico, M. Ma, C. Anderson, B.S. Kim, J. Nam and N.V. Myung (2017) Size-dependent piezoelectric properties of electrospun BaTiO3 for enhanced energy harvesting. Advanced Sustainable Systems 1(11):1700091.
  • K. Low*, L. Wong*, M. Maldonado, C. Manjunath, C. Horner, M. Perez, N.V. Myung and J. Nam (2017)  Physicoelectrochemical characterization of pluripotent stem cells during self‐renewal or differentiation by a multi‐modal monitoring system. Stem Cell Reports 8: 1-11. *: co-first author
  • M.J. Nalbandian, M. Zhang, J. Sanchez, J. Nam, D.M. Cwiertny and N.V. Myung (2017) Mesoporous θ-Alumina/Hematite (θ-Al2O3/Fe2O3) Composite Nanofibers for Heavy Metal Removal, Science of Advanced Materials 9(1): 22-29.
  • M. Maldonado, G. Ico, K. Low, R. Luu and J. Nam (2016) Enhanced Lineage-Specific Differentiation Efficiency of Human Induced Pluripotent Stem Cells by Engineering Colony Dimensionality Using Electrospun Scaffolds, Advanced Healthcare Materials 5(12): 1408-12. featured on the journal cover
  • M. Maldonado, R. Luu, M. Ramos and J. Nam (2016) ROCK Inhibitor Primes Human Induced Pluripotent Stem Cells to Selectively Differentiate Towards Mesendodermal Lineage via Epithelial-Mesenchymal Transition-like Modulation, Stem Cell Research 17(2): 222-227.
  • A.M. Blazek, J. Nam, R. Gupta, M. Pradhan, P. Perera, N.L. Weisleder, T.E. Hewett, A.M. Chaudhari, B. Lee, B. Leblebicioglu, T.A. Butterfield and S. Agarwal (2016) Exercise-Driven Metabolic Pathways in Healthy Cartilage, Osteoarthritis & Cartilage 24(7): 1210-22.
  • G. Ico, A. Showalter, W. Bosze, S.C. Gott, B.S. Kim, M.P. Rao, N.V. Myung and J. Nam (2016) Size-dependent piezoelectric and mechanical properties of electrospun P(VDF-TrFE) nanofibers, Journal of Materials Chemistry A 4, 2293-2304.
  • C. Horner, G. Ico, J. Johnson, Y. Zhao and J. Nam (2016) Microstructure-dependent mechanical properties of electrospun core-shell scaffolds at multi-scale levels, Journal of the Mechanical Behavior of Biomedical Materials 59: 207-219.
  • C. Horner, K. Low and J. Nam (2015) Electrospun scaffolds for cartilage regeneration, Nanocomposites for musculoskeletal tissue regeneration, ELSEVIER. featured on the book cover
  • M. Nalbandian, M. Zhang, J. Sanchez, Y. Choa, J. Nam, D. Cwiertny and N.V. Myung (2015) Synthesis and optimization of Fe2O3nanofibers for chromate adsorption from contaminated water sources, Chemosphere 144: 975-981.
  • J. Nam, P. Perera, R. Gordon, Y.H. Jeong, A.D. Blazek, D.G. Kim, B.C. Tee, Z. Sun, T.D. Eubank, Y. Zhao, B. Lablebecioglu, S. Liu, A. Litsky, N.L. Weisleder, B.S. Lee, T. Butterfield, A.L. Schneyer and S. Agarwal (2015) Follistatin-like 3 is a mediator of exercise-driven bone formation and strengthening, Bone 78: 62-70.
  • M. Maldonado, L. Wong, C. Echeverria, G. Ico, K. Low, T. Fujimoto, J. Johnson and J. Nam (2015) The effects of electrospun substrate-mediated cell colony morphology on the self-renewal of human induced pluripotent stem cells, Biomaterials 50: 10-19.
  • K. Low, C. Horner, C. Li, G. Ico, W. Bosze, N.V. Myung and J. Nam (2015) Composition-dependent sensing mechanism of electrospun conductive polymer composite nanofibers, Sensors and Actuators B 207: 235-242.
  • C. Li, K. Low, W. Bosze, J. Nam and N.V. Myung (2014) Electrospun Polyaniline/Poly (ethylene oxide) Composite Nanofibers Based Gas Sensor, Electroanalysis 26(4): 711-722.
  • K. Low, N. Chartuprayoon, C. Echeverria, C. Li, W. Bosze, N.V. Myung and J. Nam (2014) Polyaniline/poly(ε-caprolactone) composite electrospun nanofiber-based gas sensors: optimization of sensing properties by dopants and doping concentration, Nanotechnology 25(11): 115501.
  • D. Knapik, P. Perera, J. Nam, A. Blazek, B. Rath, B. Leblebicioglu, H. Das, L. Wu, T. Hewett, S. Agarwal, A. Robling, D. Flanigan, B. Lee and S. Agarwal (2014) Mechanosignaling in Bone Health, Trauma and Inflammation, Antioxidants and Redox Signal, 20(6): 970-985.
  • M. Maldonado and J. Nam (2013) The Role of Changes in Extracellular Matrix of Cartilage in the Presence of Inflammation on the Pathology of Osteoarthritis, Biomed Research International 2013:284813.
  • Chartuprayoon, N., Rheem, Y., Ng, J., Nam, J., Chen, W., and Myung, N. (2013) Polypyrrole nanoribbon based chemiresistive immunosensors for viral plant pathogen detection, Analytical Methods, 5(14): 3497-3502.
  • Nam, J., Perera, P., Rath, B., Agarwal, S. (2013) Dynamic Regulation of Bone Morphogenetic Proteins in Engineered Osteochondral Constructs by Biomechanical Stimulation. Tissue Engineering, Part A. Vol. 19:5-6 p.783-92. featured on the journal cover
  • Nam, J., Perera, P., Liu, J., Rath, B., Deschner, J., Gassner, R., Butterfield, T., Agarwal, S. (2011) Sequential alterations in catabolic and anabolic gene expression parallel pathological changes during progression of monoiodoacetate-induced arthritis. PLoS ONE. Vol. 6: 9 p.e24320.
  • Nam, J., Johnson, J., Lannutti, J., Agarwal, S. (2011) Modulation of embryonic mesenchymal progenitor cell differentitaion via control over pure mechanical modulus in electrospun nanofibers. Acta Biomaterialia. Vol. 7: 4 p.1516-24.
  • Nam, J., Perera, P., Liu, J., Wu, L., Butterfield, T., Agarwal, S. (2011) Transcriptome-wide gene regulation by gentel treadmill walking during the progression of monoiodoacetate induced arthritis. Arthritis and Rheumatism. Vol. 63: 6 p.1613-25. featured on the journal cover
  • Rath, B., Nam, J., Deschner, J., Schaumburger, J., Tingart, M., Grassel, S., Grifka, J., Agarwal, S. (2011) Biomechanical forces exert anabolic effects on ostroblasts by activation of SMAD 1/5/8 through type 1 BMP receptor. Biorheology. Vol. 48: 1 p.37-48.
  • Perera, P., Wypasek, E., Madhavan, S., Rath-Deschner, B., Liu, J., Nam, J., Rath, B., Anghelina, M., Huang, Y., Deschner, J., Piesco, N., Wu, C., Agarwal, S. (2010)  Integrin-linked kinase, H-Ras, ERK 1/2-dependent mechanosignaling mechanisms control Sox-9, Vegf and c-Myc expression and cell proliferation in articular chondrocytes. Arthritis Research and Therapy. Vol. 12: 3 p.R106.
  • Nam, J., Rath, B., Knobloch, T., Lannutti, J., Agarwal, S. (2009) Novel electrospun scaffolds for the molecular analysis of chondrocytes under dynamic compression. Tissue Engineering. Vol. 15: 3 p.513-23.
  • Zhao, Y., Zeng, H., Nam, J., Agarwal, S. (2009) Fabrication of skeletal muscle constructs by topographic activation of cell alignment. Biotechnology and Bioengineering. Vol. 102: 2 p.624-631. featured on the journal cover
  • Veleva, A., Heath, D., Johnson, J., Nam, J., Patterson, C., Lannutti, J., Cooper, S. (2009) Interactions between endothelial cells and electrospun methacrylic terpolymer fibers for engineered vascular replacements. Journal of Biomedical Materials Research. Vol. 91A: 4 p.1131-1139.
  • Nam, J., Aguda, B., Rath, B., Agarwal, S. (2009) Biomechanical thresholds regulating inflammation through the NF-kB pathway: experiments and modeling. PLoS ONE. Vol. 4: 4 p.e5262.
  • Nam, J., Huang, Y., Agarwal, S., Lannutti, J. (2008) Materials selection and residual solvent retention in biodegradable electrospun fibers. Journal of Applied Polymer Science. Vol. 107: 3 p.1547-1554.
  • Knobloch, T., Madhavan, S., Nam, J., Agarwal Jr, S., Agarwal, S. (2008) Regulation of chondrocytic gene expression by biomechanical signlas. Critical Reviews in Eukaryotic Gene Expression. Vol. 18: 2 p.139-150.
  • Rath, B., Nam, J., Lannutti, J., Agarwal, S. (2008) Compressive forces induce osteogenic gene expression in calvarial osteoblasts. Journal of Biomechanics. Vol. 41: 5 p.1095-103.
  • Anghelina, M., Sjostrom, D., Perera, P., Nam, J., Knobloch, T., Agarwal, S. (2008) Regulation of biomechanical signals by NF-kB transcription factors in chondrocytes. Biorheology. Vol. 45: 3-4 p.245-56.
  • Nam, J., Huang, Y., Agarwal, S., Lannutti, J. (2007) Improved cellular infiltration in electrospun fiber via engineered porosity. Tissue engineering. Vol. 13: 9 p.2249-2257.
  • Choi, H., Johnson, J., Nam, J., Farson, D., Lannutti, J. (2007) Structuring electrospun polycaprolactone nanofiber tissue scaffolds by femtosecond laser ablation. Journal of Laser Applications. Vol. 19: 4 p.225-231.
  • Nam, J., Lannutti, J. (2004) Localized densification during the stage II-III transition: compaction efficiency at high pressures. Journal of the American Ceramic Society. Vol. 87: 4 p.557-564.
  • Nam, J., Li, W., Lannutti, J. (2003) Density gradients and springback: environmental influences. Powder Technology. Vol. 133: 1-3 p.23-32.
  • Li, W., Nam, J., Lannutti, J. (2002) Density gradients formed during compaction of bronze powders: the origins of part-to-part variation. Metallurgical and Materials Transactions A-Physical Metallurgy and Materials Science. Vol. 33: 1 p.165-170.