Journals

    2017

  1. S. Mao, J. B. Chang, H. H. Pu, G. H. Lu, Q. Y. He, H. Zhang*, and J. H. Chen*, “Two-dimensional nanomaterial-based field-effect transistor for chemical and biological sensing,” Accepted to Chem. Soc. Rev. (IF=38.618)
  2. G. H. Zhou, H. H. Pu, J. B. Chang, X. Y. Sui, S. Mao, and J. H. Chen*, “Real-time and Sensitive Arsenic Ion Detection Using Black Phosphorus/Au NP/DTT Hybrid Structures,” Accepted to Sensors and Actuators B – Chemical.
  3. A. Maity, X. Y. Sui, C. Tarman, H. H. Pu, J. B. Chang, G. H. Zhou, R. Ren, S. Mao, and J. H. Chen*, “Pulse-driven Lab-on-a-chip capacitive lead ion detection with single layer reduced graphene oxide field-effect transistor (FET),” Accepted to ACS Sensors.
  4. W. B. Sun, X. Y. Li*, Q. D. Zhao, J. C. Mu, and J. H. Chen*, “Fe-Mn mixed oxide catalysts synthesized by one-step urea-precipitation method for the selective catalytic reduction of NOx with NH3 at low temperatures,” Accepted to Catalysis Letters.
  5. Y. T. Chen, R. Ren, H. H. Pu, X. R. Guo, J. B. Chang, G. H. Zhou, S. Mao, M. Kron*, and J. H. Chen*, “Field-effect Transistor Biosensor for Rapid Detection of Ebola Antigen,” Scientific Reports 7: 10974, 2017.
  6. Y. P. Wu, L. Huang, X. K. Huang, X. R. Guo, D. Liu, D. Zheng, X. L. Zhang, R. Ren, D. Y. Qu, and J. H. Chen*, “Room-temperature liquid metal-based self-healing anode for lithium-ion batteries with an ultra-long cycle life,” Accepted to Energy and Environmental Science. (IF=29.518)
  7. X. R. Guo, Y. Hou, R. Ren, and J. H. Chen*, “Crystallization evaluation by temperature-varied hydrothermal methods in MoS2/ graphene hybrids,” Accepted to NRL.
  8. H. H. Pu, S. H. Rhim, M. Gajdardziska-Josifovska, C. J. Hirschmugl, M. Weinert, and J. H. Chen*, “Magnetic Properties of Zigzag Graphene Nanoribbon Oxidized by Epoxy Chains,” Accepted to Materials Research Express.
  9. Y. Zhuang, F. Yu, J. Ma*, and J. H. Chen*, “Enhanced Adsorption Removal of Antibiotics from Aqueous Solutions by Modified Alginate/Graphene Double Network Porous Hydrogel,” Accepted to JCIS.
  10. Q. X. Lai, J. J. Zhu, Y. X. Zhao, Y. Y. Liang*, J. P. He, and J. H. Chen*, “MOF-based Metal-doping-induced Synthesis of Hierarchical Porous Cu-N/C Oxygen Reduction Electrocatalysts for Zn–air Battery,” Accepted to Small, 2017.
  11. K. Yanallah, F. Pontiga, and J. H. Chen*, “The effect of the electric wind on the spatial distribution of chemical species in the positive corona discharge,” Accepted to JPD – Applied Physics.
  12. B. Thakur, X. R. Guo, J. B. Chang, M. Kron, and J. H. Chen*, “Porous carbon and Prussian blue composite: a highly sensitive electrochemical platform for glucose biosensing,” Accepted to Sensing and Bio-Sensing Research, 2017.
  13. D. T. Zhu, H. H. Pu, P. Lv, Z. J. Zhu, C. H. Yang, R. L. Zheng, Z. Y. Wang, C. X. Liu, E. T. Hu, J. J. Zheng, K. H. Yu*, W. Wei, L. Y. Chen, and J. H. Chen*, ” Healing of reduced graphene oxide with methane + hydrogen plasma,” Accepted to Carbon.
  14. X. K. Huang, K. Y. Shi, J. Yang, G. Mao, and J. H. Chen*, “Engineering an S@MnO2@GO by in situ coating MnO2 onto S surface for Li-S batteries,” Accepted to Journal of Power Sources.
  15. S. Mao and J. H. Chen*, “Graphene-based Electronic Biosensors,” Accepted to JMR.
  16. S. Mao, H. H. Pu, J. B. Chang*, X. Y. Sui, G. H. Zhou, R. Ren, Y. T. Chen, R. Ren, Y. T. Chen, and J. H. Chen*, “Ultrasensitive Detection of Orthophosphate Ions with Reduced Graphene Oxide/Ferritin Field-effect Transistor Sensors,” Accepted to Environmental Science-Nano. (IF=5.896)
  17. J. J. Qian, H. H. Pu, Z. H. Wen, K.F. Cen, J. H. Chen, and Z. Bo*, “Interfacial Charge Transport Behavior and Thermal Profiles of Vertically-Oriented Graphene Bridged Supercapacitors,” Accepted to Physica Status Solidi B: Basic Solid State Physics. (IF=1.522)
  18. A. Banks, X. R. Guo, J. H. Chen, S. Kumpaty, and W. J. Zhang*, “Novel Bioprinting Method Using a Pectin Based Bioink,” Accepted to Technology and Health Care. (IF=0.678)
  19. Q. X. Lai, L. R. Zheng, Y. Y. Liang*, J. P. He, J. X. Zhao, and J. H. Chen*, “Metal-Organic-Framework-derived Fe-N/C Electrocatalyst with Five-coordinated Fe-Nx Sites for Advanced Oxygen Reduction in Acid Media,” ACS Catalysis 7(3), 1655–1663, 2017. (IF=9.307)
  20. L. J. Liu, X. R. Guo, R. Tallon, and J. H. Chen*, ” Highly Porous N-doped Graphene Nanosheets for Rapid Removal of Heavy Metals by Capacitive Deionization,” Chemical Communications 53(5), 881-884, 2017. (IF=6.567)
  21. X. F. Gao, J. Y. Li, S. Gollon, M. Qiu, D. S. Guan, J. H. Chen, and C. Yuan*, “A TiO2 Nanotube Network Electron Transport Layer for High Efficiency Perovskite Solar Cells,” Physical Chemistry and Chemical Physics 19(7), 4956-4961, 2017. (IF=4.449)
  22. Y. T. Chen, R. Ren, H. H. Pu, J. B. Chang, S. Mao*, and J. H. Chen*, “Field-Effect Transistor Biosensors with Two-dimensional Black Phosphorus Nanosheets,” Biosensors & Bioelectronics 89(1), 505–510, 2017. (Themed Issue on 2D Materials). (IF=7.476)
  23. 2016

  24. W. J. Zhang*, M. J. Bissen, E. S. Savela, J. N. Clausen, S. J. Fredricks, X. R. Guo, Z. R. Paquin, R. P. Dohn, I. J. Pavelich, A. L. Polovchak, M. J. Wedemeyer, B. E. Shilling, E. N. Dufner, A. C. O’Donnell, G. Rubio, L. R. Readnour, T. F. Brown, J. C. Lee, M. G. Kaltchev, J. H. Chen*, and C. S. Tritt, “Design of Artificial Red Blood Cells Using Polymeric Hydrogel Microcapsules: Hydrogel Stability Improvement and Polymer Selection,” International Journal of Artificial Organs 39(10), 518 – 523, 2016. (IF=1.005)
  25. T. Z. Huang*, S. Mao, M. Qiu, Z. L. Zhang, J. M. Yu, O. Mao, Y. H. Zhang, C. Yuan, and J. H. Chen*, “Nitrogen-boron Dipolar-doped Nanocarbon as High Efficiency Electrocatalyst for Oxygen Reduction,” Electrochimica Acta 222, 481-487, 2016. (IF=4.803)
  26. Q. X. Lai, Y. X. Zhao, Y. Y. Liang*, J. P. He, and J. H. Chen*, “In Situ Confinement Pyrolysis Transformation of ZIF-8 to Nitrogen-Enriched Meso-microporous Carbon Frameworks for Oxygen Reduction,” Advanced Functional Materials 26(45), 8334–8344, 2016. (IF=11.382)
  27. L. J. Liu, X. K. Huang, X. R. Guo, S. Mao, and J. H. Chen*, “Decorating In situ Ultrasmall Tin Particles on Crumpled N-doped Graphene for Lithium-Ion Batteries with a Long Life Cycle,” Journal of Power Sources 328, 482–491, 2016. (IF=6.227)
  28. Y. Zhuang, F. Yu, H. Chen, J. Zheng, J. Ma*, and J. H. Chen*, “Alginate/graphene Double-network Nanocomposite Hydrogel Bead with Low-swelling, Enhanced Mechanical Property, and Enhanced Adsorption Capacity,” Journal of Materials Chemistry A 4, 10885-10892, 2016. (IF=8.262)
  29. H. Y. Yuan, Y. Hou*, I. M. Abu-Reesh, J. H. Chen*, and Z. He*, “Oxygen Reduction Reaction Catalysts in Microbial Fuel Cells for Energy-efficient Wastewater Treatment: A Review,” Materials Horizon 3, 382-401, 2016. (IF=9.095)
  30. Y. Yang, H. J. Wang, L. L. Wang, Y. L. Ge, K. Kan, K. Y. Shi*, and J. H. Chen*, “A Novel Gas Sensor Based on Porous α-Ni(OH)2 Ultrathin Nanosheets/Reduced Graphene Oxide Composites for Room Temperature Detection of NOx,” New Journal of Chemistry 40, 4678-4686, 2016. (IF=3.277)
  31. Y. Hou, Z. H. Wen, S. M. Cui, X. L. Feng*, and J. H. Chen*, ” Strongly Coupled Ternary Hybrid Aerogels of N-deficient Porous Graphitic-C3N4 Nanosheets/N-Doped Graphene/NiFe-Layered Double Hydroxide for Solar-Driven Photoelectrochemical Water Oxidation,” Nano Letters 16(4), 2268–2277, 2016. (IF=13.779)
  32. Y. Hou, J. Y. Li, X. F. Gao, Z. H. Wen, C. Yuan*, and J. H. Chen*, “3D Dual-Confined Sulfur Encapsulated in Porous Carbon Nanosheets and Wrapped with Graphene Aerogels as Cathode for Advanced Lithium Sulfur Batteries,” Nanoscale 8, 8228-8235, 2016. (IF=7.394)
  33. G. H. Zhou, J. B. Chang, K. Y. Shi, S. Mao, X. Y. Sui, S. M. Cui, and J. H. Chen*, “Ultrasensitive Mercury Ion Detection Using DNA-functionalized Molybdenum Disulfide Nanosheet/Gold Nanoparticle Hybrid Field-Effect Transistor Device,” ACS Sensors 1(3), 295-302, 2016.
  34. J. Zhao, J. Yu, Y. Xie*, Z. G. Le, X. W. Hong, S. Q. Ci, J. H. Chen*, X. Y. Qing, W. J. Xie, and Z. H. Wen*, “Lanthanum and Neodymium Doped Barium Ferrite-TiO2/MWCNTs/poly(3-methyl thiophene) Composites with Nest Structures: Preparation, Characterization and Electromagnetic Microwave Absorption Properties,” Scientific Reports 6, 20496, 2016.. (IF= 5.228)
  35. Y. Hou, H. Y. Yuan, Z. H. Wen, S. M. Cui, X. R. Guo, Z. He*, and J. H. Chen*, “Nitrogen-doped Graphene/CoNi Alloy Encased within Bamboo-like Carbon Nanotube Hybrids as Cathode Catalysts in Microbial Fuel Cells,” Journal of Power Sources 307, 561-568, 2016. (IF=6.227)
  36. 2015

  37. R. Ren, M. S. Faber, R. Dziedzic, Z. H. Wen, S. Jin, S. Mao*, and J. H. Chen*, “Vertically-Aligned Metallic CoS2 Nanowires on Current Collectors for Supercapacitors with Excellent Cycling Performance,” Nanotechnology 26(49), 494001, 2015. (IF=3.573)
  38. S. M. Cui, H. H. Pu, S. A. Wells, Z. H. Wen, S. Mao, J. B. Chang, M. C. Hersam, and J. H. Chen*, “Ultrasensitive Sensitivity and Layer-dependent Sensing Performance of Phosphorene-based Gas Sensors,” Nature Communications 6, No. 3632, 2015. (IF=11.329)
  39. G. S. Zeng*, H. Li, S. Huang, X. Y. Wang, and J. H. Chen*, “Determination of Metastable Zone Width and the Primary Nucleation Kinetics of Sodium Sulfate,” Theoretical Foundations of Chemical Engineering 49(6), 869-876, 2015. (IF=0.547)
  40. X. R. Guo, G. H. Lu, and J. H. Chen*, “Graphene-based Materials for Photoanodes in Dye-Sensitized Solar Cells,” Frontiers in Energy Research 3, 50, 2015. doi: 10.3389/fenrg.2015.00050.
  41. S. Mao, X. K. Huang, J. B. Chang, S. M. Cui, G. H. Zhou, and J. H. Chen*, “One-Step Continuous Synthesis of Spherical Li4Ti5O12/graphene Composite as a High-Performance Lithium-ion Battery Anode,” NPG Asia Materials 7(11), e224, 2015. (IF=8.772)
  42. Y. Hou, S. M. Cui, Z. H. Wen, X. R. Guo, X. L. Feng*, and J. H. Chen*, “Strongly Coupled 3D Hybrids of N‐doped Porous Carbon Nanosheet/CoNi Alloy‐Encapsulated Carbon Nanotubes for Enhanced Electrocatalysis,” Small 11(44), 5940-5948, 2015. (Featured as Frontispiece) (IF=8.315)
  43. X. K. Huang, S. M. Cui, D. Wieboldt, P. B. Hallac, C. Fell, B. Metz, J. W. Jiang, and J. H. Chen*, “Hollow TiO2 as an Anode for Lithium Ion Batteries: Synthesis and In Situ Visualization of State of Charge,” Advanced Electronic Materials 1(12), 2015. (Featured as Inside Front Cover)
  44. H. Y. Yuan, Y. Hou, Z. H. Wen, X. R. Guo, J. H. Chen*, and Z. He*, “Porous Carbon Nanosheets Co-doped with Nitrogen and Sulfur for Oxygen Reduction Reaction in Microbial Fuel Cells,” ACS Applied Materials & Interfaces 7(33), 18672-18678, 2015. (IF=7.145)
  45. J. B. Chang, G. H. Zhou, X. F. Gao, S. Mao, S. M. Cui, L. E. Ocola, C. Yuan, and J. H. Chen*, “Real-time Detection of Mercury Ions in Water Using a Reduced Graphene Oxide/DNA Field-effect Transistor with Assistance of a Passivation Layer,” Sensing and Bio-Sensing Research 5, 97-104, 2015.
  46. J. Zhao, Y. Xie*, D. Guan, H. Hua, R. Zhong, Y. Qin, J. Fang, H. Liu, and J. H. Chen*, “BaFe12O19-chitosan Schiff-base Ag (I) Complexes Embedded in Carbon Nanotube Networks for High-performance Electromagnetic Material,” Scientific Reports 5, 12544, 2015. (IF=5.228)
  47. S. Mao, J. B. Chang, G. H. Zhou, and J. H. Chen*, “Nanomaterial-enabled Rapid Detection of Water Contaminants,” Small 11(40), 5336-5359, 2015. (IF=8.315)
  48. J. Zhao, Y. Xie*, D. S. Hu, D. S. Guan, J. H. Chen*, J. Yu, S. He, Y. Lu, H. L. Liu, S. K. Bao, and L. Wang, “Phenylenediamine–benzaldehyde Schiff Base Ag(I) Complexes Grown on Graphene with the Intercalated Structures for Eelectromagnetic Composites,” Synthetic Metals 204, 95-102, 2015. (IF=1.829)
  49. J. B. Chang, X. K. Huang, G. H. Zhou, S. M. Cui, S. Mao, and J. H. Chen*, “Three-Dimensional Carbon coated Si/RGO Nanostructures anchored Nickel Foams through Carbon Nanotubes for Li-Ion Battery Applications,” Nano Energy 15, 679-687, 2015. (IF=11.553)
  50. S. Q. Ci, Z. H. Wen*, Y. Y. Qian, S. Mao, S. M. Cui, and J. H. Chen*, “NiO-Microflower Formed by Nanowire-weaving Nanosheets with Interconnected Ni-network Decoration as Supercapacitor Electrode,” Scientific Reports 5, 2015. (IF=5.228)
  51. J. Z. Crouse, K. M. Mahuta, B. A. Mikulski, J. N. Harvestine, X. R. Guo, J. C. Lee, M. G. Kaltchev, K. S. Midelfort, J. H. Chen, and W. J. Zhang*, “Development and Characterization of Micro-Scale Red-Blood-Cell-Shaped Pectin-Oligochitosan Hydrogel Capsule System,” Journal of Applied Biomaterials and Functional Materials 13(4), 2015. (IF=0.934)
  52. Z. Bo, S. Mao, Z. J. Han, K. F. Cen, J. H. Chen*, and K. Ostrikov*, “Emerging Energy and Environmental Applications of Vertically-Oriented Graphenes,” Chemical Society Reviews 44(8), 2108-2121, 2015. (IF=34.09 )
  53. S. Q. Ci, Z. H. Wen, S. Mao, Y. Hou, S. M. Cui, Z. He, and J. H. Chen*, ” One-pot synthesis of high-performance Co/graphene electrocatalysts for glucose fuel cells free of enzymes and precious metals,” Chemical Communications 51(45), 9354-9357, 2015. (IF=6.567)
  54. R. Ren, Z. H. Wen, S. M. Cui, Y. Hou, X. R., Guo, and J. H. Chen*, “Controllable Synthesis and Tunable Photocatalytic Properties of Ti3+-doped TiO2,” Scientific Reports 5, 2015. (IF=5.228)
  55. L. R. Wu, L. X. Zhang, T. Meng, F. Yu, J. H. Chen*, and J. Ma, “Facile Synthesis of 3D Amino-functional Graphene-Sponge Composites Decorated by Graphene Nanodots with Enhanced Removal of Indoor Formaldehyde,” Aerosol and Air Quality Research 15(3), 1028-1034. 2015. (IF=2.393)
  56. Y. Zhuang, F. Yu, J. Ma, and J. H. Chen*, “Adsorption of Ciprofloxacin onto Graphene-Soy Protein Biocomposite,” New Journal of Chemistry 39(5), 3333-3336, 2015. (IF=3.277)
  57. Y. Zhuang,F. Yu, J. Ma*, and J. H. Chen*, “Facile Synthesis of Three-dimensional Graphene-soy Protein Aerogel Composites for Tetracycline Adsorption,” Desalination and Water Treatment 1-10, 2015. (IF=1.173)
  58. Y. Zhuang, F. Yu, J. Ma*, and J. H. Chen*, “Graphene as a Template and Structural Scaffold for the Synthesis of 3D Porous Bio-adsorbent to Remove Antibiotics from Water,” RSC Advances 5, 27964 – 27969, 2015. (IF=3.289)
  59. X. K. Huang, S. Mao, J. B. Chang, P. B. Hallac, C. Fell, Y. T. Luo, B. Metz, J. W. Jiang, P. T. Hurley, and J. H. Chen*, “Improving cyclic performance of Si anode for lithium-ion batteries by forming intermetallic surface,” RSC Advances 5(48), 38660-38664, 2015. (IF=3.289)
  60. S. M. Cui, X. R. Guo, R. Ren, G. Zhou, and J. H. Chen*, “Decoration of vertical graphene with aerosol nanoparticles for gas sensing,” Journal of Physics D: Applied Physics 48(31), 314008, 2015. (Invited Contribution) (IF=2.772)
  61. S. Q. Ci, S. Mao, Y. Hou, S. M. Cui, H. Kim, R. Ren, Z. H. Wen*, and J. H. Chen*, “Rational design of mesoporous NiFe-alloy-based hybrids for oxygen conversion electrocatalysis,” Journal of Materials Chemistry A 3(15), 7986-7993, 2015. (IF=8.262)
  62. E. C. Mattson, K. Pande, S. M. Cui, M. Weinert, J. H. Chen, and C. J. Hirschmugl*, “Investigation of NO2 adsorption on reduced graphene oxide,” Chemical Physics Letters 622, 86-91, 2015. (IF=1.860)
  63. X. W. Zhang, F. Meng, S. Mao, Q. Ding, M. Shearer, M. S. Faber, J. H. Chen, R. J. Hamers, S. Jin*, ” Amorphous MoSxCly Electrocatalyst and Heterostructure on Vertical Graphene for Efficient Electrochemical and Photoelectrochemical Hydrogen Generation,” Energy & Environmental Science 8(3), 862-868, 2015. (IF=25.427)
  64. H. Kim, X. K. Huang, Z. H. Wen, S. M. Cui, X. R. Guo and J. H. Chen*, “Novel Si Film/Carbon Nanofiber Hybrid as Anode Materials in Lithium-ion Batteries,” Journal of Materials Chemistry A 3(5), 1947-1952, 2015. (IF=8.262)
  65. B. Chen, Z. L. Zhu*, J. Ma*, Y. L. Qiu, and J. H. Chen, “Iron Oxide Supported Sulfhydryl-functionalized Multi-walled Carbon Nanotube for Removal of Arsenite from Aqueous Solution,” ChemPlusChem 80(4), 740-748, 2015. (IF=3.026)
  66. S. Mao, G. H. Lu, and J. H. Chen*, “Three-dimensional Graphene-based Composites for Energy Applications,” Nanoscale 7(16), 6924-6943, 2015. (Invited Review) (IF=7.394)
  67. J. Liu, Q. D. Zhao, X. Y. Li*, and J. H. Chen*, “Structure Sensitivity of Selective Catalytic Reduction of NO with Propylene over Cu-doped Ti0.5Zr0.5O2-δ Catalysts,” Applied Catalysis B 165, 519-528, 2015. (IF=7.435)
  68. J. Ma*, M. X. Yang, F. Yu, and J. H. Chen*, “Easy Solid-phase Synthesis of pH-insensitive Heterogeneous CNTs/FeS Fenton-like Catalyst for the Removal of Antibiotics from Aqueous Solution,” Journal of Colloid and Interface Science 444, 24-32, 2015. (IF=3.368)
  69. T. Z. Huang*, S. Mao, G. H. Zhou, Z. H. Wen, X. K. Huang, S. Q. Ci, and J. H. Chen*, “A high-performance catalyst support for methanol oxidation with graphene and vanadium carbonitride,” Nanoscale 7(4), 1301-1307, 2015. (IF=7.394)
  70. Y. Hou, J. Y. Li, Z. H. Wen, S. M. Cui, Y. C. Yuan*, and J. H. Chen*, “Co3O4 Nanoparticles Embedded in Nitrogen-doped Porous Carbon Dodecahedrons with Enhanced Electrochemical Properties for Lithium Storage and Water Splitting,” Nano Energy 12, 1-8, 2015. (IF=11.553)
  71. Y. Hou, Z. H. Wen*, S. M. Cui, S. Q. Ci, S. Mao, and J. H. Chen*, “An Advanced Nitrogen‐Doped Graphene/Cobalt‐Embedded Porous Carbon Polyhedron Hybrid for Efficient Catalysis of Oxygen Reduction and Water Splitting,” Advanced Functional Materials 25(6), 872-882, 2015. (Featured as Frontispiece) (IF=11.382)
  72. S. M. Cui, H. H. Pu, E. C. Mattson, Z. H. Wen, J. B. Chang, Y. Hou, C. J. Hirschmugl, and J. H. Chen*, “Engineering MoS2 Nanosheets through SnO2 Nanocrystal Decoration for Practical Sensing Applications,” Small 11(19), 2305-2313, 2015. (IF=8.315)
  73. X. K. Huang, S. M. Cui, J. B. Chang, P. B. Hallac, C. Fell, Y. T. Luo, B. Metz, J. W. Jiang, P. T. Hurley, and J. H. Chen*, ” A Hierarchical Tin/Carbon Composite as an Anode for Lithium‐Ion Batteries with a Long Cycle Life,” Angewandte Chemie International Edition 54(5), 1490-1493, 2015. (IF=11.709)
  74. S. Mao, Z. H. Wen, S. Q., Ci, X. R. Guo, K. Ostrikov, and J. H. Chen*, “Perpendicularly oriented MoSe2/graphene nanosheets as advanced electrocatalysts for hydrogen evolution,” Small 11(4), 414-419, 2015. (IF=8.315) (Featured as Back Cover)
  75. C. Y. Chen, F. Yu, H. M. Zhou, J. H. Chen, and J. Ma*, “Synthesis of Three-dimensional Graphene Electrodes and Their Applications in Capacitive Deionization,” Chemical Journal of Chinese Universities – Chinese 36(12), 2516-2522, 2015. (IF=0.791)
  76. X. Y. Chen, Y. R. Sun, F. Yu, J. H. Chen, and J. Ma*, “The Catalytic Properties for Reduction of Graphene-Based Aerogels and Their Applications,” Progress in Chemistry 27(11), 1542-1554, 2015. (IF=0.894)
  77. Y. R. Sun, M. X. Yang, F. Yu*, J. H. Chen, and J. Ma, “Synthesis of Graphene Aerogel Adsorbents and Their Applications in Water Treatment,” Progress in Chemistry 27(8), 1133-1146, 2015. (IF=0.894)
  78. 2014

  79. J. Ma, C. Li, F. Yu, and J. H. Chen*, “Brick-like” N-doped Graphene/carbon nanotubes Structure Forming Three-dimensional Films as High-performance Metal-free Counter Electrodes in Dye-sensitized Solar Cells,” Journal of Power Sources 273, 1048-1055, 2014. (IF=6.227)
  80. H. Kim, X. K. Huang, Z. H. Wen, S. M. Cui, and J. H. Chen*, “Novel Hybrid Carbon Nanofiber/Highly Branched Graphene Nanosheet for Anode Materials in Lithium-ion Batteries,” ACS Applied Materials & Interfaces 6(21), 18590–18596, 2014. (IF=7.145)
  81. J. Ma, C. Li, F. Yu, and J. H. Chen*, “3D Single-walled Carbon Nanotube/Graphene Aerogels as Pt-free Transparent Counter Electrodes Achieving High Efficiency (9.64%) for Dye-sensitized Solar Cells,” ChemSusChem 7(12), 3304–3311, 2014. (IF=7.657)
  82. G. H. Zhou, J. B. Chang, S. M. Cui, and J. H. Chen*, “Real-time Pb2+ Ion Detection Using Thermally Reduced Graphene Oxide Decorated with Functionalized Gold Nanoparticles,” ACS Applied Materials & Interfaces 6(21), 19235-19241, 2014. (IF=7.145)
  83. B. Zhang, Z. H. Wen, S. Q. Ci, J. H. Chen*, and Z. He, “Nitrogen-doped Activated Carbon as a Metal Free Catalyst for Hydrogen Production in Microbial Electrolysis Cells,” RSC Advances 4(90), 49161-49164, 2014. (IF=3.289)
  84. Z. J. Han, D. H. Seo, S. Yick, J. H. Chen, and K. Ostrikov*, “Mixed-valent MnOx-based Flexible Supercapacitor Electrodes with Ultrathin Carbon Nanotube and Graphene Oxide Supporting Layer,” NPG Asia Materials 6, e140, 2014. (IF=8.772)
  85. H. H. Pu, S. H. Rhim, M. Gajdardziska-Josifovska, C. J. Hirschmugl, M. Weinert, and J. H. Chen*, “A Statistical Thermodynamic Model for Monolayer Gas Adsorption on Graphene-based Materials: Implications for Gas Sensing Applications,” RSC Advances 4(88), 47481-47487, 2014. (IF=3.289)
  86. Y. Hou, J. Y. Li, Z. H. Wen, S. M. Cui, C. Yuan*, and J. H. Chen*, “N-Doped Graphene/Porous g-C3N4 Nanosheets Supported Layered-MoS2 Hybrid as Robust Anode Materials for Lithium-Ion Batteries,” Nano Energy 8, 157-164, 2014. (IF=11.553)
  87. B. Chen, Z. L. Zhu, S. X. Liu, J. Hong, J. Ma, Y. L. Qiu, and J. H. Chen, “Facile Hydrothermal Synthesis of Nanostructured Hollow Iron-Cerium Alkoxides and Their Superior Arsenic Adsorption Performance,” ACS Applied Materials & Interfaces 6(16), 14016-14025, 2014. (IF=7.145)
  88. B. Chen, Z. L. Zhu*, J. Ma*, M. X. Yang, J. Hong, X. H. Hu, Y. L. Qiu, and J. H. Chen*, “One-pot, Solid-phase Synthesis of Magnetic Multiwalled Carbon Nanotube/Iron oxide Composites and Their Application in Arsenic Removal,” Journal of Colloid and Interface Science 434, 9-17, 2014. (IF=3.368)
  89. S. M. Cui, H. H. Pu, E. C. Mattson, Z. H. Wen, J. B. Chang, Y. Hou, C. J. Hirschmugl, and J. H. Chen*, “In-situ Transient Voltage-Activated Reduced Graphene Oxide for Ultrasensitive Chemical Sensing,” Analytical Chemistry 86(15), 7516 – 7522, 2014. (IF=5.636)
  90. T. Z. Huang*, S. Mao, G. H. Zhou, Z. H. Wen, X. K. Huang, S. Q. Ci, and J. H. Chen*, “Hydrothermal Synthesis of Vanadium Nitride and Modulation of Its Catalytic Performance for Oxygen Reduction Reaction,” Nanoscale 6(16), 9608-9613, 2014. (IF=7.394)
  91. Y. Hou, B. Zhang, Z. H. Wen, S. M. Cui, X. R. Guo, Z. He*, and J. H. Chen*, “3D Hybrid of Layered MoS2/Nitrogen-Doped Graphene Nanosheets Aerogels: an Effective Catalyst for Hydrogen Evolution in Microbial Electrolysis Cells,” Journal of Materials Chemistry A 2(34), 13795-13800, 2014. (IF=8.262)
  92. J. Ma, M. X. Yang, Y. R. Sun, J. H. Chen, “Fabrication of Ag/TiO2 Nanotube Array with Enhanced Photocatalytic Degradation of Aqueous Organic Pollutant,” Physica E 58, 24-29, 2014. (IF=2.000)
  93. M. X. Yang, J. Ma, Y.R. Sun, X. Z. Xiong, C. L., Li, Q. Li, and J. H. Chen, “Synthesis of Carbon Nanotubes/FeS Fenton-like Catalyst and Its Catalytic Properties,” Chemical Journal of Chinese Universities 35(3), 570-575, 2014. (IF=0.799)
  94. B. Chen, Z. L. Zhu*, J. Hong, Z. P. Wen, J. Ma, Y. L. Qiu, and J. H. Chen*, “Nanocasted Synthesis of Ordered Mesoporous Cerium Iron Mixed Oxide and its Excellent Performances for As(V) and Cr(VI) Removal from Aqueous Solutions,” Dalton Transactions 43, 10767-10777, 2014. (IF=4.197).
  95. G. S. Zeng*, H. Li, S. L. Luo, X. Y. Wang, and J. H. Chen, “Effects of Ultrasonic Radiation on Induction Period and Nucleation Kinetics of Sodium Sulfate,” Korean Journal of Chemical Engineering 31(5), 807-811, 2014. (IF=1.166)
  96. J. Ke, X. Y. Li*, Q. D. Zhao, Y. Hou, and J. H. Chen*, “A Rapid and Ultrasensitive Quantum Dot Fluorescence Quenching Assay for Selective Detection of Mercury Ions in Drinking Water,” Scientific Reports 4, No. 5624, 2014. (IF=5.228)
  97. Z. Bo*, W. G. Zhu, Y. Yang, X. Tu, X. R. Shuai, H. C. Yang, Y. Hou, S. Mao, J. H. Chen, Z. H. Wang, J. H. Yan, and K. F. Cen, “Instantaneous Reduction of Graphene Oxide Paper for Supercapacitor Electrodes with Facile Liquid Permeation,” Journal of Physical Chemistry C 118(25), 13493–13502, 2014. (IF=4.509)
  98. Y. Xie*, J. Zhao, Z. G. Le, M. J. Li, J. H. Chen*, Y. H. Gao, Y. Huang, Y. C. Qin, R. Zhong, D. Zhou, and Y. Ling, ” Preparation and Electromagnetic Properties of Chitosan-decorated Ferrite-filled Multi-walled Carbon nanotube/Polythiophene Composites,” Composites Science and Technology 99, 141-146, 2014. (IF=3.897)
  99. Z. Bo*, Y. L. Tian, K. H. Yu, H. C. Yan, W. G. Zhu, J. H. Chen*, J. H. Yan, and K. F. Cen, “DC and Microwave Plasmas for Synthesis of Vertically-Oriented Graphene,” IEEE Transactions on Plasma Science 42(10), 2796 – 2797, 2014. (The 7th Triennial Special Issue on “Images in Plasma Science”) (IF=0.958)
  100. X. F. Gao, J. Y. Li, J. Baker, Y. Hou, D. S. Guan, J. H. Chen, and C. Yuan*, “Enhanced Photovoltaic Performance of Perovskite CH3NH3PbI3 Solar Cells with Free Standing TiO2 Nanotube Array Films,” Chemical Communications 50(48), 6368-6371, 2014. (IF=6.567)
  101. S. Mao, Z. H. Wen, Z. Bo, J. B. Chang, X. K. Huang, and J. H. Chen*, “Hierarchical Nanohybrids with Porous CNT-networks Decorated Crumpled Graphene Balls for Supercapacitors,” ACS Applied Materials & Interfaces 6(12), 9881–9889, 2014. (IF=7.145)
  102. Z. H. Wen, S. Q. Ci, Y. Hou, and J. H. Chen*, “Facile One-pot, One-step Synthesis of Carbon Nanoarchitecture for Advanced Multifunctional Electrocatalyst,” Angewandte Chemie International Edition 53(25), 6496–6500, 2014. (IF=11.709)
  103. J. B. Chang, G. H. Zhou, E. Christensen, R. Heideman, and J. H. Chen*, “Graphene-based Sensors for Detection of Heavy Metals: A Review,” Analytical Bioanalytical Chemistry (ABC), Special Issue on “Chemosensors and Chemoreception” 406(16), 3957-3975, 2014. (IF=3.436) (Top 10 most downloaded articles published in 2014)
  104. X. K. Huang, J. Yang, S. Mao, J. B. Chang, P. B. Hallac, C. Fell, B. Metz, J. W. Jiang, P. T. Hurley, and J. H. Chen*, “Controllable Green Synthesis of Hollow Si Anode for Long-cycle-life Lithium-ion Batteries,” Advanced Materials 26(25), 4326-4332, 2014. (IF=18.960)
  105. B. Zhang, Z. H. Wen, S. Q. Ci, S. Mao, J. H. Chen*, and Z. He*, “Synthesizing Nitrogen-doped Activated Carbon and Probing its Active Sites for Oxygen Reduction Reaction in Microbial Fuel Cells,” ACS Applied Materials & Interfaces 6(10), 7464–7470, 2014. (IF=7.145)
  106. Y. Hou, T. Z. Huang, S. Mao, S. M. Cui, Z. H. Wen, and J. H. Chen*, “Metal−Organic Framework-derived Nitrogen-Doped Core-Shell-Structured Porous Fe/Fe3C@C Nanoboxes Supported on Graphene Sheets for Efficient Oxygen Reduction Reaction,” Advanced Energy Materials 4(11), 2014. (IF=16.146)
  107. Z. Bo, X. R. Shuai, Z. H. Wen, H. C. Yang, J. J. Qian, S. Mao*, J. H. Chen*, J. H. Yan, and K. F. Cen, “Green Preparation of Reduced Graphene Oxide for Sensing and Energy Storage Applications,” Scientific Reports 4, No. 4684, 2014. (IF=5.228)
  108. S. Q. Ci, S. Mao, T. Z. Huang, Z. H. Wen*, D. A. Steeber, and J. H. Chen*, “Enzymeless Glucose Detection Based on CoO/Graphene Microsphere Hybrids,” Electroanalysis 26(6), 1326-1334, 2014. (IF=2.138)
  109. K. H. Yu and J. H. Chen*, “Graphene-based Transparent Conductive Electrodes,” Material Matters 9(1), 6-10, 2014.
  110. J. N. Harvestine, B. A. Mikulski, K. M. Mahuta, J. Z. Crouse, X. R. Guo, J. C. Lee, K. S. Midelfort, J. H. Chen, X. M He, and W. J. Zhang*, “A Novel Red Blood Cell-Shaped Pectin-Oligochitosan Hydrogel System,” Particle & Particle Systems Characterization 31(9), 955-959, 2014. (IF=3.081)
  111. S. Mao, G. H. Lu, and J. H. Chen*, “Nanocarbon-based Gas Sensors: Progress and Challenges,” Journal of Materials Chemistry A 2(16), 5573-5579, 2014. (Invited Highlight) (IF=8.262)
  112. F. Yu*, L. Chen, J. Ma*, Y. R. Sun, Q. Li, C. L. Li, M. X. Yang, and J. H. Chen*, “Self-regenerative Adsorbent based on the Cross-linking Chitosan for Adsorbing and Mineralizing Azo Dye,” RSC Advances 4(11), 5518-5523, 2014. (IF=3.289)
  113. S. Mao, Z. H. Wen, T. Z. Huang, Y. Hou, and J. H. Chen*, “High-performance Bi-functional Electrocatalysts of Crumpled Graphene-Cobalt Oxide Nanohybrids for Oxygen Reduction and Evolution Reactions,” Energy & Environmental Science 7(2), 609-616, 2014. (IF=25.427)
  114. J. B. Chang, X. K. Huang, G. H. Zhou, S. M. Cui, P. B. Hallac, J. W. Jiang, P. T. Hurley, and J. H. Chen*, “Multilayered Si Nanoparticle/Reduced Graphene Oxide Hybrid as a Lithium-Ion Battery Anode,” Advanced Materials 26(5), 758-764, 2014. (Front Cover) (IF=18.960)
  115. Y. Qin, Y. J. Zhou, J. Li, J. Ma, D. L. Shi, J. H. Chen*, and J. H. Yang*, “Fabrication of Hierarchical Core-Shell Au@ZnO Heteroarchitectures Initiated by Heteroseed Assembly for Photocatalytic Applications,” Journal of Colloid and Interface Science 418C, 171-177, 2014. (IF=3.368)
  116. S. Q. Ci, T. Z. Huang, Z. H. Wen*, S. M. Cui, S. Mao, D. A. Steeber, and J. H. Chen*, ” Nickel Oxide Hollow Microsphere for Non-enzyme Glucose Detection,” Biosensors & Bioelectronics 54, 251-257, 2014. (IF=7.476)
  117. C. Y. Zhao, L. J. Liu, H. L. Zhao, A. Krall, Z. H. Wen, J. H. Chen, P. T. Hurley, J. W. Jiang, and Y. Li*, “Sulfur-Infiltrated Porous Carbon Microspheres with Controllable Multi-Modal Pore Size Distribution for High Energy Lithium-Sulfur Batteries,” Nanoscale 6(1), 882-888, 2014. (IF=7.394)
  118. Z. H. Wen, G. H. Lu, S. Mao, S. M. Cui, H. Kim, S. Q. Ci, J. W. Jiang, P. T. Hurley, and J. H. Chen*, “Rational Design of Hollow Si/SiC-C Hybrid Nanosphere as Anode of Lithium-ion Batteries,” Nanoscale 6(1), 342-351, 2014. (IF=7.394)
  119. S. Yun*, H. H. Pu, L. Wang, J. H. Chen, and T. L. Ma*, “Enhanced Performance of HfO2-MGC Counter Electrode and DFT/CPMD Calculation for Triiodide/Iodide and Disulfide/Thiolate Redox Couples Dye-sensitized Solar Cells,” ChemSusChem 7(2), 442-450, 2014. (IF=7.657)
  120. 2013

  121. Y. Hou, Z. H. Wen, S. M. Cui, X. R. Guo, and J. H. Chen*, “Constructing 2D Porous Graphitic C3N4 Nanosheets/Nitrogen-Doped Graphene/Layered MoS2 Ternary Nanojunction with Enhanced Photoelectrochemical Activity,” Advanced Materials 25(43), 6291-6297, 2013. (VIP paper) (IF=18.960)
  122. Z. Bo*, W. G. Zhu, W. Ma, Z. H. Wen*, X. R. Shuai, J. H. Chen, X. L. Feng*, J. H. Yan, K. F. Cen, “Vertically-oriented Graphene as a Nanoscale Electrical Brush to Significantly Improve Electrical Contact between Active Material and Current Collector in a Graphene-based Supercapacitor,” Advanced Materials 25(40), 5799-5806, 2013. (Featured as Frontispiece) (IF=18.960)
  123. S. Yun, H. Zhang, H. H. Pu, J. H. Chen, A. Hagfeldt, and T. L. Ma*, “Metal Oxide/Carbide/Carbon Nanocomposites: In Situ Synthesis, Characterization, Calculation, and Its Applications as Efficient Counter Electrode Catalyst for Dye-Sensitized Solar Cells,” Advanced Energy Materials 3(11), 1407-1412, 2013. (IF=16.146)
  124. E. C. Mattson, J. E. Johns, K. Pande, B. Bosch, S. M. Cui, M. Gajdardziska-Josifovska, M. Weinert, J. H. Chen, M. C. Hersam, and C. J. Hirschmugl*, “Vibrational Excitations and Low-energy Electronic Structure of Epoxide-decorated Graphene,” The Journal of Physical Chemistry Letters 4(15), 2441-2454, 2013. (IF=8.539)
  125. H. H. Pu, E. Mattson, S. S. Rhim, M. Gajdardziksa-Josifovska, C. J. Hirschmugl*, M. Weinert*, and J. H. Chen*, “First-principles Study on Infrared Properties of Semiconducting Graphene Monoxide,” Journal of Applied Physics 114, 164313, 2013. (IF=2.101)
  126. Z. H. Wen, S. Q. Ci, S. Mao, S. M. Cui, Z. He*, and J. H. Chen*, “TiO2/CNT Nanohybrids for High-performance Anode of Lithium-Ion Batteries,” Nanoscale Research Letters 8(499), 2013. (IF=2.584)
  127. X. K. Huang, J. B. Chang, S. M. Cui, P. B. Hallac, J. W. Jiang, P. T. Hurley, and J. H. Chen*, “A General Strategy to Improve Cyclic Performance of Si Anodes for Lithium-Ion Batteries: Forming Intermetallic Interphases between Si and Metals,” ACS Applied Materials & Interfaces 5(22), 11965-11970, 2013. (IF=7.145)
  128. T. Z. Huang*, S. Mao, H. H. Pu, Z. H. Wen, X. K. Huang, S. Q. Ci, and J. H. Chen*, “Nitrogen-doped Graphene-Vanadium Carbide Hybrids as High-performance Oxygen Reduction Reaction Electrocatalyst Support in Alkaline Media,” Journal of Materials Chemistry A 1(43), 13404-13410, 2013. (IF=8.262).
  129. J. Ma, L. Zhou, C. Li, J. H. Yang, T. Meng, H. M. Zhou, M. X. Yang, F. Yu, and J. H. Chen*, “Surfactant-free Synthesis of Graphene-functionalized Carbon Nanotube Film as a Catalytic Counter Electrode in Dye-sensitized Solar Cells,” Journal of Power Sources 247, 999-1004, 2013. (IF=6.227)
  130. X. F. Gao, D. S. Guan, J. W. Huo, J. H. Chen, and C. Yuan*, “Free Standing TiO2 Nanotube Array Electrodes with Ultra-Thin Al2O3 Barrier Layer and TiCl4 Surface Modification for High Efficiency Dye Sensitized Solar Cells,” Nanoscale 5(21), 10438-10446, 2013. (IF=7.394)
  131. B. Chen, Z. L. Zhu*, J. Ma*, Y. L. Qiu, and J. H. Chen, “Surfactant Assisted Ce-Fe Mixed Oxide Decorated Multiwalled Carbon Nanotubes and Their Arsenic Adsorption Performance,” Journal of Materials Chemistry A 1(37), 11355-11367, 2013. (IF=8.262)
  132. K. Yanallah, F. Pontiga, and J. H. Chen*, “Positive Corona Discharge in Wire-plane Geometry: A Semi-analytical Approach,” Journal of Physics D: Applied Physics 46(34), 345202, 2013. (IF=2.772)
  133. S. M. Cui, S. Mao, G. H. Lu, and J. H. Chen*, “Graphene Coupled with Nanocrystals: Opportunities and Challenges for Energy and Sensing Applications,” The Journal of Physical Chemistry Letters 4(15), 2441-2454, 2013. (Invited Perspective, IF=8.539)
  134. T. Z. Huang*, J. M. Yu, Z. M. Liu, S. Mao, Y. H. Zhang, G. X. Sun, J. T. Han, H. Ren, and J. H. Chen*, “Influence of Partial Substitution of Mo for Cr on Structure and Hydrogen Storage Characteristics of Non-stoichiometric Laves Phase TiCrB0.9B Alloy,” International Journal of Hydrogen Energy 38(27), 11955-11963, 2013. (IF=3.313)
  135. T. Z. Huang*, S. Mao, J. M. Yu, Z. H. Wen, and J. H. Chen*, “Effects of N and F Elemental Doping on Structure and Photocatalytic Properties of Anatase TiO2,” RSC Advances 3(37), 16657-16664, 2013. (IF=3.289)
  136. H. H. Pu, S. S. Rhim, C. J. Hirschmugl, M. Gajdardziksa-Josifovska, M. Weinert*, and J. H. Chen*, “Anisotropic Thermal Conductivity of Semiconducting Graphene Monoxide,” Applied Physics Letters 102(22), 223101, 2013. (IF=3.142)
  137. X. K. Huang, H. Kim, S. M. Cui, P. T. Hurley, and J. H. Chen*, “High Initial Coulombic Efficiency Si Composite Anode for Lithium-ion Batteries,” Energy Technology 1(5-6), 305-308, 2013. (IF=2.557)
  138. E. C. Mattson, K. Pande, S. M. Cui, M. Unger, H. H. Pu, G. H. Lu, M. A. Schofield, M. Gajdardziska-Josifovska, M. Weinert, J. H. Chen, and C. J. Hirschmugl*, “Exploring Adsorption and Reactivity of NH3 on Reduced Graphene Oxide,” Journal of Physical Chemistry C 117(20), 10698–10707, 2013. (IF=4.509)
  139. X. F. Gao, J. H. Chen, and C. Yuan*, “Free-Standing TiO2 Nanotube Arrays with Ultraprecise Control of Wall Thickness for Dye-Sensitized Solar Cells,” Journal of Power Sources 240, 503-509, 2013. (IF=6.227)
  140. S. Mao, K. H. Yu, J. B. Chang, D. A. Steeber, L. Ocola, and J. H. Chen*, “Direct Growth of Vertically-aligned Graphene for Field-Effect Transistor Biosensor,” Scientific Reports 3, No. 1696, 2013. (IF=5.228)
  141. Z. Bo*, Y. Yang, K. H. Yu, J. H. Chen, J. H. Yan, and K. F. Cen, “Plasma-Enhanced Chemical Vapor Deposition Synthesis of Vertically-oriented Graphene Nanosheets: A Review,” Nanoscale 5(12), 5180-5204, 2013. (IF=7.394)
  142. Z. H. Wen, W. Wu, H. Zhang, Y. M. Wu, S. M. Cui, S. Mao, T. Z. Huang, J. H. Li*, and J. H. Chen*, “Ultrahigh-Efficiency Photocatalysts Based on Mesoporous Pt-WO3 Nanohybrids,” Physical Chemistry Chemical Physics 15(18), 6773-6778, 2013. (IF=4.493)
  143. S. M. Cui, S. Mao, Z. H. Wen, J. B. Chang, Y. Zhang, and J. H. Chen*, “Controllable Synthesis of Silver Nanoparticles Functionalized-Reduced Graphene Oxide Hybrids for Ammonia Detection,” Analyst 138(10), 2877-2882, 2013. (IF=4.107)
  144. J. B. Chang, S. Mao, Y. Zhang, S. M. Cui, G. H. Zhou, X. G. Wu, C. H. Yang, and J. H. Chen*, “Ultrasonic-assisted Self-assembly of Mono-layer Graphene Oxide for Detection of Escherichia Coli,” Nanoscale 5(9), 3620-3626, 2013. (IF=7.394)
  145. J. Ma, Z. L. Zhu, B. Chen, M. X. Yang, H. M. Zhou, C. Li, F. Yu*, and J. H. Chen*, “One-pot, Large-scale Synthesis of Magnetic Activated Carbon Nanotubes and Their Applications for Arsenate Removal,” Journal of Materials Chemistry A 1(15), 4662-4666, 2013. (IF=8.262)
  146. S. M. Cui, Z. H. Wen, E. C. Mattson, S. Mao, J. B. Chang, C. J. Hirschmugl, M. Gajdardziksa-Josifovska, M. Weinert, and J. H. Chen*, “Indium-Doped SnO2-Graphene Nanohybrids: Simple One-Pot Synthesis and Their Selective Detection of NO2,” Journal of Materials Chemistry A 1(14), 4462-4467, 2013. (IF=8.262)
  147. H. H. Pu, S. S. Rhim, C. J. Hirschmugl, M. Gajdardziksa-Josifovska, M. Weinert*, and J. H. Chen*, “Strain-Induced Sensitive Band Gap Engineering of Graphene Monoxide and Its Effect on Graphene,” Physical Review B 87(8), 085417 2013. (IF=3.736)
  148. Z. H. Wen, S. Q. Ci, S. Mao, S. M. Cui, G. H. Lu, K. H. Yu, S. L. Luo, Z. He*, and J. H. Chen*, “TiO2 Nanoparticles-decorated Carbon Nanotubes for Significantly Improved Bioelectricity Generation in Microbial Fuel Cells,” Journal of Power Sources 234, 100-106, 2013. (IF=6.227)
  149. Z. H. Wen, G. H. Lu, S. Mao, H. Kim, S. M. Cui, K. H. Yu, X. K. Huang, P. T. Hurley, O. Mao, and J. H. Chen*, “Silicon Nanotube Anode for Lithium-ion Batteries,” Electrochemistry Communications 29(1), 67-70, 2013. (IF=4.847)
  150. G. H. Lu and J. H. Chen*, “Enhancing Undergraduate Student Learning and Research Experience through Hands-on Experiments on Novel Nanohybrid Devices and Systems,” Journal of Nano Education 5(1), 61-69, 2013.
  151. G. H. Lu, K. H. Yu, Z. H. Wen, and J. H. Chen*, “Semiconducting Graphene: Converting Graphene from Semimetal to Semiconductor,” Nanoscale 5(4), 1353-1368, 2013. (Invited Review, IF=7.394)
  152. Y. Zhang, S. M. Cui, J. B. Chang, L. E. Ocola, and J. H. Chen*, “Highly Sensitive Room Temperature Carbon Monoxide Detection Using SnO2 Nanoparticle-Decorated Semiconducting Single-walled Carbon Nanotubes,” Nanotechnology 24(2), 025503, 2013. (IF=3.573)
  153. J. Ma*, F. Yu, Z. H. Wen, M. X. Yang, H. M. Zhou, C. Li, L. Jin, L. Zhou, L. Chen, Z. W. Yuan, and J. H. Chen*, “A Facile One-pot Method for Synthesis of Low-cost Iron Oxide/Activated Carbon Nanotube Electrode Materials for Lithium-ion Batteries,” Dalton Transactions 42(5), 1356-1359, 2013. (IF=4.197)
  154. X. Lin, K. H. Yu, G. H. Lu, J. H. Chen*, and C. Yuan*, “Improving Conversion Efficiency of Quantum Dot and Dye Co-Sensitized Solar Cells through Atomic Layer Deposition of TiO2 Interfacial Layer,” Journal of Physics D: Applied Physics 46(2), 024004, 2013. (IF=2.772) (Invited Paper)
  155. Z. Bo, G. H. Lu, P. X. Wang, and J. H. Chen*, “Dimensional analysis of detrimental ozone generation by negative wire-to-plate corona discharge in both dry and humid air,” Ozone: Science & Engineering 35(1), 31-37, 2013 (IF=0.953)
  156. J. B. Chang, S. Mao, Y. Zhang, S. M. Cui, D. A. Steeber, and J. H. Chen*, “Single-Walled Carbon Nanotube Field-Effect Transistors with Graphene Oxide Passivation for Fast, Selective Detection of Proteins,” Biosensors & Bioelectronics 42, 186-192, 2013. (IF=7.476)
  157. K. H. Yu, G. H. Lu, Z. H. Wen, H. J. Kim, Y. Y. Qian, E. Andrew, S. Mao, and J. H. Chen*, “Hierarchical Vertically-Oriented Graphene as a Catalytic Counter Electrode in Dye-Sensitized Solar Cells,” Journal of Materials Chemistry A 1(2), 188-193, 2013. (IF=8.262)
  158. 2012

  159. J. Ma, F. Yu*, L. Zhou, L. Jin, M. X. Yang, J. S. Luan, Y. H. Tang, H. B. Fan, Z. W. Yuan, and J. H. Chen*, “Enhanced Adsorptive Removal of Methyl Orange and Methylene Blue from Aqueous Solution by Alkali-activated Multiwalled Carbon Nanotubes,” ACS Applied Materials & Interfaces 4(11), 5749-5760, 2012. (IF=7.145)
  160. S. M. Cui, H. H. Pu, G. H. Lu, Z. H. Wen, E. C. Mattson, C. J. Hirschmugl, M. Gajdardziksa-Josifovska, M. Weinert, and J. H. Chen*, “Fast and Selective Room-temperature NH3 Sensors Using Silver Nanocrystals-Functionalized Carbon Nanotubes,” ACS Applied Materials & Interfaces 4(9), 4898-4904, 2012. (IF=7.145)
  161. S. Mao, Z. H. Wen, H. J. Kim, G. H. Lu, P. T. Hurley, and J. H. Chen*, “A General Approach to One-Pot Fabrication of Crumpled Graphene-Based Nanohybrids for Energy Applications,” ACS Nano 6(8), 7505-7513, 2012. (IF=12.881)
  162. J. Ma*, J. H. Chen*, F. Yu, Z. W. Yuan, and L. L. Yu, “A Facile One-pot Method for Low-cost Synthesis of Magnetic Carbon Nanotubes and Their Applications for Dye Removal,” New Journal of Chemistry 36(10), 1940-1943, 2012. (IF=3.277)
  163. S. M. Cui, H. H. Pu, G. H. Lu, Z. H. Wen, E. C. Mattson, C. J. Hirschmugl, M. Gajdardziksa-Josifovska, M. Weinert, and J. H. Chen*, “Ag Nanocrystal as a Promoter for Carbon Nanotube Based Room-temperature Gas Sensors,” Nanoscale 4(19), 5887-5894, 2012. (IF=7.394)
  164. M. Mashok, K. H. Yu, S. M. Cui, S. Mao, G. H. Lu*, and J. H. Chen*, “Modulating Gas Sensing Properties of CuO Nanowires through Creation of Discrete Nanosized P-N Junctions on Their Surfaces,” ACS Applied Materials & Interfaces 4(8), 4192-4199, 2012. (IF=7.145)
  165. Z. H. Wen, X. C. Wang, S. Mao, Z. Bo, H. Kim, S. M. Cui, G. H. Lu, X. L. Feng*, and J. H. Chen*, “Crumpled Nitrogen-Doped Graphene Nanosheets with Ultrahigh Pore Volume for High-performance Supercapacitor,” Advanced Materials 24(41), 5610-5616, 2012. (IF=18.960)
  166. H. J. Kim, Z. H. Wen, K. H. Yu, O. Mao, and J. H. Chen*, “Straightforward Fabrication of Highly Branched Graphene Nanosheet Array for Li-ion Battery Anode,” Journal of Materials Chemistry 22(31), 15514-15518, 2012. (IF=6.626)
  167. K. H. Yu, X. Lin, G. H. Lu, Z. H. Wen, C. Yuan*, and J. H. Chen*, “Optimizing CdS Quantum Dot Sensitized Solar Cell Performance through Atomic Layer Deposition of Ultrathin TiO2 Coating,” RSC Advances 2(20), 7843-7848, 2012. (IF=3.289)
  168. F. Yu, M. X. Yang, F. L. Li, C. Su, B. Y. Ma, Z. W. Yuan, J. H. Chen*, and J. Ma*, “The Growth Mechanism of Single-walled Carbon Nanotubes with a Controlled Diameter,” Physica E 44(10), 2032-2040, 2012. (IF=2.000)
  169. L. Xiao, S. Q. Ci, Z. H. Wen, J. H. Chen*, and Z. He*, “Carbon/Iron-based Nanorod Catalysts for Hydrogen Production in Microbial Electrolysis Cells,” Nano Energy 1(5), 751-756, 2012. (IF=11.553)
  170. Z. Bo, S. Mao, K. H. Yu, S. M. Cui, and J. H. Chen*, “One-step Fabrication and Capacitive Behavior of Electrochemical Double Layer Capacitor Electrodes Using Vertically-oriented Graphene Directly Grown on Metal,” Carbon 50(12), 4379-4387, 2012. (IF=6.198)
  171. G. H. Lu, K. H. Yu, and J. H. Chen*, “Ordered Assembly of Sorted Single-Walled Carbon Nanotubes by Drying an Aqueous Droplet on a Meshed Substrate,” Journal of Nanoscience and Nanotechnology 12(9), 6968-6976, 2012. (IF=1.556)
  172. K. H. Chen, G. H. Lu, J. B. Chang, S. Mao, K. H. Yu, S. M. Cui, and J. H. Chen*, “Rapid Hg(II) Ion Detection Using Thermally Reduced Graphene Oxide Decorated with Functionalized Gold Nanoparticles,” Analytical Chemistry 84(9), 4057-4062, 2012. (IF=5.636)
  173. S. Mao, S. M. Cui, G. H. Lu, K. H. Yu, Z. H. Wen, and J. H. Chen*, “Tuning Gas-sensing Properties of Reduced Graphene Oxide Using Tin Oxide Nanocrystals,” Journal of Materials Chemistry 22(22), 11009-11013, 2012. (IF=6.626)
  174. F. Yu, J. H. Chen*, L. Chen, J. Huai, W. Y. Gong, Z. W. Yuan, J. H. Wang, and J. Ma*, “Magnetic Carbon Nanotubes Synthesis by Fenton’s Reagent Method and Their Potential Application for Removal of Azo Dye from Aqueous Solution,” Journal of Colloid and Interface Science 378(1), 175-183, 2012. (IF=3.368)
  175. Z. H. Wen, S. Q. Ci, F. Zhang, X. L. Feng, S. M. Cui, S. Mao, S. L. Luo, and Z. He*, and J. H. Chen*, “Nitrogen-Enriched Core-Shell Structured Fe/Fe3C-C Nanorods as Advanced Catalysts for Oxygen Reduction Reaction,” Advanced Materials 24(11), 1399-1404, 2012. (Featured as Frontispiece) (IF=18.960)
  176. S. M. Cui, E. C. Mattson, G. H. Lu, M. Gajdardziska-Josifovska, C. Hirschmugl, and J. H. Chen*, “Tailoring Nanoparticle Products through Electrode Material and Oxygen Partial Pressure in a Mini-arc Plasma Reactor,” Journal of Nanoparticle Research 14(3), 744, 2012. (IF=2.278)
  177. S. Mao, S. M. Cui, K. H. Yu, Z. H. Wen, G. H. Lu, and J. H. Chen*, “Ultrafast Hydrogen Sensing through Hybrids of Semiconducting Single-walled Carbon Nanotubes and Tin Oxide Nanocrystals,” Nanoscale 4(4), 1275-1279, 2012. (IF=7.394)
  178. Z. H. Wen, S. M. Cui, H. J. Kim, S. Mao, K. H. Yu, G. H. Lu, H. H. Pu, O. Mao, and J. H. Chen*, “Binding Sn-Based Nanoparticles on Graphene as Anode of Lithium Ions Batteries,” Journal of Materials Chemistry 22(8), 3300-3306, 2012. (IF=6.626)
  179. K. H. Yu, G. H. Lu, K. H. Chen, S. Mao, H. Kim, and J. H. Chen*, “Controllable Photoelectron Transfer in CdSe Nanocrystal-Carbon Nanotube Hybrid Structures,” Nanoscale 4(3), 742-746, 2012. (IF=7.394)
  180. S. Mao, H. H. Pu, and J. H. Chen*, “Graphene Oxide and Its Reduction: Modeling and Experimental Progress,” RSC Advances 2(7), 2643-2662, 2012. (Top 10 accessed article in March, April, and May 2012) (IF=3.289)
  181. S. Q. Ci, Z. H. Wen, J. H. Chen*, and Z. He*, “Bamboo-like Nitrogen-doped Carbon Nanotubes Decorated Anode Electrode for Enhancing Power Generation in Microbial Fuel Cells,” Electrochemistry Communications 14(1), 71-74, 2012. (IF=4.847)
  182. P. X. Wang, F. G. Fan, J. Swift, and J. H. Chen*, “Particle-in-cell and Monte Carlo Collision Simulation of Positive and Negative Corona Discharges,” IEEE Transactions on Plasma Science 40(2), 421-428, 2012. (IF=0.958)
  183. 2011

  184. E. C. Mattson, H. H. Pu, S. M. Cui, M. A. Schofield, S. H. Rhim, G. H. Lu, M. J. Nase, R. S. Ruoff, M. Weinert, M. Gajdardziksa-Josifovska, J. H. Chen*, and C. J. Hirschmugl*, “Evidence of Nanocrystalline Semiconducting Graphene Monoxide during Thermal Reduction of Graphene Oxide in Vacuum,” ACS Nano 5(12), 9710-9717, 2011. (IF=12.881)
  185. Z. H. Wen, S. M. Cui, H. H. Pu, S. Mao, K. H. Yu, X. L. Feng*, and J. H. Chen*, “Metal Nitride/Graphene Nanohybrids: General Synthesis and Multifunctional Titanium Nitride/Graphene Electrocatalyst,” Advanced Materials 23(45), 5445-5450, 2011. (IF=18.960)
  186. Z. Bo, S. M. Cui, K. H. Yu, G. H. Lu, S. Mao, and J. H. Chen*, “Uniform Growth of Few-layer Graphene Vertically Standing on Cylindrical Surface at Atmospheric Pressure,” Review of Scientific Instruments 82(8), 086116, 2011. (IF=1.614)
  187. K. H. Yu, G. H. Lu, S. Mao, H. Kim, and J. H. Chen*, “Selective Deposition of CdSe Nanoparticles on Reduced Graphene Oxide to Understand Photoinduced Charge Transfer in Hybrid Nanostructures,” ACS Applied Materials & Interfaces 3(7), 2703-2709, 2011. (IF=7.145)
  188. K. H. Yu, G. H. Lu, Z. Bo, S. Mao, and J. H. Chen*, “Carbon Nanotube with Chemically-bonded Graphene Leaves for Electronic and Optoelectronic Applications,” The Journal of Physical Chemistry Letters 2(13), 1556-1562, 2011. (IF=8.539)
  189. J. Ma*, F. Yu. Z. W. Yuan, and J. H. Chen*, “Diameter-dependent Thermal-oxidative Stability of Single-walled Carbon Nanotubes Synthesized by a Floating Catalytic Chemical Vapor Deposition Method,” Applied Surface Science 257(4), 10471-10476, 2011. (IF=2.711)
  190. G. H. Lu, K. H. Yu, L. E. Ocola, and J. H. Chen*, “Ultrafast Room-Temperature NH3 Sensing with Positively-Gated Reduced Graphene Oxide Field-Effect Transistors,” Chemical Communications 47(27), 7761-7763, 2011. (IF=6.567)
  191. S. Mao, K. H. Yu, S. M. Cui, Z. Bo, G. H. Lu, and J. H. Chen*, “A New Reducing Agent to Prepare Single-layer, High-quality Reduced Graphene Oxide for Device Applications,” Nanoscale 3(7), 2849-2853, 2011. (IF=7.394)
  192. S. Mao, K. H. Yu, G. H. Lu, and J. H. Chen*, “Highly sensitive protein sensor based on thermally-reduced graphene oxide field-effect transistor,” Nano Research 4(10), 921-930, 2011. (IF=7.010)
  193. Z. Bo, K. H. Yu, G. H. Lu, S. M. Cui, S. Mao, and J. H. Chen*, “Vertically-oriented Graphene Sheets Grown on Metallic Wires for Greener Corona Discharges: Lower Power Consumption and Minimized Ozone Emission,” Energy & Environmental Science 4(7), 2525-2528, 2011. (IF=25.427)
  194. K. H. Yu, P. X. Wang, G. H. Lu, K. H. Chen, Z. Bo, and J. H. Chen*, “Patterning Vertically Oriented Graphene Sheets for Nanodevice Applications,” The Journal of Physical Chemistry Letters 2(6), 537-542, 2011. (IF=8.539)
  195. G. H. Lu, S. Park, K. H. Yu, R. S. Ruoff, L. E. Ocola, D. Rosenmann, and J. H. Chen*, “Toward Practical Gas Sensing Using Highly Reduced Graphene Oxide: A New Signal Processing Method to Circumvent Run-to-Run and Device-to-Device Variations,” ACS Nano 5(2), 1154-1164, 2011. (IF=12.881)
  196. Z. Bo, K. H. Yu, G. H. Lu, S. Mao, and J. H. Chen*, “Understanding Growth of Carbon Nanowalls at Atmospheric Pressure Using Normal Glow Discharge Plasma-enhanced Chemical Vapor Deposition,” Carbon 49(6), 1849-1858, 2011. (IF=6.198)
  197. K. H. Yu, Z. Bo, G. H. Lu, S. Mao, S. M. Cui, Y. W. Zhu, X. Q. Chen, R. S. Ruoff, and J. H. Chen*, “Growth of Carbon Nanowalls at Atmospheric Pressure for One-step Gas Sensor Fabrication,” Nanoscale Research Letters 6(202), 2011. (IF=2.726)
  198. B. J. Hansen, H. Chan, J. Lu, G. H. Lu, and J. H. Chen*, “Short-circuit Diffusion Growth of Long Bi-crystal CuO Nanowires,” Chemical Physics Letters 504(1-3), 41-45, 2011. (IF=1.860)
  199. 2010

  200. Z. Bo, K. H. Yu, G. H. Lu, S. Mao, J. H. Chen*, and F. G. Fan, “Nanoscale Discharge Electrode for Minimizing Ozone Emission from Indoor Corona Devices,” Environmental Science & Technology 44(16), 6337-6342, 2010. (IF=5.330)
  201. S. Mao, G. H. Lu, K. H. Yu, Z. Bo, and J. H. Chen*, “Specific Protein Detection using Thermally Reduced Graphene Oxide Sheet Decorated with Gold Nanoparticle-antibody Conjugates,” Advanced Materials 22(32), 3521-3526, 2010. (IF=18.960)
  202. B. J. Hansen, N. Kouklin, G. H. Lu, I. K. Lin, J. H. Chen*, and X. Zhang*, “Transport, Analyte Detection and Opto-Electronic Response of p-type CuO Nanowires,” Journal of Physical Chemistry C 114(6), 2440-2447, 2010. (IF=4.509)
  203. Z. Bo and J. H. Chen*, “Dimensional Analysis of Detrimental Ozone Generation by Positive Wire-to-plate Corona Discharge in Air,” Journal of Physics D: Applied Physics 43(6), No. 065204, 2010. (IF=2.772)
  204. W. Smith*, S. Mao, G. H. Lu, A. Catlett, J. H. Chen*, and Y. P. Zhao, “The Effect of Ag Nanoparticle Loading on the Photocatalytic Activity of TiO2 Nanorod Arrays,” Chemical Physics Letters 485(1-3), 171-175, 2010. (IF=1.860)
  205. S. Mao, G. H. Lu, K. H. Yu, and J. H. Chen*, “Protein Viability on Au Nanoparticles during an Electrospray and Electrostatic-Force-Directed Assembly Process,” Journal of Nanomaterials No. 196393, 2010. (IF=1.644)
  206. S. M. Cui, G. H. Lu, S. Mao, K. H. Yu, and J. H. Chen*, “One-dimensional Tungsten Oxide Growth via a Grain-by-Grain Buildup Process,” Chemical Physics Letters 485(1-3), 64-68, 2010. (IF=1.860)
  207. S. Mao, G. H. Lu, K. H. Yu, and J. H. Chen*, “Specific Biosensing Using Carbon Nanotubes Functionalized with Gold Nanoparticle-antibody Conjugates,” Carbon 48(2), 479-486, 2010. (IF=6.198)
  208. 2009

  209. G. H. Lu, L. E. Ocola, and J. H. Chen*, “Reduced Graphene Oxide for Room-Temperature Gas Sensors,” Nanotechnology 20(44), No. 445502, 2009. (Downloaded over 250 times in 27 days) (IF=3.573)
  210. G. H. Lu, L. E. Ocola, and J. H. Chen*, “Room-Temperature Gas Sensing through Electronic Transfer between Discrete Tin Oxide Nanocrystal and Multiwalled Carbon Nanotube,” Advanced Materials 21(24), 2487-2491, 2009. (Featured as Frontispiece) (IF=18.960)
  211. G. H. Lu, L. E. Ocola, and J. H. Chen*, “Gas Detection Using Low-Temperature Reduced Graphene Oxide Sheets,” Applied Physics Letters 94(8), No. 083111, 2009. Selected for Mar. 16, 2009 issue of Virtual Journal of Nanoscale Science & Technology. (IF=3.142)
  212. G. H. Lu, S. Mao, S. Park, R. S. Ruoff, and J. H. Chen*, “Facile, Noncovalent Decoration of Graphene Oxide Sheets with Nanocrystals,” Nano Research 2(3), 192-200, 2009. (IF=7.010)
  213. S. Mao, G. H. Lu, and J. H. Chen*, “Carbon-Nanotube-Assisted Transmission Electron Microscopy Characterization of Aerosol Nanoparticles,” Journal of Aerosol Science 40(2), 180-184, 2009. (IF=2.236)
  214. K. H. Yu and J. H. Chen*, “Enhancing Solar Cell Efficiencies through 1-D Nanostructures,” Nanoscale Research Letters 4(1), 1-10, 2009. (IF=2.726) (Top 5 most downloaded article)
  215. P. X. Wang and J. H. Chen*, “Numerical Modeling of Ozone Production in a Wire-cylinder Corona Discharge and Comparison with a Wire-plate Corona Discharge,” Journal of Physics D: Applied Physics 42(3), No. 035202, 2009. (IF=2.772)
  216. 2008

  217. S. Mao, G. H. Lu, and J. H. Chen*, “Coating Carbon Nanotubes with Colloidal Nanocrystals by Combining an Electrospray Technique with Directed Assembly by an Electrostatic Field,” Nanotechnology 19(45), No. 455610, 2008. (IF=3.573)
  218. G. H. Lu, M. Liu, K. H. Yu, and J. H. Chen*, “Absorption Properties of Hybrid SnO2 Nanocrystal-Carbon Nanotube Structures,” Journal of Electronic Materials 37(11), 1686-1690, 2008. (IF=1.635)
  219. J. H. Chen*, “Multifunctional Hybrid Nanocrystal-Carbon Nanotube Structures,” OAtube Nanotechnology 1, 1007, 2008.
  220. M. Liu, G. H. Lu, and J. H. Chen*, “Synthesis, Assembly, and Characterization of Si Nanoparticles and Si Nanoparticle-Carbon Nanotube Hybrid Structures,” Nanotechnology 19(26), No. 265705, 2008. (IF=3.573)
  221. L. Y. Zhu, G. H. Lu, and J. H. Chen*, “A Generic Approach to Coat Carbon Nanotubes with Nanoparticles for Potential Energy Applications,” Journal of Heat Transfer – Special Issue on Energy Nanotechnology 130(4), No. 044502, 2008. (IF=1.83)
  222. B. J. Hansen, G. H. Lu, and J. H. Chen*, “Direct Oxidation Growth of CuO Nanowires from Copper-Containing Substrates,” Journal of Nanomaterials No. 830474, 2008. (IF= 1.644)
  223. O. Mari, N. Kouklin*, G. H. Lu, J. H. Chen, and M. Gajdardziska-Josifovska “Fabrication of Cd3As2 Nanowires by Direct Vapor–solid Growth, and Their Infrared Absorption Properties,” Nanotechnology 19(10), 105301, 2008. (IF=3.573)
  224. 2007 and before

  225. L. Y. Zhu, G. H. Lu, S. Mao, J. H. Chen*, D. A. Dikin, X. Q. Chen, and R. S. Ruoff, “Ripening of Silver Nanoparticles on Carbon Nanotubes,” NANO 2(3), 149-156, 2007. (Featured Cover Article) (IF= 1.090)
  226. G. H. Lu, L. Y. Zhu, P. X. Wang, J. H. Chen*, D. A. Dikin, R. S. Ruoff, Y. Yu, and Z. F. Ren, “Electrostatic Force Directed Assembly of Ag Nanocrystals onto Vertically Aligned Carbon Nanotubes,” Richard E. Smalley Memorial Issue of J. Phys. Chem. C., 111(48), 17919-17922, 2007. (IF=4.772)
  227. J. H. Chen*, G. H. Lu, L. Y. Zhu, and R. C. Flagan, “A Simple and Versatile Mini-Arc Plasma Source for Nanocrystal Synthesis,” Journal of Nanoparticle Research 9(2), 203-213, 2007. (IF=2.278)
  228. G. H. Lu, K. L. Huebner, L. E. Ocola, M. Gajdardziska-Josifovska and J. H. Chen*, “Gas Sensors Based on Tin Oxide Nanoparticles Synthesized from a Mini-arc Plasma Source,” Journal of Nanomaterials, No. 60828, 2006. (IF=1.644)
  229. J. H. Chen* and G. H. Lu, “Controlled Decoration of Carbon Nanotubes with Nanoparticles,” Nanotechnology 17(12), 2891-2894, 2006. (Highlighted by Nanowerk Spotlight, http://www.nanowerk.com/spotlight/spotid=545.php) (IF=3.573)
  230. J. H. Chen*, W. C. Conant, T. A. Rissman, R. C. Flagan, and J. H. Seinfeld, “Effect of Angle of Attack on the Performance of an Airborne Counterflow Virtual Impactor,” Aerosol Science and Technology 39(6), 485-491, 2005. (IF=2.413)
  231. J. H. Chen* and P. X. Wang, “Effect of Relative Humidity on Electron Distribution and Ozone Production by DC Coronas in Air,” IEEE Transactions on Plasma Science 33(2), 808-812, 2005. (IF=0.958)
  232. J. H. Chen*, and J. H. Davidson, “A Global Model of Chemical Vapor Deposition of Silicon Dioxide by Direct-Current Corona Discharges in Air Containing Octamethylcyclotetrasiloxane Vapor,” Plasma Chemistry and Plasma Processing 24(4), 511-535, 2004. (IF=1.811)
  233. J. H. Chen and J. H. Davidson*, “Chemical Vapor Deposition of Silicon Dioxide by Direct-Current Corona Discharges in Dry Air Containing Octamethyl-cyclotetrasiloxane Vapor: Measurement of the Deposition Rate,” Plasma Chemistry and Plasma Processing 24(2), 169-188, 2004. (IF=1.811)
  234. J. H. Chen and J. H. Davidson*, “Ozone Production in the Negative DC Corona: The Dependence of Discharge Polarity,” Plasma Chemistry and Plasma Processing 23(3), 499-516, 2003. (IF=1.811)
  235. J. H. Chen and J. H. Davidson*, “Model of the Negative DC Corona Plasma: Comparison to the Positive DC Corona Plasma,” Plasma Chemistry and Plasma Processing 23(1), 83-102, 2003. (IF=1.811)
  236. J. H. Chen and J. H. Davidson*, “Ozone Production in the Positive DC Corona Discharge: Model and Comparison to Experiments,” Plasma Chemistry and Plasma Processing 22(4), 495-522, 2002. (IF=1.811)
  237. J. H. Chen and J. H. Davidson*, “Electron Density and Energy Distributions in the Positive DC Coronas: Interpretation for Corona-Enhanced Chemical Reactions,” Plasma Chemistry and Plasma Processing 22(2), 199-224, 2002. (IF=1.811)
  238. X. Zhang, J. H. Chen, and P. Chen*, “Modeling of Transfer Processes in Tubular Indirect Evaporative Coolers and Experimental Validation,” Journal of Tongji University 26(4), 1998.