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Refereed Publications by Research Areas:

 

Area 1: Simple, Alternative patterning

26.   Y.-j. Cai, B.-m. Zhang Newby*, Polymer microstructure arrays consequence of Marangoni flow-induced water droplets”, Applied Physics A, 100(4), 1221-1229, 2010. (Impact Factor, IF = 1.595) DOI: 10.1007/s00339-010-5882-y

25.   Y.-j. Cai, B.-m. Zhang Newby*, Fracture-induced formation of parallel silicone strips”, Journal of Material Research, 25(5), 803-809, 2010. (IF = 1.743) DOI: 10.1557/JMR.2010.0106

24.   Y.-j. Cai, Y. H. Yun, B.-m. Zhang Newby*, Generation of Contact-printing Based Poly(ethylene glycol) Gradient Surfaces with Micrometer-sized Steps”, Colloid. Surf. B: Biointerfaces, 75(1), 115-122, 2010. (IF = 2.562) DOI: 10.1016/j.colsurfb.2009.08.023

23.   Y.-j. Cai, B.-m. Zhang Newby*, Porous Polymer Films Templated by Marangoni Flow-Induced Water Droplet Arrays”, Langmuir, 25 (13), 7338-7645, 2009. (IF = 4.097) DOI: 10.1021/la901335w

22.   Y.-j. Cai, B.-m. Zhang Newby*, “Marangoni Flow Induced Self-Assembly of Hexagonal and Stripelike Nanoparticle Patterns”, JACS, 130(19), 6076-6077, 2008. (IF = 8.091) DOI: 10.1021/ja801438u

21.   Y.-j. Cai, B.-m. Zhang Newby*, “Dewetting of Polystyrene Thin Films on Poly(ethylene glycol) Modified Surfaces as a Simple Approach for Patterning Proteins”, Langmuir, 24 (10), 5202-5208, 2008. (IF = 4.097) DOI: 10.1021/la703923z

20.   F. Song, Y.-j. Cai, B.-m. Zhang Newby*, “Fabricating Tunable Nanoparticle Density Gradients with the Contact Printing Based Approach”, Appl. Surf. Sci., 253(5), 2393-2398, 2006. (IF = 1.611) DOI: 10.1016/j.apsusc.2006.04.052

8. S.-H. Choi, B.-m. Zhang Newby*, “Micrometer-Scaled Gradient Surfaces Generated Using Contact Printing of Octadecyltrichlorosilane”, Langmuir 19(18), 7427 – 7435, 2003. (IF = 4.097) DOI: 10.1021/la035027l

 

Area 2: Antifouling, Bacterial Attachment and Biofilm

30.   H. Wang, M. S. Sodagari, Y. Chen, X. He, B.-m. Zhang Newby*, L.-K. Ju, “Initial bacterial attachment in slow flowing systems: effects of cell and substrate surface properties”, Colloid. Surf. B: Biointerfaces, 87(2), 415-422, 2011. (IF = 2.562) DOI: 10.1016/j.colsurfb.2011.05.053

29.   J. Ram, S. Purohit, B.-m. Zhang Newby*, T. Cutright, “Evaluation of the natural product antifoulant, zosteric acid, for preventing the attachment of quagga mussels – A preliminary study”, Natural Product Research, in press (GNPL 541873) (IF = 0.906). DOI: 10.1080/14786419.2010.541873

27.   A. Raya, M. S. Sodagari, N. M. Pinzon, X. He, B.-m. Zhang Newby*, L.-K. Ju*, “Effects of rhamnolipids and shear on initial attachment of Pseudomonas aeruginosa, PAO1, in glass flow chambers”, ESPR, 17(9): 1529-1538, 2010. (IF = 2.492) DOI: 10.1007/s11356-010-0339-6

18.   A. A. Al-Juhni, B.-m. Zhang Newby*, “Incorporation of Benzoic Acid and Sodium Benzoate into Silicone Coatings and Subsequent Leaching of the Compound from the Incorporated Coatings”, Prog. Org. Coatings. 56 (2), 135-145, 2006.  (IF = 1.935) DOI: 10.1016/j.porgcoat.2006.02.009

15.   B.-m. Zhang Newby*, T. J. Cutright, C. A. Barrios, Q. W. Xu, “Zosteric Acid – An Effective Antifoulant for Reducing Fresh Water Bacterial Attachment on Coatings”, JCT Research 3(1), 69-76, 2006. (IF = 1.059) DOI: 10.1007/s11998-006-0007-4

14.   Q. W. Xu, C. A. Barrios, T. J. Cutright, B.-m. Zhang Newby#, “Evaluation of Toxicity of Capsaicin and Zosteric Acid and their Potential Applications as Antifoulants”, Environmental Toxicology 20 (5), 467-474, 2005. (IF = 1.509) DOI: 10.1002/tox.20134

13.   Q. W. Xu, C. A. Barrios, T. J. Cutright, B.-m. Zhang Newby#, “Assessment of Antifouling Effectiveness of Two NPAs by Attachment Study with Freshwater Bacteria”, ESPR 12(5), 278-284, 2005. (IF = 2.492) PMID: 16206721

12.   H. Haque&, T. J. Cutright, B.-m. Zhang Newby#, “Effectiveness of sodium benzoate as a freshwater low toxicity antifoulant when dispersed in solution and entrapped in silicone coatings”, Biofouling 21(2), 109-119, 2005. (& Mr. Haque was then an undergraduate student at Ohio State University) (IF = 3.707) PMID: 16109600

10.   C. A. Barrios, Q. W. Xu. T. J. Cutright, B.-m. Zhang Newby*, “Incorporating Zosteric Acid into Silicone Coatings to Achieve its Slow Release while Reducing Fresh Water Bacterial Attachment”, Colloid. Surf. B: Biointerfaces, 41, 83-93, 2005. (IF = 2.562) DOI: 10.1016/j.colsurfb.2004.09.009

9. C. Turgut, B.-m. Newby, T. J. Cutright, “Determination of Optimal Water Solubility of Capsaicin for Its Usage as a Non-toxic Antifoulant”, ESPR 11(1), 7 – 10, 2004. (IF = 2.492) DOI: 10.1065/espr2003.12.180

 

Area 3: Miscellaneous

28.   M. Model, J. Fang, P. Yuvaraj, Y.j. Chen, B.-m. Zhang Newby, "3D deconvolution of spherically aberrated images using commercial software", Journal of Microscopy 241(1), 94-100, 2011. (January) (IF = 1.612) DOI: 10.1111/j.1365-2818.2010.03416.x.

19.   C. Loskofsky, F. Song, B.-m. Zhang Newby*, “Under Water Adhesion Measurements Using the JKR Technique”, J. Adhesion, 82(7), 713-730, 2006. (IF = 1.011) DOI: 10.1080/00218460600775807

17.   S.-H. Choi, B.-m. Zhang Newby*, “Suppress Polystyrene Thin Film Dewetting by Modifying Substrate Surfaces with Aminopropyltriehtoxysilane”, Surf. Sci. 600(6), 1391-1404, 2006. (IF = 1.731) DOI: 10.1016/j.susc.2006.01.050

16.   S.-H. Choi, B.-m. Zhang Newby*, “Dynamic Contact Angle in Rim Instability of Dewetting Holes”, J. Chem. Phys. 124(5), Art. No. 054702, 2006. (IF = 3.520) DOI: 10.1063/1.2162534

11.   L.-f. Wang, G.-y. Zhu, P. Wang, B.-m. Zhang Newby*, “Self-assembling of Polymer-enzyme Conjugates at Oil/water Interfaces”, Biotechnology Progress 21, 1321-1328, 2005. (IF = 2.220) DOI: 10.1021/ja046853z

7. S.-H. Choi, B.-m. Zhang Newby*, “Alternative Method for Determining Surface Energy by Utilizing  Polymer Thin Film Dewetting”, Langmuir 19(4), 1419 – 1428, 2003. (IF = 4.097) DOI: 10.1021/la026489m

 

Post-doctoral research work

6.   B.-m. Zhang Newby, K. Wakabayashi, R. J. Composto, “Confinement induced stabilization in polymer blend thin films”, Polymer 42(21), 2001. (IF = 3.587) DOI: 10.1016/S0032-3861(01)00396-2

5.   B.-m. Zhang Newby*, R. J. Composto, “Phase-morphology map of polymer-blend thin films confined to narrow strips”, Phys. Rev. Lett. 87(9), 098302-1-098302-4, 2001. (IF = 7.180) DOI: 10.1103/PhysRevLett.87.098302

4.   B.-m. Zhang Newby, R. J. Composto, “Influence of Lateral Confinement on Phase Separation in Thin Film Polymer Blends”, Macromolecules, 33, 3274-3282, 2000. (IF = 4.411) DOI: 10.1021/ma992092m

Graduate Research work

3.     B.-m. Zhang Newby, M. K. Chaudhury, “Friction in Adhesion”, Langmuir, 14(17), 4865-4872, 1998. (IF = 4.097) DOI: 10.1021/la980290l

2.     B.-m. Zhang Newby, M. K. Chaudhury, “Effect of Interfacial Slippage on Viscoelastic Adhesion”, Langmuir, 13(6), 1805 1809, 1997.  (IF = 4.097) DOI: 10.1021/la960962C

1. B.-m. Zhang Newby, M. K. Chaudhury, H. R. Brown, “Macroscopic Evidence of the Effect of Interfacial Slippage on Adhesion”, Science, 269, 1995. (IF = 28.103) DOI: 10.1126/science.269.5229.1407

 

Other Refereed Publications:

2.     H. Wang, M. S. Sodagari, Y. Chen, Q. Tang, X. Shan, J. Payer, L.-K. Ju, G. Cheng, B.-m. Zhang Newby* “Initial bacterial attachment in slow flowing systems: effects of cell and substrate surface properties”, 2011 DOD Corrosion Conference Technical paper (Paper ID 20574).

1. S.-H. Choi, Y.-j. Cai, B.-m. Zhang Newby, “Adhesion Enhancement of Polystyrene Thin Film on Surfaces Modified with Aminopropyltriehtoxylsilane Ultrathin Layers”, Silanes and Other Coupling Agents, Vol 4, (K. L. Mittal Edited), VSP 2007.

 

Non-refereed Journal Publication:

1.     K. Moorthy, B.-m. Newby, G. G. Chase, “Effect of surface energy of fibers on coalescence fuel filtration”, Exploration & Production: The Oil & Gas Review, issue 2, 2007.

 

Conference Proceedings:   

20.   B.-m. Zhang Newby, Y.j. Cai, “Fracture induced creation of parallel silicone strips”, Polymer Preprints, 239th ACS meeting, 2010.

19.   B.-m. Zhang Newby, Y. Cai, F. Song, S.-H. Choi, “Generating Step-wise Gradient Surfaces as Combinatory Tools for Investigating Adhesion Phenomena”, the Proceedings of the 29th Annual Meeting of the Adhesion Society, 2006.

18.   A. Al-Juhni, B.-m. Zhang Newby,Bulk Entrapment of Less Toxic Antifouling Compounds into Silicone Coatings to Evaluate Their Release: Experimental Studies and Mathematical Modeling”, Smart Coating 2006 Symposium, 2006.

17.   A. Al-Juhni, B.-m. Zhang Newby, “Incorporation of Sodium Benzoate into Silicone Coatings: An Environmental Friendly Way to Resolve Biofouling Problems”, the Proceedings of the 28th Annual Meeting of the Adhesion Society, 2005.

16.   S.-H. Choi, B.-m. Zhang Newby, “Adhesion Enhancement of Amino-functional Organosilane for Polystyrene Thin Films”, the Proceedings of the 28th Annual Meeting of the Adhesion Society, 2005.

15.   B.-m. Zhang Newby, C. Loskofsky, C. A. Barrios, “Under Water Adhesion Measurement with JKR Technique”, the Proceedings of the 28th Annual Meeting of the Adhesion Society, 2005.

14.   B.-m. Zhang Newby, C. A. Barrios, Q. W. Xu, T. J. Cutright, “Zosteric Acid: An Effective Antifoulant For Reducing Bacterial Attachment on Coatings”, Abstracts of Papers of the American Chemical Society, 228:322-Poly, Part 2, Aug 22, 2004.

13.   A. Al-Juhni, B.-m. Zhang Newby, “Techniques for Incorporating of Capsaicin into Silicone for Enhanced Antibacterial Performance”, the Proceedings of the 27th Annual Meeting of the Adhesion Society, 2004.

12.   C. A. Barrios, Q. W. Xu, T. J. Cutright, B.-m. Zhang Newby,, “Evaluation of Antifouling Properties of Zosteric Acid”, the Proceedings of the 27th Annual Meeting of the Adhesion Society, 2004.

11.   S.-H. Choi, B.-m. Zhang Newby, “Rim Instabilities Depending on Substrate Surface Energy in Polystyrene Thin Film Dewetting”, the Proceedings of the 27th Annual Meeting of the Adhesion Society, 2004.

10.  K. R. Jaggari, B.-m. Zhang Newby, “Immobilizing Capsaicin on Silicone To Access the Coatings Antifouling Performance”, the Proceedings of the 26th Annual Meeting of the Adhesion Society, 2003.

9.   S.-H. Choi, B.-m. Zhang Newby, “An Alternative Method for Determining Surface Energy by Utilizing  Polymer Thin Film Dewetting”, the Proceedings of the 26th Annual  Meeting of the Adhesion Society, 2003.

8.     K. R. Jaggari and B.-m. Zhang Newby, “Preparation of Porous PDMS Membranes by Polymer Blend Phase Separation Mechanism”, Abstracts of Papers of the American Chemical Society, 224:164-Poly, Part 2, Aug 18, 2002.

7.     M. K. Chaudhury, B.-m. Zhang Newby, “Adhesion, Friction and Fracture”, Abstracts of Papers of the American Chemical Society, 216:284-Poly, Part 3, Aug 23, 1998.

6.     B.-m. Zhang Newby, M. K. Chaudhury, “Effect of Interfacial Friction on Adhesion”, the Proceedings of the 21st Annual Meeting of the Adhesion Society, 1998.

5.     H.R. Brown, M. K. Chaudhury, B. M. Newby, “Relation Between Slip and Energy Dissipation in Viscoelastic Adhesives” Advances in Fracture Research, Vols 1-6, 3037-3040, 1997.

4.     B.-m. Zhang Newby, M. K. Chaudhury, “Viscoelastic Adhesion Between a Pressure Sensitive Adhesive and Surfaces with Low Surface Free Energy”, the Proceedings of the 20th Annual “Anniversary” Meeting of the Adhesion Society, 1997.

3.     M. K. Chaudhury, H. She, B.-m. Zhang Newby, “Using Rolling Contact Mechanics to Study Adhesion Hysteresis at Polymer Oxide Interfaces”, the Proceedings of the 20th Annual “Anniversary” Meeting of the Adhesion Society, 1997.

2.     H. R. Brown, M. K. Chaudhury, B.-m. Zhang Newby, “Effects of Segment Mobility on Slip and Adhesion”, Polymer Preprints, 37(2), 1996.

1. M. K. Chaudhury, B.-m. Zhang Newby, “A Direct Observation of Hydrodynamic Slip at an Adhesive-Substrate Interface”, Polymeric Materials: Science and Engineering, 75, 1996.

Research Lab for Surface Modification and Materials