Journal Articles
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2012
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A. M. Ross, H. Nandivada, A. L. Ryan, J. Lahann, "Synthetic Substrates for Long-Term Stem Cell Culture", Polymer (2012). |
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L. G. Villa-Diaz, S. E. Brown, Y. Liu, A. M. Ross, J. Lahann, J. M. Parent, P. H. Krebsbach, "Derivation of Mesenchymal Stem Cells from Human Induced Pluripotent Stem Cells Cultured on Synthetic Substrates", Stem Cells (2012). |
X. Deng*, T. W. Eyster*, Y. Elkasabi, J. Lahann, "Bio-Orthogonal Polymer Coatings for Co-Presentation of Biomolecules", Macromolecular Rapid Communications (2012). |
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D. Frank, M. Nieger, C. Friedmann, J. Lahann, S. Brase, "Functional Paracyclophanes: Synthesis of [2.2] Paracyclophanemethyldithiocarbonates Using Thione-Thiol Rearrangement of S, O-Dithiocarbonates (Benzyl Schonberg Rearrangement) at Mild Conditions", Israel Journal of Chemistry(2012) 52(1-2), 143-148. |
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S. Saha, D. Copic, S. Bhaskar, N. Clay, A. Donini, A. J. Hart, J. Lahann, "Chemically Controlled Bending of Compositionally Anisotropic Microcylinders", Angewandte Chemie International Edition (2012) 51 (3), 660-665. |
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A.M. Ross, Z. Jiang, M. Bastmeyer, J. Lahann, "Physical Aspects of Cell Culture Substrates: Topography, Roughness, and Elasticity", Small (2012) 8(3), 336-355. |
2011
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Z. Qu, S. Muthukrishnan, M. K. Urlam, C. A. Haller, S. W. Jordan, V. A. Kumar, U. M. Marzec, Y. Elkasabi, J. Lahann, S. R. Hanson, E. L. Chaikof, "A Biologically Active Surface Enzyme Assembly that Attenuates Thrombus Formation", Advanced Functional Materials (2011) 21, 4736-4743. |
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X. Deng, C. Friedmann, J. Lahann, "Bio-Orthogonal "Double-Click" Chemistry Based on Multifunctional Coatings", Angewandte Chemie International Edition (2011) 50, 6522-6526. |
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H. Nandivada, L. G. Villa-Diaz, K. S. O'Shea, G. D. Smith, P. H. Krebsbach, J. Lahann, "Fabrication of Synthetic Polymer Coatings and Their Use in Feeder-Free Culture of Human Embryonic Stem Cells", Nature Protocols (2011) 6, 1037-1043. |
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J. Yoon*, K. J. Lee*, J. Lahann, "Multifunctional Polymer Particles with Distinct Compartments", Journal of Materials Chemistry (2011) 21(24), 8502-8510 (Feature Article, Invited). |
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J. Lahann, "Recent Progress in Nanobiotechnology: Compartmentalized Micro- and Nanoparticles via Electrohydrodynamic Co-jetting", Small (2011) 7(9), 1149-1156. |
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K. J. Lee*, J. Yoon*, J. Lahann, "Recent advances with anisotropic particles", Current Opinion in Colloid & Interface Science (2011) 16, 195-202. |
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K. J. Lee, S. Hwang, J. Yoon, S. Bhaskar, T.-H. Park, J. Lahann, "Compartmentalized Photoreactions within Compositionally Aniostropic Janus Microstructures", Macromolecular Rapid Communications, (2011) 32(5), 431-437 (Cover Article). |
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S. Bhaskar, C.T. Gibson, M. Yoshida, H. Nandivada, X. Deng, N.H. Voelcker, J. Lahann, "Engineering Characterization and Directional Self-Assembly of Anisotropically Modified Nanocolloids", Small (2011) 7(6), 812-819. |
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H.Y. Chen, J. Lahann, "Designable Biointerfaces Using Vapor-Based Reactive Polymers", Langmuir (2011) 27(1), 34–48 (Feature Article, Cover Article). |
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Y. Elkasabi, J. Lahann, P. Krebsbach, "Cellular Transduction Gradients via Vapor-Deposited Polymer Coatings", Biomaterials (2011) 32 (7), 1809-1815. |
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A. Ross, D. Zhang, X. Deng, S.L. Chang, J. Lahann "CVD-based Binding Substrates for Spatially Rresolved Analysis of Protein Binding by Imaging Ellipsometry", Analytical Chemistry (2011) 83(3), 874-880. |
2010
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H.Y. Chen, M. Hirtz, X. Deng, T. Laue, H. Fuchs, J. Lahann, "Substrate-Independent Dip-Pen Nanolithography Based on Reactive Coatings", JACS (2010) 132(51), 18023–18025. |
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S. Hwang, K.-H. Roh, D. W. Lim, G. Wang, C. Uher and J. Lahann, "Anisotropic hybrid particles based on electrohydrodynamic co-jetting of nanoparticle suspensions", Phys. Chem. Chem. Phys. (2010), 12, 11894-11899.
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| H.Y. Chen, J. Lahann, "Surface Modification Strategies for Microfluidics based on Reactive Coatings", Bioanalysis (2010), 2, 10, 1717–1728.
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Y. Zhang, X. Deng, E.L. Scheller, J. Lahann, R.T. Franceschi, P.H. Krebsbach, "The effect of Runx2 immobilization on poly(epsilon-caprolactone) on osteoblast differentiation of bone marrow stromal cells in vitro", Biomaterials (2010) 32(7), 1809-1816.
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S. Tawfick, X. Deng, A.J. Hart, J. Lahann, "Nanocomposite Microstructures with Tunable Mechanical and Chemical Properties", Phys. Chem. Chem. Phys. (2010) 12, 11894-11899 (invited paper).
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L. G. Villa-Diaz*, H. Nandivada*, J. Ding, N. C. Nogueira-de-Souza, P. H. Krebsbach, K. Sue O'Shea, J. Lahann and G. D. Smith "Synthetic polymer coatings for long-term growth of human embryonic stem cells", Nature Biotechnology (2010) 28(6), 581-583. [*co-first-authors] |
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H. Nandivada, A. M. Ross, J. Lahann, "Stimuli responsive monolayers for biotechnology", Progress in Polymer Science (2010) 35(1-2), 141-154. |
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D. W. Lim, S. Hwang, O. Uzun, F. Stellacci, J. Lahann, "Compartmentalization of Gold Nanocrystals in Polymer Microparticles Using Electrohydrodynamic Co-jetting", Macromolecular Rapid Communications (2010) 31(2), 176-182. |
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A. Kazemi, J. Lahann, M. Madani, N. S. Sanjani, A. H. Kaviar, "Preparation of Core-Shell and Hollow Fibers Using Layer by Layer (LbL) Self-Assembly of Polyelectrolytes on Electrospun Submicrometer-Scale Silica Fibers", Polymer Science Series B (2010) 52(9-10), 571-574. |
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S. Bhaskar, K. M. Pollock, M. Yoshida, J. Lahann, "Towards Designer Microparticles: Simultaneous Control of Anisotropy, Shape, and Size", Small (2010) 6(3), 404-411. |
| R.G. Larson, M. Alumnà López, D.W. Lim, J. Lahann, "Complex Protein Patterns in Drying Droplets", MRS Proceedings (2010) (online publication). |
| J. Lahann, "Multifunctional Nano- and Microparticles – quo vadis?", Macromolecular Rapid Communications (2010) 31, 105-107. |
| Y. Elkasabi, J. Lahann, "Progress Report on Microstructured Surfaces Based on Chemical Vapor Deposition", in Biological Microarrays: Methods & Protocols, Methods in Molecular Biology, vol. 671, ed. A. Khademhosseini, Springer Science+Business Media, (2010). |
2009
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N. Doshi, A.S. Zahr, S. Bhaskar, J. Lahann, S. Mitragotri, "Red Blood Cell-Mimetic Particles: Bridging the Gap between Synthetic and Biological Materials", Proceedings of the National Academy of Sciences (2009) 106, 21495–21499.
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W.-W. Hu, Y. Elkasabi, H.-Y. Chen, Y. Zhang, J. Lahann, S.J. Hollister, P.H. Krebsbach, "The use of reactive polymer coatings to facilitate gene delivery from poly(epsilon-caprolactone) scaffolds", Biomaterials (2009) 30, 5785-5792.
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J.P. Seymour, Y. Elkasabi, H.-Y. Chen, J. Lahann, D.R. Kipke, "The insulation performance of reactive parylene films in implantable electronic devices", Biomaterials (2009) 30, 5785-5792.
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M. Yoshida, K-H. Roh, S. Mandal, S. Bhaskar, D. W. Lim, H. Nandivada, X. Deng, J. Lahann, "Structurally Controlled Bio-hybrid Materials Based on Unidirectional Association of Anisotropic Microparticles with Human Endothelial Cells", Advanced Materials (2009) 21(48), 4920-4925. |
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S. Mandal, S. Bhaskar, J. Lahann, "Micropatterned Fiber Scaffolds for Spatially-Controlled Cell Adhesion", Macromolecular Rapid Communications (2009) 131(19), 6650-6651. |
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Y. Elkasabi, H. Nandivada, H-Y Chen, S. Bhaskar, J. D'Arcy, L. Bondarenko, J. Lahann, "Partially Fluorinated Poly-p-xylylenes Synthesized by CVD Polymerization", Chemical Vapor deposition (2009) 15(4-6), 142-149. |
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A. Sun and J. Lahann, "Dynamically Switchable Biointerfaces" Soft Matter (2009) 5(8), 1555-1561. |
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S. Bhaskar, J. Hitt, S-W. L. Chang, J. Lahann, "Multicompartmental Microcylinders" Angew Chemie Int Ed 48(25), 4589-4593. |
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S. Bhaskar, J. Lahann, "Microstructured Materials based on Multicompartmental Fibers", JACS 131(19), 6650-6651. |
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S. Mitragotri and J. Lahann, "Physical approaches to biomaterial design", Nature Materials (2009) 8, 15-23. |
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Y. Elkasabi, J. Lahann, "Vapor-based polymer gradients", Macromolecular Rapid Communications (2009) 30, 1, 57-63. |
2008
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D.N. Hohne, H.-Y. Chen, J. Lahann, M.J. Solomon, "Near-Surface structure of lithographic in-fountain solution emulsions on model substrates", Colloids and Surfaces A 2008, 326, 138-146. |
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A. Kazemi, J. Lahann, "Environmentallly responsive core/shell particles via electrohydrodynamic co-jetting of fully miscible polymer solutions", Small (2008) 4(10), 1756-1762. |
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S. Bhaskar, K-H. Roh, X.W. Jiang, G.L. Baker, J. Lahann, "Spatioselective modification of bicompartmental polymer particles and fibers via Huisgen 1,3-dipolar cycloaddition", Macromolecular rapid communications (2008) 29(20), 1655-1660. |
D.K. Peng, A.A. Ahmadi, J. Lahann, "A synthetic surface that undergoes spatiotemporal remodeling", Nano Letters (2008) 8(10), 3336-3340. |
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H.Y. Chen, J.H Lai, X.W. Jiang, J. Lahann, "Substrate-selective chemical vapor deposition of reactive polymer coatings", Advanced Materials (2008) 20(18), 3474. Metal-mediated inhibition of CVD polymerization of functionalized [2.2]paracyclophane with a wide range of functional groups is investigated and selective deposition is established for poly(4-vinyl-p-xylylene-co-p-xylylene). |
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Y. Elkasabi, M. Yoshida, H. Nandivada, H-Y. Chen, J. Lahann, "Towards multipotent coatings: Chemical vapor deposition and biofunctionalization of carbonyl-substituted copolymers", Macromolecular rapid communications (2008) 29(11), 855-870. We report the development of multifunctional polymer coatings made by chemical vapor deposition (CVD) copolymerization. |
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M. Yoshida, J. Lahann, "Smart Nanomaterials", ACS Nano (2008) 2(6), 1101-1107. [Perspective] “Smart” materials are materials that undergo dynamic and reversible changes in specific properties in response to certain environmental stimuli. In this perspective, challenges in the field of "smart" materials are highlighted. |
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J. Lahann, "Environmental nanotechnology - Nanomaterials clean up", Nature Nanotechnology (2008) 3(6), 320-321.
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Hsien-Yeh Chen, Arthur McClelland, Zhan Chen, Joerg Lahann, "Solventless Adhesive Bonding Using Reactive Polymer Coatings", Analytical Chemistry (2008) 80(11), 4119-4124. A novel solventless adhesive bonding (SAB) process is reported, which is applicable to a wide range of materials including, but not limited to, poly(dimethylsiloxane) (PDMS). The bonding is achieved through reactions between two complementary polymer coatings, poly(4-aminomethyl- p-xylylene- co- p-xylylene) and poly(4-formyl- p-xylylene- co- p-xylylene), which are prepared by chemical vapor deposition (CVD) polymerization of the corresponding [2.2]paracyclophanes and can be deposited on complementary microfluidic units to be bonded. These CVD-based polymer films form well-adherent coatings on a range of different substrate materials including polymers, glass, silicon, metals, or paper and can be stored for extended periods prior to bonding without losing their bonding capability. |
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X. Jiang, H.-Y. Chen, G. Galvan, M. Yoshida, J. Lahann, "Vapor-based initiator coatings for atom transfer radical polymerization", Advanced Functional Materials (2008) 18(1), 27-35. Chemical vapor deposition of [2.2]paracyclophane-4-methyl 2-bromoisobutyrate was prepared on a wide range of materials as initiator coating. Surface initiated atom transfer radical polymerization of a oligo(ethylene glycol) methyl ether methacrylate was demonstrated on these surfaces as model example for the regulations of protein adsorption and cell adhesion. |
| W.L. Huang, Z. Ren, Y.W. Lin, H.Y. Chen, J. Lahann, "C.T.C. Nguyen, MEMS 2008: 21st IEEE International Conference on Micro-electro-mechanical Systems", Technical Digest (2008) 10-13. |
| H. Wang, S. Bhaskar, J. Lahann, Y.G. Lee, "Optical Trapping of Janus Particles", Proc. of SPIE (2008) 7038, 703813-1 – 703813-8. |
| H. Nandivada, X. Jiang, A. Panades, A. Bourke, M. Yoshida, H.Y. Chen, J. Lahann, "Bioimmobilization using Huisgen [1.3]-dipolar cycloaddition on vapor-based coatings", Polymer Preprints (2008). |
| H.Y. Chen, X. Jiang, M. Yoshida, J. Lahann, "Spatially controlled engineering of biointerfaces via functionalized poly-p-xylylenes", Polymer Preprints (2008). |
| Y. Elkasabi, M. Yoshida, J. Lahann, "Multifunctional biomedical coatings via chemical vapor deposition co-polymerization of [2.2]paracyclophanes", Polymer Preprints (2008). |
2007
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P. Podsiadlo, A.K. Kaushik, E.M. Arruda, A.M. Waas, B.S. Shim, J. Xu, H. Nandivada, B.G. Pumplin, J. Lahann, A. Ramamoorthy, N.A. Kotov, "Ultrastrong and stiff layered polymer nanocomposites", Science (2007) 318(5847), 80-83. |
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P. Katira, A. Agarwal, T. Fischer, H.Y. Chen, X. Jiang, J. Lahann, H. Hess, "Quantifying the performance of protein-resisting surfaces at ultra-low protein coverages using kinesin motor proteins as probes", Advanced Materials (2007) 19, 3171-3176 (invited paper). |
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D.K. Peng, J. Lahann, "Chemical, Electrochemical, and Structural Stability of Low-Density Self-Assembled Monolayers", Langmuir (2007) 23, 10184-10189. |
| P. Podsiadlo, L. Sui, Y. Elkasabi, P. Burgardt, J. Lee, A. Miryala, W. Kusumaatmaja, M.R. Carman, M. Shtein, J. Kieffer, J. Lahann, N. Kotov, "Layer-by-Layer Assembled Films of Cellulose Nanowires with Antireflective Properties", Langmuir (2007), 23, 15, 7901-7906. |
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S. Thevenet, H-Y. Chen, J. Lahann, F. Stellaci, "A generic approach towards nanostructured surfaces based on supramolecular nanostamping on reactive polymer coatings", Advanced Materials (2007) 19(24), 4333-4337. Various surfaces can successfully be coated with reactive polymer coatings and then patterned with DNA features using supramocular nanostamping (SuNS). Surfaces as different as silicon, quartz, polystyrene, PMMA and PDMS have been patterned using the same protocol. In addition to the previously demonstrated high resolution and high information transfer of SuNS this approach makes it a substrate-independent method. |
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K-H. Roh, M. Yoshida, J. Lahann, "Compartmentalized, multiphasic nanocolloids with potential applications in drug delivery and biomedical imaging", Materialwissenschaft und werkstofftechnik (2007) 38(12), 1008-1011. Nanoparticles are excellent candidates for drug delivery or biomedical imaging, because they often exhibit superb tuneability of critical properties, such as size, surface characteristics, degradation rate, and therefore drug release rates. We have recently developed a route towards fabrication of sub-micron particles that relies on electrohydrodynamic co-jetting. In this process, fluid manipulation in an electrical field is used to fabricate large quantities of multi-compartment particles, where individual compartments can be independently loaded with different drugs or selectively surface-modified. In this contribution, aspects of multifunctional particles for biomedical applications are reviewed and a specific focus is given to recent progress with compartmentalized, multiphasic nanocolloids in our laboratory. |
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H-Y. Chen, J. Lahann, "Vapor-assisted micropatterning in replica structures: A solventless approach towards topologically and chemically designable surfaces", Advanced Materials (2007) 19(22), 3801-3808. Vapor-assisted micropatterning in replica structures (VAMPIR) provides a simple method for fabricating both, chemically and topologically designable surfaces based on chemical vapor deposition polymerization. The images show surface microstructures containing fluorescence-labeled proteins or quantum dots. |
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H. Nandivada, X. Jiang, J. Lahann, "Click Chemistry: Versatility and control in the hands of materials scientists", Advanced Materials (2007) 19, 2197-2208.
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H.-Y. Chen, J.-M. Rouillard, E. Gulari, J. Lahann, "Colloids with High-Definition Surface Structures", PNAS (2007) 104 (27), 11173-11178. A highthroughput projection lithography technique was applied on micro-spheres which were modified previously by photodefinable CVD polymer. This method can yield surface-structured colloidal particles at a rate of 107 to 108 particles per operator per day. Equipped with spatially defined binding pockets, microstructured colloids can engage in programmable interactions, which can lead to directed self-assembly. The ability to create a wide range of colloids with both simple and complex surface patterns may contribute to the genesis of previously unknown colloidal structures and may have important technological implications in a range of different applications, including photonic and phononic materials or chemical sensors. |
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M. Yoshida, K.H. Roh, J. Lahann, "Short-term biocompatibility of biphasic nanocolloids with potential use as anisotropic imaging probes", Biomaterials (2007) 28, 15, 2446-2456.
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K.H. Roh, M. Yoshida, J. Lahann, "Water-stable Biphasic Nanocolloids with Potential Use as Anisotropic Imaging Probes", Langmuir (2007) 23, 10, 5683-5688. Artistic rendering of water- stable biphasic nanocolloids, which are prepared by electrified co-jetting of two jetting solutions through side-by-side capillaries and subsequent thermal imidization reaction. Two aqueous polymer solutions containing different biomolecules were employed as jetting solutions. Originally, water-soluble particles become water-insoluble by thermal imidization reaction, and the colloid suspension showed stability over multiple weeks in an aqueous environment. |
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D.K. Peng. S.T. Yu, D.J. Alberts, J. Lahann, "Switching the Electrochemical Impedance of Low-Density Self-Assembled Monolayers", Langmuir (2007) 23, 1, 297-304.
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| L. Villa-Diaz, H. Nandivada, J. Ding, S. O'Shea, J. Lahann, G. Smith, "Culture and passage of human embryonic stem cells on an artificial synthetic matrix composed of polyMEDSAH hydrogel", Biology of Reproduction (2007), 186-186. |
K.-H. Roh, J. Lahann, "Anisotropic encapsulation of supermagentic nanocrystals in polymeric biphasic nanocolloids", Polymer Preprints (2007) 48, 209-210 |
2006
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J. Lahann,"Reactive Polymer Coatings for Biomimetic Surface Engineering", Chemical Engineering Communications (2006) 193, 1457-1468. (invited review).
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L. Bondarenko, J.W. Kampf, J. Lahann, "The Synthesis of Brominated Tetrafluoro[2.2]paracyclophanes", European Journal of Organic Chemistry (2006) 5499-5504.
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M. Yoshida, R. Langer, A. Lendlein, and J. Lahann, "From advanced biomedical coatings to intelligent biomaterials", Polymer Reviews (2006) 46, 347-375. |
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J. Lahann, "Vapor-Based Polymer Coatings For Potential Biomedical Applications", Polymer International (2006) 55 (12), 1361-1370. |
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Y. Elkasabi, H.Y. Chen, J. Lahann, "Multi-potent polymer coatings based on chemical vapor deposition co-polymerization", Advanced Materials (2006) 18, 1521-1526. Using chemical vapor deposition co-polymerization, we have developed a simple strategy towards multi-functional surfaces presenting two different biological ligands in controllable ratios. These modularly designable polymer coatings are applicable to a wide range of biomedical devices including microanalytical or diagnostic systems. |
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K.H. Roh, D.C. Martin, J. Lahann, "Triphasic Nanocolloids", Journal of the
American Chemical Society (2006) 128, 21, 6796-6797.
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H. Nandivada, H.Y. Chen,
L. Bondarenko, J. Lahann, "Reactive polymer coatings that "click"", Angewandte Chemie International Edition (2006) 45, 20, 3360-3363. Vapor-based alkyne-containing polymer coatings have showed remarkable reactivity towards azides via the chemoselective Huisgen’s 1,3-dipolar cycloaddition. As a flexible bioconjugation platform, this regioselective immobilization strategy could be applicable in the design of biofunctional surfaces for diagnostics (e.g. microarrays), biosensors, and biomedical device coatings.
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H.Y. Chen, Y. Elkasabi, J. Lahann, "Surface modification of confined
microgeometries via vapor-deposited polymer coatings", Journal of the American
Chemical Society (2006) 128, 1, 374-80. Chemical vapor deposition polymerization within confined geometries. |
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Y. Wang, Z. Tang, P. Podsiadlo, Y. Elkasabi, J. Lahann, N.A. Kotov, "Mirror-Like
Photoconductive Layer-by-Layer Thin Films of Te Nanowires: The Fusion of
Semiconductor, Metal, and Insulator Properties", Advanced Materials (2006) 18,
518-522. Corresponding author: Nicholas A. Kotov. |
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J.M. Wu, Y. Chung, K.J. Belford, G.D. Smith, S. Takayama, J. Lahann. "A Surface-Modified Sperm Sorting Device with Long-Term Stability", Biomedical Microdevices (2006) 8, 99-107. |
| K.-H. Roh, D.C. Martin, J. Lahann, "Multiphasic nanocolloids based on electrified co-jetting", PMSE Preprints (2006) 95, 987-988 |
| H.-Y. Chen, J.M. Rouillard, E. Gulari, J. Lahann, "High-precision surface of three-dimensional geometries using photodefinable, ultrathin polymer coatings", PMSE Preprints (2006) 95, 125-126. |
| Y. Elkasabi, H.-Y. Chen, J. Lahann, "Multifunctional Coatings based on chemical vapor deposition co-polymerization", Polymer Preprints (2006) 47, 1093. |
| H. Nandivada, H.-Y. Chen, J. Lahann, "Reactive Coatings for surface modification via spatially controlled Husigen 1,3-dipolar cycloaddition", Polymer Preprints (2006) 47, 348. |
| K.-H. Roh, J. Lahann, "Thermal imidazation combined with electrified co-jetting for the synthesis of water stable biphasic nanocolloids", Polymer Preprints (2006) 47, 1093. |
2005
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K.H. Roh, D.C. Martin, J. Lahann, "Biphasic Janus particles with nanoscale anisotropy", Nature Materials (2005) 4, 759-763. Anisotropic material distribution can be induced at the nanometer scale by the use of electrified jetting. Side-by-side dual capillaries were employed to expose two distinct parallel polymer solutions to an electrical field simultaneously. The individual phases of the resulting polymer-based Janus particles can be independently loaded with biomolecules or selectively modified with reactive ligands. |
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H. Nandivada, H. Y Chen, J. Lahann, "Vapor-Based Synthesis of
Poly[(4-formyl-p-xylylene)-co-(p-xylylene)] and Its Use for Biomimetic Surface
Modifications", Macromolecular Rapid Communications (2005) 26, 1794-1799. The synthesis of a reactive polymer, poly(4-formyl-p-xylylene-co-p-xylylene), via chemical vapor deposition (CVD) polymerization is reported. Moreover, usefulness of these polymer coatings for biomimetic surface modifications is demonstrated. |
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H.Y. Chen, J. Lahann, "Fabrication of Discontinuous Surface Patterns within
Microfluidic Channels Using Photodefinable Vapor-Based Polymer Coatings", Analytical Chemistry (2005) 77, 6909-6914. Spatially controlled protein adsorption via photopatterning of reactive coatings deposited within microchannels. |
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J. Lahann, R. Langer, "Smart Materials with Dynamically Controllable Surfaces", MRS Bulletin (2005) 30, 3, 185-188.
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H.Y. Chen, J. Lahann, "Preparation of Non-Fouling Coatings Made by Chemical Vapor Deposition Polymerization", Polymer Preprints (2005) 46(2), 1280-1281 |
J. Lahann, "Bio-Functional Polymer Coatings Based on Chemical Vapor Deposition", PMSE Preprints (2005) 92, 39-40. |
2004
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K.Y. Suh, R. Langer, J. Lahann, "A novel photodefinable reactive polymer coating
and its use for microfabrication of hydrogel elements", Advanced Materials (2004)
16, 16, 1401-1405.
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K. Schürmann, J. Lahann, J. Meyer, H. Klosterhalfen, D. Vorwerk, D. Klee, R.W. Günther, "Biologic Response to Polymer-Coated Stents Examined in a Iliac Artery Sheep Model", Radiology (2004) 230, 1, 151-162.
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2003
- J. Lahann, S. Mitragotri, T. Tran, H. Kaido, J. Sundaran, S. Hoffer, G. A. Somorjai, R. Langer, "A Reversibly Switching Surface", Science (2003) 299, 371-374.
- K. Suh, J. Lahann, R. Langer, "Fabrication of elastomeric stamps with polymer-reinforced sidewalls via chemically selective vapor deposition polymerization of poly(p-xylylene)", Applied Physics Letters (2003) 83, 20, 4250-4252.
- J. Lahann, M. Balcells, H. Lu, T. Rodon, K.F. Jensen, R. Langer, "Reactive polymer coatings: A first step toward surface engineering of microfluidic devices", Analytical Chemistry (2003) 75, 2117-2122.
- K. Schürmann, A. Roos, J. Meyer, B. Ries, J. Lahann, B. Hermanns, A. Kulisch, D. Vorwerk, D. Klee, R.W. Gunther, "A novel hirudin coating of vascular endoprostheses: Experimental results", ROFO-Fortschritte auf dem Gebiet der Rontgenstrahlen und bildgebenden Verfahren (2003) 175, 262-270.
2002
- J. Lahann, R. Langer. Novel Poly(p-xylylenes): Films with Tailored Chemical and Optical Properties. Macromolecules (2002) 35,11, 4380-4386.
- J. Lahann, M. Balcells , H. Lu, T. Radon, R. Langer, K.F. Jensen. Functionalized parylene coatings for microfluidic applications. μTAS, 2002.
- J. Lahann, M. Balcells, T. Rodon, J. Lee, I.S. Choi, K.F. Jensen, R. Langer. Reactive Polymer Coatings: A Platform for Patterning Proteins and Mammalian Cells onto a Broad Range of Materials. Langmuir (2002) 18, 9, 3632-3638.
- J. Lahann, W. Plüster, T. Rodon, M. Fabry, D. Klee, H.G. Gattner, H. Höcker. Universal Approach Towards r-Hirudin Derivatives with High Anti-thrombin Activity based on Chemical Differentiation of Primary Amino Groups. Macromolecular Bioscience (2002) 2, 2, 82-87.
2001
- J. Lahann, I.S. Choi, J. Lee, K. Jensen, R. Langer. A New Method toward Micro-Engineered Surfaces based on Reactive Coating. Angew. Chem., Int. Ed., (2001) 40, 3166-3169.
- J. Lahann, R. Langer. Surface-initiated Ring Opening Polymerization of ε-caprolactone from a Patterned Poly[(hydroxymethyl)-p-xylylene]. Macromolecular Rapid Communications (2001) 22, 12, 968-971.
- J. Lahann, R. Langer. Microengineered Surfaces for Biomedical Applications based on a Polymeric Active Ester. Polymer Preprints (2001) 42, 2, 113-114.
- J. Lahann, H. Höcker, R. Langer. Synthesis of Amino[2.2]paracyclophanes-Beneficial Monomers for Bioactive Coating of Medical Implant Materials. Angew. Chem., Int. Ed. (2001) 40, 4, 726-728.
- J. Lahann, W. Plüster, D. Klee, H. Höcker. Bioactive Immobilization of r-Hirudin on CVD-coated Metallic Implant Devices. Biomaterials (2001) 22, 817-826.
- J. Lahann, W. Plüster, H.G. Gattner, D. Klee, H. Höcker. Immobilization of the Thrombin Inhibitor r-Hirudin Conserving its Biological Activity. Journal of Material Science: Materials in Medicine (2001) 12, 9, 807-810.
1999
- J. Lahann, D. Klee, H. Thelen, H. Bienert, D. Vorwerk, H. Höcker. Improvement of the Blood Compatibility of Metallic Stents by Polymer Coating. Journal of Material Science: Materials in Medicine (1999) 10, 7, 443-448.
- J. Lahann, D. Klee, H. Höcker. CVD-polymerization of a Functionalized Poly(p-xylylene). A Generally Applicable Method for the Immobilization of Drugs on Medical Implants. Materialwissenschaften und Werkstofftechnik (1999) 30, 12, 763-766.
1998
- J. Lahann, D. Klee, H. Höcker. Chemical Vapor Deposition Polymerization of Substituted [2.2]Paracyclophanes. Macromolecular Rapid Communications (1998) 19, 441-444.
Books and Book Chapters
- Y. Elkasabi, J. Lahann, "Progress Report on Microstructured Surfaces Based on Chemical Vapor Deposition" in Biological Microarrays: Methods & Protocols, Methods in Molecular Biology, vol. 671, ed. A. Khademhosseini, Springer Science+Business Media, 2010.
- M. Yoshida, J. Lahann, "Surface Engineering of Microfluidic Devices Using Reactive Polymer Coatings" in Biological Applications of Microfluidics, ed. Frank A. Gomez, Wiley-Interscience, 2007.
- H. Nandivada, H.-Y. Chen, J. Lahann, “Reactive Polymer Coatings for Biological Applications” in Polymers for Biomedical Applications, Eds.: A.Mahapatro, A.S. Kulshretha, ACS Publishing, 2007.
- H. Nandivada, H.Y. Chen, Y. Elkasabi, J. Lahann. "Reactive Polymer Coatings for Biological Applications"; Chapter 17, ACS Symposium Series No. 977: Polymers for Biomedical Applications, 2007.
- J.F. Dyet, K. Schürmann, J. Lahann. "The Physical and Biological Properties of Metallic Stents" in Textbook of Endovascular Procedures, Eds: Dyet, Ettles, Wilson, Churchill Livingstone, New York, Edinburgh, London, Philadelphia, 20-25, 2000.
- J. Lahann. "Verfahren zur Ausrüstung von Metallimplantaten mit bioaktiven Oberflächen", Shaker Verlag, Maastricht, ISBN 3-8265-4496-X, 1998.
- D. Klee, J. Lahann, W. Plüster. "Dünne Beschichtungen auf Biomaterialien" in Medizintechnik mit biokompatiblen Werkstoffen und Verfahren, E. Wintermantel, S.-W. Ha (Eds.) Springer Verlag Berlin Heidelberg, New York, 347-360, 2002.
- D. Klee, N. Weiss, J. Lahann. "Vapor-based polymerization of functionalized [2.2]paracyclophanes: A unique approach towards surface-engineered microenvironments" in Paracyclophanes, H. Hopf (ed.), VCH Weinheim, in preparation.
Patents
- H. Nandivada, T. Eyster, L. Villa, G.D. Smith, J. Lahann. "Hydrogel Coatings for Cell Culture", US patent, US 12/530,126 (Pending), US 12/843,468 (Pending), 2011
- J. Lahann. "Red Blood Cell-Mimetic Particles", US patent, PCT/US2010/058921 (Pending), 2010.
- S. Bhaskar, S. Mandal, J. Lahann. "Multicompartmental Microfiber Scaffolds with Spatially Guided Cell Growth", PCT PCT/US2010/032971 (Pending), 2010.
- Y. Elkasabi, J. Lahann. "CVD Coating with Reactive Composition Gradients", 3783 (Pending).
- A. Kazemi, J. Lahann. "Multi-Phasic Capsules", US 12/506,712 (Pending).
- S. Bhaskar, J. Lahann. "Biphasic Biodegradable Microparticles with Controlled Shapes", US 12/257,945 (Pending).
- A. Kazemi, J. Lahann. "Multi-Phasic Bioadhesive Nano-Objects as Biofunctional Elements in Drug Delivery Systems", US 11/763,842 (Pending), 2010.
- H.Y. Chen, H. Nandivada, J. Lahann. "Reactive Coating for Regioselective Surface Modification", US 11/691,210 (Pending).
- K.H. Roh, J. Lahann. "Multi-Phasic Colorants as Functional Elements in Paints, Coatings, Plastics or Displays", US 12/137,121 (Pending).
- H. Nandivada, J. Ding, G.D. Smith, J. Lahann. "Artificial Matrix Hydrogel Culture Surfaces for Embryos and Embryonic Stem Cells", US 12/530,126 (Pending), US 12/843,468 (Pending), 2010.
- H.Y. Chen, D.C. Martin, J. Lahann. "Biphasic Nanoparticles", US Patent (7,767,017), 2010, US 12/821,688 (Pending).
- Y. Elkasabi, J. Lahann. "Multifunctional CVD Coatings", US 12/054,171 (Pending), 2008.
- H.Y. Chen, J. Lahann. "Dry Adhesive Bonding by CVD Coatings", US 11/756,890 (Pending), 2007.
- J. Lahann, K.F. Jensen, R. Langer. "Reactive Polymer Coatings", US Patent, 2001.
- J. Lahann, S. Mitragotri, R. Langer. "Switchable Surfaces", US patent, 2001.
- J. Lahann, J. Reul. "Embolization element for the occlusion of vascular malformations", German Patent Application, 2001.
- J. Lahann. "Procedure for the reversible local arrangement of defined, aligned molecule sequences of a polymer or reversible local arrangement of cationic and anionic states of a metal", DE 99-19905792, (German patent application) 2000.
- J. Lahann, A. Lendlein. "Procedure for the selective release of materials encapsulated in polymers", DE 99-19905793 (German patent application) 2000.
- J. Lahann, A. Lendlein. "Method for the controlled swelling of polymers in hydrophilic environment for the usage as hemostatic dressings", DE19905796 (German patent application) 2000.
- J. Lahann, A. Lendlein. "Inorganic/organic hybrid system with adjustable boundary surface characteristics", DE19905795 (German patent application) 2000.
- J. Lahann, W. Plüster, D. Klee, H. Höcker. "Method for targeted immobilization of the thrombogenic inhibitor hirudin on polymer surfaces",WO9932080, 1999.
- W. Krause, H. Höcker, J. Lahann, D. Klee, (Schering AG). "Polymer-coated stents, processes for producing the same and their use in restenosis prevention", US Patent, 1998.
- W. Krause, H. Höcker, D. Klee, J. Lahann, (Schering AG). "Stents coated with fluoroalkyl groups, method for producing same and the use thereof in the prophylaxis of restenosis", EP98936352, 1998.
- H. Höcker, J. Lahann, D. Klee, G. Lorenz. "Antithrombogenic coating for extra- or intracorporeal medical devices", DE 19604173 (German patent), 1996.
- J. Reul, J. Lahann, D. Klee. "Method for the sealing of vascular malformations, especially cerebral aneurysms, with the application of wire-shaped embolization elements", DE 19647280 (German patent application), 1995.