86. Daniel den Engelsen, George Robert Fern, Terry Godfrey Ireland, Damien Hudry, Milinda Abeykoon, Dmytro Nykypanchuk, James H. Dickerson, and Jack Silver, Ultrathin Y₂O₃:Eu³⁺ nanodiscs: Spectroscopic investigations and evidence for reduced concentration quenching, Nanotechnology 29, 455703, 2018.

85.  Ondrej Černohorský, Jan Grym, Roman Yatskiv, Viet Hung Pham, and James H. Dickerson, Understanding of the Charge Origin in Nonpolar Suspensions to Control the Formation of Platinum Nanoparticle Monolayers by Electrophoretic Deposition, ECS Transactions 82, 33-38, 2018.

84. Shruti Sharma, Viet Hung Pham, Jorge A. Boscoboinik, Fernando Camino, James H. Dickerson, and Rina Tannenbaum, Synthesis of mesoscale, crumpled, reduced graphene oxide roses by water-in-oil emulsion approach, Materials Research Express 5, 055601, 2018.

83. Libor Brabec, Petr Sysel, Jan Plsek, Milan Kocirik, and James H. Dickerson, Polyamic acid: nanoprecipitation and electrophoretic deposition on porous supports, Journal of Coatings Technology and Research 15, 489–496, 2018.

82. F.Z. Amir, V.H. Pham, E.M. Schultheis, and J.H. Dickerson, Flexible, all-solid-state, high-cell potential supercapacitors based on holey reduced graphene oxide/manganese dioxide nanosheets,  Electrochimica Acta 260, 944-951, 2018.

81. Viet Hung Pham, Thuy-Duong Nguyen-Phan, Xiao Tong, Balasubramaniyan Rajagopalan, Jin Suk Chung, and James H Dickerson, Hydrogenated TiO₂@ reduced graphene oxide sandwich-like nanosheets for high voltage supercapacitor applications, Carbon 126, 135-144, 2018.

80. Songhao Wu, Weiqiang Lv, Tianyu Lei, Yidong Han, Xian Jian, Min Deng, Gaolong Zhu, Mingzhen Liu, Jie Xiong, James H Dickerson, Weidong He, Distinctive Supercapacitive Properties of Copper and Copper Oxide Nanocrystals Sharing a Similar Colloidal Synthetic Route, Advanced Energy Materials 7,  1700105, 2017.

79. G Zhu, W Yang, W Lv, J He, K Wen, W Huo, J Hu, M Waqas, JH Dickerson, W He, Facile electrophoretic deposition of functionalized Bi₂O₃ nanoparticles, Materials & Design 116, 359-364, 2017. 

78. D. Hudry, A. M. M. Abeykoon, E. Dooryhee, D. Nykypanchuk, and J. H. Dickerson, Probing the Crystal Structure and Formation Mechanism of Lanthanide-Doped Upconverting Nanocrystals, Chemistry of Materials 28, 8752−8763, 2016.

77. F.Z. Amir, V.H. Pham, D.W. Mullinax, and J.H. Dickerson, Enhanced performance of HRGO-RuO₂ solid state flexible supercapacitors fabricated by electrophoretic deposition, Carbon 107, 338-343, 2016.

76. Ondřej Černohorský, Jan Grym, Roman Yatskiv, Viet Hung Pham, and James H Dickerson, Insight into Nanoparticle Charging Mechanism in Nonpolar Solvents to Control the Formation of Pt Nanoparticle Monolayers by Electrophoretic Deposition, ACS Applied Materials and Interfaces 8, 19680−19690, 2016.

75. Masih Darbandi and James H. Dickerson, Nanoscale Engineering of TiO2 Nanoparticles: Evolution of the shape, phase, morphology, and facet orientation, Materials Letters 180, 212-218, 2016.

74. Luhan Ye, Kechun Wen, Zuoxiang Zhang, Fei Yang, Yachun Liang, Weiqiang Lv, Yukun Lin, Jianmin Gu, James H. Dickerson, and Weidong He, Highly Efficient Materials Assembly Via Electrophoretic Deposition for Electrochemical Energy Conversion and Storage Devices, Advanced Energy Materials 6 1502018. 2016.  Featured as the Frontispiece for this issue.

73. Xingzh Zhou, Kelvin Zhang, Jie Xiong, Ju-Hyun Park, James H. Dickerson, and Weidong He, Size and dimensionality-dependent optical, magnetic and magneto-optical properties of binary europium-based nanocrystals: EuX (X = O, S, Se, Te), Nanotechnology 27, 192001, 2016.

72. Viet Hung Pham and James H Dickerson, Reduced Graphene Oxide Hydrogels Deposited in Nickel Foam for Supercapacitor Applications: Toward High Volumetric Capacitance, Journal of Physical Chemistry C 120, 5353–5360, 2016.

71. R. Yatskiv, J. Grym, P. Gladkov, O. Cernohorsky, J. Vanis, J. Maixner, and J.H. Dickerson, Room temperature hydrogen sensing with the graphite/ZnO nanorod junctions decorated with Pt nanoparticles, Solid State Electronics 116, 124-129, 2015.

70. Alex J Krejci , Adriana Mendoza Garcia , Shouheng Sun , Viet Hung Pham, and James H. Dickerson, Comparing Highly Ordered Monolayers of Nanoparticles Fabricated Using Electrophoretic Deposition: Cobalt Ferrite Nanoparticles versus Iron Oxide Nanoparticles, Journal of the Electrochemical Society 162(11), D3036–D3039, 2015 (Open Access Publication).

69. Sumin Jin , Viet Hung Pham , James Henry Dickerson, and Mathieu Brochu, Interfacial Development of Electrophoretically Deposited Graphene Oxide Films on Al Alloys, Journal of the Electrochemical Society 162(11), D3025–D3029, 2015.

68. F. Z. Amir, V. H. Pham, and J. H. Dickerson, Facile synthesis of ultra-small ruthenium oxide nanoparticles anchored on reduced graphene oxide nanosheets for high performance supercapacitors, RSC Advances 5, 67638-67645, 2015.

67. Kechun Wen, Kelvin H.L. Zhang, Wei Wang, Junhao Lin, Weiqiang Lv, Bin Wang, Zhiming M. Wang, James H. Dickerson, Xin Guo, and Weidong He, Physical justification for ionic conductivity enhancement at strained coherent interfaces, Journal of Power Sources 285, 37–42, 2015.

66. Luhan Ye, Weiqiang Lv, Kelvin H.L. Zhang, Xiaoning Wang, Pengfei Yan, James H. Dickerson, and Weidong He, A new insight into the oxygen diffusion in porous cathodes of lithium-air batteries, Energy 83, 669-673, 2015.

65. Luhan Ye, Weiqiang Lv, Junyi Cui, Yachun Liang, Peng Wu, Xiaoning Wang, Han He, Senjun Lin, Wei Wang, James H. Dickerson, and Weidong He, Lithium–Air Batteries: Performance Interplays with Instability Factors, ChemElectroChem 2 , 312, 2015.

64. Viet Hung Pham, Tesfaye Gebre, and James H. Dickerson, Facile electrodeposition of reduced graphene oxide hydrogels for high-performance supercapacitors, Nanoscale 7, 5947 – 5950, 2015.

63. Damien Hudry, A. M. Abeykoon, Jessica Hoy, Matthew Sfeir, Eric Stach, and James Dickerson, Ultrathin europium oxide nanoplatelets: ‘hidden’ parameters and controlled synthesis, unusual crystal structure, and photoluminescence properties, Chemistry of Materials 27, 965, 2015.

62. Weidong He,  Xiaoning Wang, Luhan Ye,  Yu Pan, Yuanqiang Song, Aifang Liu,  Wei Wang, Hongping Zhang, Hongxue Qi, Ming Zhou, Zhiguo Wang, Kelvin H. L. Zhang, and J. H. Dickerson, Out-of-Cell Oxygen Diffusivity Evaluation in Lithium-Air Batteries, ChemElectroChem 1 , 2052-2057, 2014.  Selected as the Inside Cover Image.

61. I. Gonzalo-Juan, A. J. Krejci, M. A. Rodriguez, Y. Zhou, K. A. Fichthorn, and J. H. Dickerson, Dipole moment-tuned packing of TiO2 nanocrystals into monolayer films by electrophoretic deposition, Applied Physics Letters, 105 , 113108, 2014.

60. Jaron S. Rottman-Yang, Jyotishka Biswas, Owen O. Abe, Kasey L. Campbell, Isabel Gonzalo-Juan, Viet Hung Pham, Tesfaye Gebre, and James H. Dickerson, Post-Electrophoretic Deposition Electrochemical Separation (PEPDECS): Optimization of the Fabrication of Freestanding Carbon Nanotube Films, ECS Journal of Solid State Science and Technology 3 (11), M71-M75, 2014.

59. Anteneh G. ‎Tefera, Elijah Johnson, Mogus D. Mochena, and James Dickerson, Optimal Packing Size of Non-Ligated CdSe Nanoclusters for Microstructure Synthesis, Journal of Applied Physics 116, 104301, 2014.    Selected as the Cover Image.

58. Shuo Gu, Weidong He, Ming Zhang, Taisen Zhuang, Yi Jin, Hatem El Bidweihy, Yiwu Mao, James Dickerson, Michael Wagner, Edward Della Torre, and Lawrence Bennett, Physical Justification for Negative Remanent Magnetization in Homogeneous Nanoparticles, Nature Scientific Reports 4, 6267, 2014.

57. Viet Hung Pham and James H. Dickerson, Superhydrophobic Silanized Melamine Sponges as High Efficiency Oil Absorbent Materials, ACS Applied Materials & Interfaces 6 (16), 14181, 2014.

56. Huanqi Cao, Weidong He, Yiwu Mao, Xiao Lin, Ken Ishikawa, James H. Dickerson, and Wayne P. Hess, Recent progress in degradation and stabilization of organic solar cells, Journal of Power Sources 264, 168-183, 2014.

55. M. Darbandi, T. Gebre, L. Mitchell, W. Erwin, R. Bardhan, M. D. Levan, M. D. Mochena, and J. H. Dickerson, Nanoporous TiO₂ Nanoparticle Assemblies with Mesoscale Morphologies: Nano-Cabbage versus Sea-Anemone, Nanoscale 6(11), 5652-5656, 2014.

54. Junfan Li, Kechun Wen, Weidong He, Xiaoning Wang, Weiqiang Lv, Pengfei Yan, Yuanqiang Song, Hongliang Lu, Xiao Lin, and James H. Dickerson, Coulombic interaction in the colloidal oriented-attachment growth of tetragonal nanorods, Chinese Physics B 23 (5), 056103, 2014.

53. Weidong He, Xiao Lin, Weiqiang Lv, and James H. Dickerson, Electrochemical devices with optimized gas tightness for the diffusivity measurement in fuel cells, International Journal of Hydrogen Energy 39, 2334–2339, 2014.

52. Alex J. Krejci,   Kevin. G. Yager,   Christopher Ruggiero, and  James H. Dickerson, X-ray scattering as a liquid and solid phase probe of ordering within sub-monolayers of iron oxide nanoparticles fabricated by electrophoretic deposition, Nanoscale 6 (8), 4047 – 4051, 2014.

51. Weiqiang Lv, Weidong He, Xiaoning Wang, Yinghua Niu, Huanqi Cao, James H. Dickerson, and  Zhiguo Wang, Understanding the oriented-attachment growth of nanocrystals from an energy point of view: a review, Nanoscale 6, 2531-2547, 2014. 

50. Charles Johnson, Lino Costa, Jackie Johnson, Dennis Brown, Suseela Somarajan, Weidong He, and James Dickerson, Mössbauer spectra and superparamagnetism of europium sulfide nanoparticles, Journal of Physics D: Applied Physics 47, 075001, 2014.

49. Alex J. Krejci, Tesfaye Gebre, Christopher A. Ruggiero, Mogus D. Mochena, and James H. Dickerson, Kinetics of monolayer and bilayer nanoparticle film formation during electrophoretic deposition, Advances in Applied Ceramics 113, 50-54, 2014.

48. Yuqian Zhang, Weidong He, Kechun Wen, Xiaoning Wang, Hongliang Lu, Xiao Lin and James H. Dickerson, Quantitative evaluation of Coulombic interactions in the oriented-attachment growth of nanotubes, Analyst, 139, 371-374, 2014.

47. Junhao Lin, Weidong He, Subramanian Vilayurganapathy, Samuel J. Peppernick, Bin Wang, Sandeep Palepu, Miroslav Remec, Wayne P. Hess, Anthony B. Hmelo, Sokrates T. Pantelides, and James H. Dickerson, Growth of solid and hollow gold particles through the thermal annealing of nanoscale patterned thin films, ACS Applied Materials & Interfaces, 5 (22), 11590–11596, 2013.

46. Weidong He, Xiao Lin, James H. Dickerson, and John B. Goodenough, An electrochemical device for three-dimensional (3D) diffusivity measurement in fuel cells, Nano Energy 2, 1004-1009, 2013.

45. G. V. Shcherbatyuk, P. Talbot, J. Mandal, A. J. Krejci, J. H. Dickerson, and S. Ghosh, Increased photo-stability of quantum dots in segregated bilayer films, Journal of Applied Physics 114, 084305, 2013.

44. Weidong He, Max E. Osmulski, Junhao Lin, Dmitry S. Koktysh, Bo Choi, and James H. Dickerson, Surfactant induced colloidal growth and selective electrophoretic deposition of one-dimensional Te nanocrystals, Materials Letters 110, 148-151,  2013.

43.  Karel Žďánský and James H. Dickerson, Improved speed of hydrogen detection by Schottky diodes on InP with electrophoretically deposited Pt nanoparticles and graphite contacts, Sensors & Actuators B: Chemical, 84, 295-300, 2013.

42. Alex J. Krejci, Colin G. W. Thomas, and James H. Dickerson, Statistical assessment of order within systems of nanoparticles: Determining the efficacy of patterned substrates to facilitate ordering within nanoparticle monolayers fabricated through electrophoretic deposition, Physical Review E 87, 042307, 2013.

41. Weidong He, Jing Zou, Bin Wang, Ming Zhou, Xiao Lin, Kelvin HL Zhang, Junhao Lin, Chunhui Yang, and James H. Dickerson, Gas transport in electrodes of solid oxide fuel cells: diffusion and diffusivity measurement, Journal of Power Sources 237, 64-73, 2013.

40. Alex J. Krejci, Colin G. W. Thomas, Jyotirmoy Mandal, Isabel Gonzalo-Juan, Weidong He, Ryan L. Stillwell, Ju-Hyun Park, Dhiraj Prasai, Vyacheslav Volkov, Kirill I. Bolotin, and James H. Dickerson, Using Voronoi Tessellations to Assess Nanoparticle-Nanoparticle Interactions and Ordering in Monolayer Films Formed through Electrophoretic Deposition, Journal of Physical Chemistry B 117, 1664, 2013.

39. John G. Kelly, Weidong He, Suseela Somarajan, Kevin G. Yager, and James H. Dickerson, Wide Angle X-Ray Diffraction Studies of Nanocrystalline Lead Europium Sulfide, Materials Letters 89,198, 2012.

38. A. J. Krejci, J. Mandal, and J. H. Dickerson, Patterned Substrates to Facilitate Long-Range Ordering in the Formation of Nanoparticle Monolayers by Electrophoretic Deposition, Applied Physics Letters 101, 043117, 2012.

37. W. He, M. E. Osmulski, J. Lin, D. S. Koktysh, J. R. McBride, J. H. Park, and J. H. Dickerson, Remarkable Optical and Magnetic Properties of Ultra-thin Europium Oxysulfide Nanorods, Journal of Materials Chemistry 22, 16728, 2012.

36: R. L. Leonard, S. A. Hasan, A. Y. Terekhov, C. Thompson, R. A. Erck, J. H. Dickerson, and J. A. Johnson, Protective coatings for enhanced performance in biomedical applications, Surface Engineering 28, 472, 2012.  

35: Weidong He, Bin Wang, and  J. H. Dickerson, Overall Concentration Polarization and Limiting Current Density of Fuel Cells with Nanostructured Electrodes, Nano Energy 1, (6) 828-832, 2012.

34: S. Somarajan, M. A. Harrison, D. S. Koktysh, W. He, S. A. Hasan, J.-H. Park, R. L. Stillwell, E. A. Payzant, and J. H. Dickerson, Structural and Magnetic Analysis of Nanocrystalline Lead Europium Sulfide (PbxEuyS), Materials Chemistry and Physics 134,1-6, 2012.

33: I. Gonzalo-Juan, A. J. Krejci, and J. H. Dickerson, Toward Dynamic Control over TiO₂ Nanocrystal Monolayer-by-Monolayer Film Formation by Electrophoretic Deposition in Non-Polar Solvents, Langmuir 28, 5295, 2012.

32: W. He, J. Lin, B. Wang, S. Tuo, S. T. Pantelides, and J. H. Dickerson, An analytical expression for the van der Waals interaction in oriented-attachment growth: a spherical nanoparticle and a growing cylindrical nanorod, Physical Chemistry Chemical Physics 14, 4548, 2012.

31: Shann S. Yu, Cheryl M. Lau, Susan N. Thomas, W. Gray Jerome, David J. Maron, James H. Dickerson, Jeffrey A. Hubbell, and Todd D. Giorgio, Size- and charge-dependent non-specific uptake of PEGylated nanoparticles by macrophages, International Journal of Nanomedicine 7, 799-813, 2012.

30: Jyotishka Biswas, Jaron Rottman-Yang, Isabel Gonzalo-Juan, and James H. Dickerson, Freestanding Carbon Nanotube Films Fabricated By Post-Electrophoretic Deposition Electrochemical Separation, Journal of the Electrochemical Society 159, K103, 2012.

29: S. Somarajan, A. J. Krejci, W. He, D. S. Koktysh, and J. H. Dickerson, Concentration dependence of the exchange interaction in lead europium sulfide nanocrystals, Solid State Communications 152, 161, 2012.

28: J. H. Dickerson, Electrophoretic Deposition of Nanocrystals in Non-polar Solvents in Electrophoretic Deposition of Nanomaterials, edited by J. H. Dickerson and A. R. Boccaccini, (Springer, 2011), Chapter 3.

27: A. J. Krejci, I. Gonzalo-Juan, and J. H. Dickerson, Evolution of ordering in iron oxide nanoparticle monolayers using electrophoretic deposition, ACS Applied Materials and Interfaces 3, 3611, 2011.

26: I. Gonzalo-Juan, J. R. McBride, and J. H. Dickerson, Tunable Solvothermal Synthesis of Titanium Dioxide Nanospheres, Nanorods, and Nanowires, Nanoscale 3, 3799, 2011.

25: W. He, A.J. Krejci, J. Lin, M. Osmulski, and J.H. Dickerson, A Facile Synthesis of Te Nanoparticles with Binary Size Distribution by Green Chemistry, Nanoscale 3, 1523, 2011.

24: W. He and J.H. Dickerson, Insight into Thermally Driven Isotropic Crystallinity Breaking: The 1D Assembly of Europium Chalcogenide Nanoparticles with Oleate Ligands, Applied Physics Letters 98, 081914 2011.

23: W. He, S. Somarajan, D.S. Koktysh, and J.H. Dickerson, Superantiferromagnetic EuTe Nanoparticles: Room Temperature Colloidal Synthesis, Structural Characterization, and Magnetic Properties, Nanoscale 3, 184, 2011.

22: M.A. Harrison, S. Somarajan, S.V. Mahajan, D.S. Koktysh, K. van Benthem, and J.H. Dickerson, Template Assisted Synthesis of EuS Nanotubes, Materials Letters 65, 420, 2011.

21: S.A. Hasan, J.L. Rigueur, R.R. Harl, A.J. Krejci, I. Gonzalo-Juan, B.R. Rogers, and J.H. Dickerson, Transferable Graphene Oxide Films with Tunable Microstructures, ACS Nano 4, 7367, 2010.

20: D.S. Koktysh, S. Somarajan, W. He, M.A. Harrison, S.A. McGill, and J.H. Dickerson, EuS nanocrystals: a novel synthesis for the generation of monodisperse nanocrystals with size-dependent optical properties, Nanotechnology 21, 415601, 2010.

19: J.L Rigueur, S.A Hasan, S.V Mahajan, and J.H. Dickerson, Buckypaper fabrication via liberation of electrophoretically deposited carbon nanotubes, Carbon 48, 4090-4099, 2010.

18: D.W. Kavich, J.H. Dickerson, S.V. Mahajan, S. A. Hasan, and J.-H. Park, Field dependence of the spin relaxation in an assembly of strongly interacting iron oxide nanocrystals formed via electrophoretic deposition, Nanoscale Research Letters 5, 1540, 2010.

17: S.V. Mahajan and J.H. Dickerson, Dielectric properties of colloidal Gd₂O₃ nanocrystal films fabricated via electrophoretic deposition, Applied Physics Letters 96, 113105, 2010.

16: S.V. Mahajan and J.H. Dickerson, Understanding the growth of Eu₂O₃ nanocrystal films made via electrophoretic deposition, Nanotechnology 21, 145704, 2010.

15: S.V. Mahajan, J Cho, M.S.P. Shaffer, A. R Boccaccini, and J. H. Dickerson, Electrophoretic deposition and characterization of Eu₂O₃ nanocrystal—Carbon nanotube Heterostructures, Journal of the European Ceramics Society 30, 1145, 2010.

14: S.A. Hasan, D.W. Kavich, and J.H. Dickerson, Sacrificial layer electrophoretic deposition of free-standing multilayered nanoparticle films, Chemical Communications 25, 3723, 2009.

13: James H. Dickerson, Sameer V. Mahajan, Saad A. Hasan, Johann Cho, Milo S. Shaffer, and Aldo R. Boccaccini, Electric field assisted fabrication of carbon nanotube-nanocrystal composite structures, SPIE Newsroom, DOI: 10.1117/2.1200902.1492, 2009.

12: A.M. Thron, C.S. Bonifacio, N. Erdman, M.A. Harrison, S. Somarajan, J.H. Dickerson, and K. van Benthem, Characterization of EuS Nanotubes in Quantum Confinement, Microscopy and Microanalysis 15, 1178, 2009.

11: M.L. Redígolo, D.S. Koktysh, K. van Benthem, S.J. Rosenthal, and J.H. Dickerson, Europium Sulfide Nanoparticles in the Sub-2nm Size Regime, Materials Chemistry & Physics 115 (2-3), 526, 2009.

10: S.A. Hasan, S.V. Mahajan, D. W. Kavich, and J. H. Dickerson, Electrophoretic Deposition of CdSe Nanocrystal Films Onto Dielectric Polymer Thin Films, Thin Solid Films, 517, 2665-2669, 2009.

9: S.V. Mahajan and J.H. Dickerson, Optical studies of sub-3nm Eu₂O₃ and Gd₂O₃:Eu3+ nanocrystals, Journal of Alloys and Compounds 488, 574, 2009.

8: D.W. Kavich, J. H. Dickerson, S. V. Mahajan, S.A. Hasan, and J.-H. Park, Exchange Bias of Singly Inverted FeO/Fe₃O₄ Core-Shell Nanocrystals, Physical Review B, 78 174414, 2008.

7: S. V. Mahajan, S.A. Hasan, J Cho, M. S. P. Shaffer, A. R Boccaccini, and J. H. Dickerson, Carbon nanotube–nanocrystal heterostructures fabricated by electrophoretic deposition, Nanotechnology 19, 195301, 2008.

6: S. V. Mahajan, J. Hart, J. Hood, A. Everheart, M. L. Redigolo, D. S. Koktysh, E. A. Payzant, and J. H. Dickerson, Synthesis of RE(OH)₂OCl and REOCl (RE = Eu, Tb) nanostructures, J. Rare Earths 26 (2), 131, 2008.

5: S. Somarajan, S.A. Hasan, C.T. Adkins, E. Harth, and J. H. Dickerson, Controlled Electrophoretic Deposition of Uniquely Nanostructured Star Polymer Films, J. Physical Chemistry B 112, 23, 2008.

4: H. Park, J. H. Dickerson, and S. M. Weiss, Spatially Localized One-Dimensional Porous Silicon Photonic Crystals, Applied Physics Letters 92, 011113, 2008.

3: S. V. Mahajan and J. H. Dickerson, Synthesis of monodisperse sub-3 nm RE₂O₃ and Gd₂O₃:RE3+ nanocrystals, Nanotechnology 18, 325605, 2007.

2: M. L. Redigolo, D. S. Koktysh, S. J. Rosenthal, J. H. Dickerson, Z. Gai, L. Gao, and J. Shen, Magnetization Reversal in Europium Sulfide Nanocrystals, Applied Physics Letters 89 222501, 2006.

1: S. V. Mahajan, D. W. Kavich, M. L. Redigolo, and J. H. Dickerson, Structural Properties of Electrophoretically Deposited Europium Oxide Nanocrystalline Thin Films, J. Materials Science 41, 8160, 2006.

Conference Proceeding Manuscripts:

10. O Černohorský, J Grym, R Yatskiv, VH Pham, D Hudry, and JH Dickerson, Monolayers of Platinum Nanoparticles Prepared by Dip-Coating, 2015 NANO CON, Oct 14th – 16th 2015, Brno, Czech Republic, EU.

9. Jan Grym, Roman Yatskiv, Ondřej Černohorský, María Verde, Jan Lorinčík, Viet Hung Pham, Tesfaye Gebre, James H. Dickerson, Electrophoretic Deposition of Metal Nanoparticle Monolayers from Nonpolar Solvents for Hydrogen Sensing, Key Engineering Materials 654, 213, 2015.

8: C.E. Johnson, L. Costa, S. Gray, J.A. Johnson, A.J. Krejci, S.A. Hasan, I. Gonzalo-Juan, and J.H. Dickerson, Mössbauer Measurements on Spinel-structure Iron Oxide Nanoparticles, PROCEEDINGS – 36th ANNUAL CONDENSED MATTER AND MATERIALS MEETING, 31 Jan. -3 Feb. 2012. Wagga Wagga, NSW, Australia, 2012.

7:  A. J. Krejci, I. Gonzalo-Juan, and J. H. Dickerson, Current Measurements as a Direct Diagnostic for Sub-Monolayer Growth of Nanoparticle Films in Non-polar Electrophoretic Deposition, Key Engineering Materials 507, 79, 2012.

6:  I. Gonzalo-Juan, A. J. Krejci, and J. H. Dickerson, Selective Deposition of TiO2 during Monolayer Formation of TiO2 and Iron Oxide Nanocrystals by Electrophoretic Deposition in Non-polar Solvents, Key Engineering Materials 507, 89, 2012.

5: M. Borlaf, M. T. Colomer, H. Titzel, J. H. Dickerson, and R. Moreno, Thin Films of Europium(III) Doped-TiO2 Prepared by Electrophoretic Deposition from Nanoparticulate Sols, Key Engineering Materials 507, 73, 2012.

4: S. Somarajan, S.A. Hasan, M.A. Harrison, C.T. Adkins, E. Harth, and J. H. Dickerson, Electrophoretic Deposition of Star Polymer–Europium Chalcogenide Nanocomposite Films, Key Engineering Materials 412, 113, 2009.

3: S. V. Mahajan, M. L. Redígolo, D. S. Koktysh, and J. H. Dickerson, Self assembly of Eu2O3 nanocrystals and nanoneedles, Phys. Stat. Solidi C 4, 409, 2007.

2: M. L. Redígolo, D. S. Koktysh, S. J. Rosenthal, and J. H. Dickerson, Physical properties of quantum-confined europium sulfide nanocrystals, Phys. Stat. Sol. C 4, 406, 2007.

1: S. V. Mahajan, M. L. Redígolo, D. S. Koktysh, and J. H. Dickerson, Stepwise assembly of europium sesquioxide nanocrystals and nanoneedles, Proc. SPIE 6321, 632102, 2006.