1. M. M. Henricus, K. R. Fath, M. Z. Menzenski, I. A. Banerjee "Morphology Controlled Growth
of Chitosan-Coated Microtubes and a study of their Biocompatibility and Antibacterial Activity"
Macromol. Biosci. 2008, In Press.
2. M. M. Henricus, K. T. Johnson, I. A. Banerjee "Investigation of Insulin Loaded Self-Assembled
Microtubules for Drug Release" Bioconjug. Chem. 2008, In Press.
3. M. M. Henricus, I. A. Banerjee “Implications of Self-Assembly on Peptide Based
Nano/Micro-stuctured Materials and Beyond” Coll. Surf. Sci. Series, In Press,
2008 (Invited Review).
4. R. I. MacCuspie, I. A. Banerjee, S. Gummalla, H. S. Mostowski, P. R. Krause, H. Matsui, “Virus
Assay Using Antibody-Functionalized Peptide Nanotubes”, Soft Matter, 4, 833, 2008.,
5. K. I. Fabijanic, M. R. Regan, I. A. Banerjee “Amino Acid Catalyzed Biomimetic Preparation
of Tin oxide-GermaniaNanocomposites and their Characterization”. J. Nanosci. Nanotech. 7, 2674, 2007.
6. R. L. Spear, R. Tamayev, K. R. Fath, I.A. Banerjee “Templated growth of calcium phosphate
on tyrosine derived microtubules and their biocompatibility” Coll. Surf. B: Biointerfaces,
60( 2), 158, 2007.
7. M. R. Regan, I. A. Banerjee “Immobilization of invertase in Germania matrix and a study of its
enzymatic activity”. J. Sol-Gel Sci. Tech. 43, 27, 2007.
8. M. Z. Menzenski, I. A. Banerjee “Self-assembly of supramolecular nanostructures from
phenylalanine derived bolaamphiphiles”. New J. Chem. 31, 1674, 2007.
9. I. A. Banerjee, G. Muniz, S. Y. Lee, H. Matsui “Mineralization of Semiconductor
Nanocrystals on peptide-coated Bionanotubes and their pH-dependent morphology
changes”. J. Nanosci. Nanotech. 7, 2287, 2007.
10. O. Taratula,. A. Chen, J. Zhang, J. Chaudhry, L. Nagahara, I. Banerjee, H. He, “Highly Aligned
Ribbon-Shaped Pd Nanoparticle Assemblies by Spontaneous Organization”
J. Phys. Chem. C. 111(21), 7666, 2007.
11. M. R. Regan, I. A. Banerjee. “In situ Growth of CoPt Nanoparticles in Porous Germania
Nanospheres”. Mater. Lett. 61(1), 71, 2007.
12. M.R. Regan, I. A. Banerjee. “Preparation of Au–Pd bimetallic Nanoparticles in Porous
Germania Nanospheres: A study of their morphology and catalytic activity”.
Scrip. Mater.54(5), 909, 2006.
13. I. A. Banerjee, M. R. Regan “Preparation of Gold Nanoparticle Templated Germania
Nanoshells”. Mater. Lett. 60(7), 915, 2006.
14. I. A. Banerjee, R. L. Spear, R. Tamayev, M. Z. Menzenski, S. Colletti “Formation of
Nanotubes and Nanovesicles from Bolaamphiphilic Peptides and their Applications”.
Polym. Prep. 47, 2006.
15. I. A. Banerjee, L. Yu and H. Matsui “Room-Temperature Wurtzite ZnS Nanocrystal Growth on Zn
Finger-like Peptide Nanotubes by Controllong Their Unfolding Peptide Structures”.
J. Am. Chem. Soc., 127, 16002, 2005.
16. L. Yu, I. A. Banerjee, X. Gao, N. Nuraje and H. Matsui. “Fabrication and Application of Enzyme
Incorporated Peptide Nanotubes”. Bioconjug. Chem. 16, 1484, 2005.
17. I. A. Banerjee, R. L. Spear “From Peptide Nanspheres to Nanorods”. Polym. Prep.46(2), 746, 2005.
18. Z. Zhao, I. A. Banerjee, H. Matsui “Simultaneous Targeted Immobilization of Anti-Human
IgG Coated Nanotubes and Anti-Mouse IgG-coated Nanotubes on the Complementary Antigen-
Patterned Surfaces Via Biological Molecular Recognition”. J. Am. Chem. Soc. 127, 8930, 2005.
19. I. A. Banerjee, L. Yu, M. Shima, T. Yoshino, H. Takeyama, T. Matsunaga and H. Matsui
“Magnetic Nanotube Fabrication by Using Bacterial Magnetic Nanocrystals”.
Adv. Mater. 17, 1128, 2005.
20. I. A. Banerjee, L.Yu, R. MacCuspie, H. Matsui. “Assembly of Peptide Nanotubes on
Patterned Arrays using Nanolithography”. Nano Lett.4(12), 2437, 2004.
21. Y. F. Chen, I. A. Banerjee, L.Yu, R. Djalali and H. Matsui. “Fabrication of Ferrocene
Nanotubes and their Electric Field-Controlled Molecular Recognitions”
Langmuir, 20(20), 8409, 2004.
22. N. Nueraje, I. A. Banerjee, R. MacCuspie, L.Yu, H. Matsui “Biological Bottom-Up
Assembly of Antibody Nanotubes on Patterned Antigen Arrays”. J. Am. Chem. Soc.
126(26), 8088, 2004.
23. L. Yu, I. A. Banerjee, M. Shima, K. Rajan, H. Matsui, “Size-Controlled Ni Nanocrystal Growth
on Peptide Nanotubes and Their Magnetic Properties”, Adv. Mater. 16, 709, 2004.
24. L. Yu, I. A. Banerjee, H. Matsui “Incorporation of Sequenced Peptides on Nanotubes for Pt
Coating: Smart Control of Nucleation and Morphology via Activation of Metal Binding Sites
on Amino Acids”, J. Mater. Chem., 14, 739 2004.
25. I. A. Banerjee, L.Yu, and H. Matsui “Cu Nanocrystal Growth on Peptide Nanotubes via
Biomineralization: Size Control of Cu Nanocrystals by Tuning Peptide Conformation”.
Proc. Natl. Acad. Sci., USA. 100(25), 14678, 2003
26. R. Djalali, Y. F. Chen, L. Yu, I. A. Banerjee, H. Matsui "Smart Peptide Nanotubes:
Targeted Immobilization via Molecular Recognition". Polym. Mater. Sci. Engg. 89, 273, 2003.
27. L.Yu, I. A. Banerjee, and H. Matsui “Direct Growth of Shape-Controlled Nanocrystals on
Nanotubes via Biological Recognition”. J. Am. Chem. Soc. 125, 14837, 2003.
28. I. A. Banerjee, L. Yu, and H. Matsui “Photochemically Controlled Azobenzene
coated Nanotubes-Attachment and Detachment via Molecular Recognition”.
J. Am. Chem. Soc. 125(32), 9542, 2003.
29. I. A. Banerjee, L. Yu, and H. Matsui “Location-Specific Biological Functionalization on Nanotubes:
Attachment of Proteins at the Ends of Nanotubes Using Au Nanocrystal Masks” Nano Lett. 3(3),
283, 2003.
30. I. A. Banerjee, G. A. Epling. “Dye-Amine Conjugates as Novel Photoinitiators”.
Polym. Prep. 44 (1), 4289, 2003.
31. I. A. Banerjee, G. A. Epling, N. K. Modukuru. "Protein-Enhanced Photoreactivity –
“Dye Promoted Polymerization of Acrylates". Eur. Polym. J.38(12), 2383, 2002.
32. J. D. Pitts, A. R. Howell, R. Taboada, I. Banerjee, J. Wang, S. L. Goodman and P. J. Campagnola. “
New Photoactivators for Multi-Photon Excited 3 Dimensional Sub-Micron Crosslinking of Proteins”.
Photochem. and Photobiol. B, 76(2), 135, 2002.
33. I. A. Banerjeeand G. A. Epling. "Dye Sensitized Formation of Graft Copolymers of
Poly(Ethylene Glycol) Diacrylate-BSA Hydrogels in the presence of Visible Light".
Polym. Prep. 43(1) 488, 2002.
34. G.A. Epling and I. A.Banerjee “New Photocatalysts for the Polymerization of Acrylates”.
Polym. Prep. 42(1), 492, 2001.
