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[26] Photochemical modification of silk protein-based biomaterials.
J. G. Hardy, A. Bertin, J. G. Torres-Rendon, A. Leal-Egaña, M. Humenik, F. Bauer, A. Walther, H. Cölfen, H. Schlaad, T. R. Scheibel.
Manuscript in preparation.

[25] Polyacrylamide “revisited”: UCST-type reversible thermoresponsive properties in aqueous alcoholic solution.
A. Asadujjaman*, T. Espinosa de Oliveira, D. Mukherji*, A. Bertin*
Soft Matter 2018, 14, 1336-1343.

[24] Hybrid silicon-based organic/ inorganic block copolymers with sol-gel active moieties: Synthetic advances, self-assembly and applications in biomedicine and material science.
S. Czarnecki, A. Bertin*
Chemistry: A European Journal (invited review) 2018, doi: 10.1002/chem.20170528.

[23] Vesicles from amphiphilic dumbbells and Janus dendrimers: Bioinspired self-assembled structures for biomedical applications.
S. Taabache, A. Bertin*.
Polymers (invited review in special issue "Bio-inspired and Bio-based Polymers") 2017, 9, 280, doi:10.3390/polym9070280.

[22] Thermoresponsive functional polymers based on 2,6-diaminopyridine motif with tunable UCST behaviour in water/alcohol mixtures.
A. Asadujjaman, V. Ahmadi, M. Yalcin, N. ten Brummelhuis, A. Bertin*.
Polymer Chemistry 2017, 8, 3140-3153.

[21] A dendritic amphiphile for efficient control of biomimetic calcium phosphate mineralization.
D. Hentrich, S. Taabache, G. Brezesinski, N. Lange, W. Unger, C. Kuebel, A. Bertin, A. Taubert.
Macromolecular Bioscience 2017, doi: 10.1002/mabi.201600524.

[20] Dielectric analysis of the Upper-Critical-Solution-Temperature behaviour of a poly(acrylamide-co-acrylonitrile) copolymer system in water.
A. Asadujjaman, A. Bertin, A. Schönhals.
Soft Matter 2017, 13, 2384-2393.

[19] Phase transition and aggregation behaviour of an UCST-type copolymer poly(acrylamide-co-acrylonitrile) in water: Effect of acrylonitrile content, concentration in solution, copolymer chain length and presence of electrolyte.
A. Asadujjaman, B. Kent, A. Bertin*.
Soft Matter 2017, 13, 658-669.

[18] Tuning the surface of nanoparticles: Impact of poly(2-ethyl-2-oxazoline) on protein adsorption in serum and cellular uptake.
O. Koshkina, D. Westmeier, T. Lang, C. Bantz, A. Hahlbrock, C. Würth, U. Resch-Genger, U. Braun, R. Thiermann, C. Weise, M. Eravci, B. Mohr, H. Schlaad, R. H. Stauber, D. Docter, A. Bertin, M. Maskos.
Macromolecular Bioscience 2016, 6, 1287-1300.

[17] Temperature-triggered protein adsorption on polymer-coated nanoparticles in serum.
O. Koshkina, T. Lang, R. Thiermann, D. Docter, R. H. Stauber, C. Secker, H. Schlaad, S. Weidner, B. Mohr, M. Maskos, A. Bertin.
Langmuir 2015, 31, 8873-8881.

[16] Self-assembly of amphiphilic Janus dendrimers into uniform onion-like dendrimersomes with predictable size and number of internalized bilayers.
S. Zhang, H.-J. Sun, A. D. Hughes, R.-O. Moussodia, A. Bertin, Y. Chen., D. J. Pochan, P. A. Heiney, M. L. Klein, V. Percec.
Proceedings of the National Academy of Sciences 2014, 111, 9058-9063.

[15] “Single-single” amphiphilic Janus dendrimers self-assemble into narrow distribution dendrimersomes with predictable size.
S. Zhang, H.-J. Sun, A. D. Hughes, B. Draghici, J. Lejnieks, P. Leowanawat, A. Bertin, L. Otero De Leon, O. Kulikov, Y. Chen, D. J. Pochan, P. A. Heiney, V. Percec.
ACS Nano 2014, 8, 1554-1565.

[14] Polyelectrolyte complexes of DNA and polycations as gene delivery vectors.
A. Bertin.
Advances in Polymer Science 2014, 256, 103-196.

[13] Modular synthesis of amphiphilic Janus glycodendrimers and their self-assembly into glycodendrimersomes and other complex architectures with bioactivity to biomedically relevant lectins.
V. Percec, P. Leowanawat, H.-J. Sun, O. Kulikov, C. Nusbaum, T. M. Tran M., A. Bertin, et al.
Journal of the American Chemical Society 2013, 135, 9055-9077.

[12] Emergence of polymer stereocomplexes for biomedical applications.
A. Bertin.
Macromolecular Chemistry and Physics 2012, 213, 2329-2352.

[11] Predicting the size and properties of dendrimersomes from the lamellar structure of their amphiphilic Janus dendrimers.
M. Peterca, V. Percec, P. Leowanawat, A. Bertin.
Journal of the American Chemical Society 2011, 133, 20507-20520.

[10] Probing polymersome-protein and -cell interactions: Influence of different end-groups and environments.
R. Bleul, D. Bachran, R. Thiermann, A. Bertin, H. Fuchs, M. Maskos.
Macromolecular Symposia 2011, 309-310, 134-140.

[9] Dendronized iron oxides as versatile nano-objects for multimodal imaging.
G. Lamanna, M. Kueny-Stotz, H. Mamlouk-Chaouachi, A. Bertin, B. Basly, C. Ghobril, C. Billotey, A. Berniard, G. Pourroy, S. Begin-Colin, D. Felder-Flesch.
Biomaterials 2011, 32, 8562-8573.

[8] Biohybrid and peptide-based polymer vesicles.
A. Bertin, F. Hermes, H. Schlaad.
Advances in Polymer Science 2010, 224, 167-195.

[7] Poly(2-oxazoline)s as smart bioinspired polymers.
H. Schlaad, C. Diehl, A. Gress, M. Meyer, A. Levent Demirel, Y. Nur, A. Bertin.
Macromolecular Rapid Communications 2010, 31, 511-525.

[6] In vitro neurotoxicity of Magnetic Resonance Imaging (MRI) contrast agents: Influence of the molecular structure and paramagnetic ion.
A. Bertin, A.-I. Michou-Gallani, J.-L. Gallani, D. Felder-Flesch.
Toxicology in Vitro, 2010, 24, 1386-1394.

[5] Synthesis and characterization of a highly stable dendritic catechol-tripod bearing Technetium-99m.
A. Bertin, A.-I. Michou-Gallani, J. Steibel, J.-L. Gallani, D. Felder-Flesch.
New Journal of Chemistry 2010, 34, 267-275.

[4] Mild and versatile (bio-)functionalization of glass surfaces via thiol-ene photochemistry.
A. Bertin, H. Schlaad.
Chemistry of Materials 2009, 21, 5698-5700.

[3] Water soluble dendronized iron oxide nanoparticles.
T. J. Daou., G. Pourroy, J. M. Greneche, A. Bertin, D. Felder-Flesch, S. Begin-Colin.
Dalton Transactions 2009, 23, 4442-4449.

[2] Development of a dendritic Manganese-Enhanced Magnetic Resonance Imaging (MEMRI) contrast agent: Synthesis, toxicity (in vitro) and relaxivity (in vitro, in vivo) studies.
A. Bertin, J. Steibel, A.-I. Michou-Gallani, J.-L. Gallani, D. Felder-Flesch.
Bioconjugate Chemistry 2009, 20, 760-767.

[1] Synthesis and Langmuir-film formation of new dendritic DTPA-derived gadolinium (III) complexes.
A. Bertin, T. Muller, J.-L. Gallani, D. Felder-Flesch.
Tetrahedron Letters 2007, 48, 4699-4702.

[1] Dendritic chelated complexes, their preparation, and use as imaging agents for treatment of neurodegenerative diseases.
D. Felder-Flesch, J. Steibel, A. Bertin.
International patent n° WO/2008/043911, 2008.