Your search keyword '"Werzer, O."' showing total 104 results

1. Crystal alignment of surface stabilized polymorph in thioindigo films

Author

Rivalta, A., Giunchi, A., Pandolfi, L., Salzillo, T., S. d’Agostino, Werzer, O., Schrode, B., Demitri, N., Mas-Torrent, M., Brillante, A., Della Valle, R.G., and Venuti, E.

Published

2020

2. Biological Activity Of miRNA-27a Using Peptide-based Drug Delivery Systems

Author

Schachner-Nedherer AL, Werzer O, Kornmueller K, Prassl R, and Zimmer A

Subjects

drug delivery system (DDS), miRNA-27a, amphipathic peptides, anti-adipogenic effect, 3T3-L1 cells, Medicine (General), R5-920

Abstract

Anna-Laurence Schachner-Nedherer,1 Oliver Werzer,1 Karin Kornmueller,2 Ruth Prassl,2 Andreas Zimmer1 1Department of Pharmaceutical Technology and Biopharmacy, Institute of Pharmaceutical Sciences, University of Graz, Graz 8010, Austria; 2Gottfried Schatz Research Center for Cell Signaling, Metabolism and Aging, Biophysics, Medical University of Graz, Graz 8010, AustriaCorrespondence: Andreas ZimmerInstitute of Pharmaceutical Sciences, Department of Pharmaceutical Technology and Biopharmacy, University of Graz, Graz 8010, AustriaEmail andreas.zimmer@uni-graz.atBackground: Endogenously expressed microRNAs (miRNAs) have attracted attention as important regulators in post-transcriptionally controlling gene expression of various physiological processes. As miRNA dysregulation is often associated with various disease patterns, such as obesity, miRNA-27a might therefore be a promising candidate for miRNA mimic replacement therapy by inhibiting adipogenic marker genes. However, application of naked nucleic acids faces some limitations concerning poor enzymatic stability, bio-membrane permeation and cellular uptake. To overcome these obstacles, the development of appropriate drug delivery systems (DDS) for miRNAs is of paramount importance.Methods: In this work, a triple combination of atomic force microscopy (AFM), brightfield (BF) and fluorescence microscopy was used to trace the cellular adhesion of N-TER peptide-nucleic acid complexes followed by time-dependent uptake studies using confocal laser scanning microscopy (cLSM). To reveal the biological effect of miRNA-27a on adipocyte development after transfection treatment, Oil-Red-O (ORO)- staining was performed to estimate the degree of in lipid droplets accumulated ORO in mature adipocytes by using light microscopy images as well as absorbance measurements.Results: The present findings demonstrated that amphipathic N-TER peptides represent a suitable DDS for miRNAs by promoting non-covalent complexation through electrostatic interactions between both components as well as cellular adhesion of the N-TER peptide – nucleic acid complexes followed by uptake across cell membranes and intracellular release of miRNAs. The anti-adipogenic effect of miRNA-27a in 3T3-L1 cells could be detected in mature adipocytes by reduced lipid droplet formation.Conclusion: The present DDS assembled from amphipathic N-TER peptides and miRNAs is capable of inducing the anti-adipogenic effect of miRNA-27a by reducing lipid droplet accumulation in mature adipocytes. With respect to miRNA mimic replacement therapies, this approach might provide new therapeutic strategies to prevent or treat obesity and obesity-related disorders.Keywords: drug delivery system, DDS, miRNA-27a, amphipathic peptides, anti-adipogenic effect, 3T3-L1 cells

Published

2019

3. Shear dependent viscosity of poly(ethylene oxide) in two protic ionic liquids

Author

Smith, J.A., Webber, G.B., Warr, G.G., Zimmer, A., Atkin, R., and Werzer, O.

Published

2014

4. Para-Sexiphenyl Layers Grown On Light Sensitive Polymer Substrates

Author

Hernandez-Sosa, G., Simbrunner, C., Höfler, T., Moser, A., Werzer, O., Kunert, B., Trimmel, G., Kern, W., Resel, R., Sitter, H., Al-Shamery, Katharina, editor, Horowitz, Giles, editor, Sitter, Helmut, editor, and Rubahn, Horst-Günter, editor

Published

2009

5. Bi-axially aligned crystallites of a fluorene–bithiophene co-polymer

Author

Werzer, O., Porzio, W., Trimmel, G., Plank, H., and Resel, R.

Published

2013

6. Modification of para-sexiphenyl layer growth by UV induced polarity changes of polymeric substrates

Author

Hernandez-Sosa, G., Simbrunner, C., Höfler, T., Moser, A., Werzer, O., Kunert, B., Trimmel, G., Kern, W., Resel, R., and Sitter, H.

Published

2009

7. Epitaxial order of pentacene on Cu(110)–(2 × 1)O: One dimensional alignment induced by surface corrugation

Author

Koini, M., Haber, T., Werzer, O., Berkebile, S., Koller, G., Oehzelt, M., Ramsey, M.G., and Resel, R.

Published

2008

8. Crystal structure determination from two-dimensional powders: A combined experimental and theoretical approach: The example para-cyano-quaterphenylene

Author

Moser, A., Werzer, O., Flesch, H.-G., Koini, M., Smilgies, D.-M., Nabok, D., Puschnig, P., Ambrosch-Draxl, C., Schiek, M., Rubahn, H.-G., and Resel, R.

Published

2009

9. Full X-ray pattern analysis of vacuum deposited pentacene thin films

Author

Werzer, O., Stadlober, B., Haase, A., Oehzelt, M., and Resel, R.

Published

2008

10. Surface Induced Phenytoin Polymorph. 1. Full Structure Solution by Combining Grazing Incidence X-ray Diffraction and Crystal Structure Prediction

Author

Braun D. E., Rivalta A., Giunchi A., Bedoya-Martinez N., Schrode B., Venuti E., Della Valle R. G., Werzer O., Braun D.E., Rivalta A., Giunchi A., Bedoya-Martinez N., Schrode B., Venuti E., Della Valle R.G., and Werzer O.

Subjects

Phenytoin, crystal structure Solution, grazing Incidence X‑ray diffraction, crystal structure prediction, DFT

Abstract

Phenytoin, surface induced polymorphs, grazing Incidence X‑ray Diffraction, crystal Structure, DFT Prediction Understanding the behavior and properties of molecules assembled in thin layers requires knowledge of their crystalline packing. The drug phenytoin (5,5-diphenylhydantoin) is one of the compounds that can be grown as a surface induced polymorph. By using grazing incidence X-ray diffraction, the monoclinic unit cell of the new form II can be determined, but, due to crystal size and the low amount of data, a full solution using conventional structure solving strategies fails. In this work, the full solution has been obtained by combining computational structure generation and experimental results. The comparison between the bulk and the new surface induced phase reveals significant packing differences of the hydrogen-bonding network, which might be the reason for the faster dissolution of form II with respect to form I. The results are very satisfactory, and the method might be adapted for other systems, where, due to the limited amount of experimental data, one must rely on additional approaches to gain access to more detailed information to understand the solid-state behavior.

Published

2019

11. Self-limited growth in pentacene thin films

Author

Pachmajer, S., Jones, A.O.F., Truger, M., Röthel, C., Salzmann, I., Werzer, O., and Resel, R.

Abstract

Pentacene is one of the most studied organic semiconducting materials. While many aspects of the film formation have already been identified in very thin films, this study provides new insight into the transition from the metastable thin-film phase to bulk phase polymorphs. This study focuses on the growth behavior of pentacene within thin films as a function of film thickness ranging from 20 to 300 nm. By employing various X-ray diffraction methods, combined with supporting atomic force microscopy investigations, one crystalline orientation for the thin-film phase is observed, while three differently tilted bulk phase orientations are found. First, bulk phase crystallites grow with their 00L planes parallel to the substrate surface; second, however, crystallites tilted by 0.75° with respect to the substrate are found, which clearly dominate the former in ratio; third, a different bulk phase polymorph with crystallites tilted by 21° is found. The transition from the thin-film phase to the bulk phase is rationalized by the nucleation of the latter at crystal facets of the thin-film-phase crystallites. This leads to a self-limiting growth of the thin-film phase and explains the thickness-dependent phase behavior observed in pentacene thin films, showing that a large amount of material is present in the bulk phase much earlier during the film growth than previously thought.

Published

2017

12. Surface-induced polymorphism as a tool for enhanced dissolution: The example of phenytoin

Author

Reischl, D., Röthel, C., Christian, P., Roblegg, E., Ehmann, H.M.A., Salzmann, I., and Werzer, O.

Abstract

Polymorphism and morphology can represent key factors tremendously limiting the bioavailability of active pharmaceutical ingredients (API), in particular, due to solubility issues. Within this work, the generation of a yet unknown surface-induced polymorph (SIP) of the model drug, 5,5-diphenylimidazolidin-2,4-dion (phenytoin), is demonstrated in thin films through altering the crystallization kinetics and the solvent type. Atomic force microscopy points toward the presence of large single-crystalline domains of the SIP, which is in contrast to samples comprising solely the bulk phase, where extended dendritic phenytoin networks are observed. Grazing incidence X-ray diffraction reveals unit cell dimensions of the SIP significantly different from those of the known bulk crystal structure of phenytoin. Moreover, the aqueous dissolution performance of the new polymorph is benchmarked against a pure bulk phase reference sample. Our results demonstrate that the SIP exhibits markedly advantageous drug release performance in terms of dissolution time. These findings suggest that thin-film growth of pharmaceutical systems in general should be explored, where poor aqueous dissolution represents a key limiting factor in pharmaceutical applications, and illustrate the experimental pathway for determining the physical properties of a pharmaceutically relevant SIP.

Published

2015

13. Reversibility of temperature driven discrete layer-by-layer formation of dioctyl-benzothieno-benzothiophene films

Author

Dohr, Michael, Ehmann, H.M.A., Jones, Andrew, Salzmann, Ingo, Shen, Q., Teichert, Christian, Ruzié, Christian, Schweicher, Guillaume, Geerts, Yves, Resel, Roland, Sferrazza, Michele, Werzer, O, Dohr, Michael, Ehmann, H.M.A., Jones, Andrew, Salzmann, Ingo, Shen, Q., Teichert, Christian, Ruzié, Christian, Schweicher, Guillaume, Geerts, Yves, Resel, Roland, Sferrazza, Michele, and Werzer, O

Abstract

Film forming properties of semiconducting organic molecules comprising alkyl-chains combined with an aromatic unit have a decisive impact on possible applications in organic electronics. In particular, knowledge on the film formation process in terms of wetting or dewetting, and the precise control of these processes, is of high importance. In the present work, the subtle effect of temperature on the morphology and structure of dioctyl[1]benzothieno[3,2-b][1]benzothiophene (C8-BTBT) films deposited on silica surfaces by spin coating is investigated in situ via X-ray diffraction techniques and atomic force microscopy. Depending on temperature, bulk C8-BTBT exhibits a crystalline, a smectic A and an isotropic phase. Heating of thin C8-BTBT layers at temperatures below the smectic phase transition temperature leads to a strong dewetting of the films. Upon approaching the smectic phase transition, the molecules start to rewet the surface in the form of discrete monolayers with a defined number of monolayers being present at a given temperature. The wetting process and layer formation is well defined and thermally stable at a given temperature. On cooling the reverse effect is observed and dewetting occurs. This demonstrates the full reversibility of the film formation behavior and reveals that the layering process is defined by an equilibrium thermodynamic state, rather than by kinetic effects., SCOPUS: ar.j, info:eu-repo/semantics/published

Published

2017

14. Reversibility of temperature driven discrete layer-by-layer formation of dioctyl-benzothieno-benzothiophene films

Author

Dohr, M., primary, Ehmann, H. M. A., additional, Jones, A. O. F., additional, Salzmann, I., additional, Shen, Q., additional, Teichert, C., additional, Ruzié, C., additional, Schweicher, G., additional, Geerts, Y. H., additional, Resel, R., additional, Sferrazza, M., additional, and Werzer, O., additional

Published

2017

15. Mise en evidence de phases induites par le substrat pour des mésogènes π-conjugués

Author

Gbabode, G., Werzer, O., Moser, A., Resel, R., Geerts, Y. H., Silva, J. De, Sferrazza, M., Sciences et Méthodes Séparatives (SMS), Université de Rouen Normandie (UNIROUEN), Normandie Université (NU)-Normandie Université (NU), and Lemercier, Aurélien

Subjects

[CHIM.MATE] Chemical Sciences/Material chemistry, [CHIM.ORGA]Chemical Sciences/Organic chemistry, [CHIM] Chemical Sciences, [CHIM.CRIS]Chemical Sciences/Cristallography, [CHIM]Chemical Sciences, [CHIM.MATE]Chemical Sciences/Material chemistry, [CHIM.CRIS] Chemical Sciences/Cristallography, [CHIM.ORGA] Chemical Sciences/Organic chemistry, ComputingMilieux_MISCELLANEOUS

Abstract

International audience

Published

2013

16. Crystallographic structure and morphology of bithiophene-fluorene polymer nanocrystals

Author

Werzer O., Resel R., Chernev B., Plank H., Rothmann M.M., Strohriegl P, and Trimmel G.

Abstract

Nanocrystals of the polymer poly(9,9-dioctylfluorenyl-co-bithiophene) (F8T2) with a molecular weight of 3.2 kg/mol are grown in a para - xylene solution. The typical morphology of the crystals is needle like with typical widths of 50 nm and lengths of about 200 nm. The crystal structure and morphology are stable up to a temperature of 353 K. The structure solution is obtained by x-ray powder diffraction (XRD) pattern with data modelling by a stochastic global optimization procedure which allows simultaneous indexing and molecular packing determination. Final Rietveld refinement was applied on the most promising crystal structure with a = 1.376 nm, b = 3.105 nm, c = 2.690 nm and ß = 109.5° within the space group C2/c choosing the polymer backbone parallel to the b-axis. The structural motifs of the molecular packing could be identified: aromatic units within a single polymer chain are slightly bent relative to the chain axis, octyl side chains are aligned along the polymer backbone and aromatic units of neighbouring molecules display a strong tendency to stack parallel to each other. XRD results of F8T2 with a molecular weight of 19 kg/mol reveal the same peak positions compared to the 3.2 kg/mol material, showing that both materials crystallize similarly and can be described by the same crystallographic unit cell. The smaller peak intensities together with the broader peak widths, however, show that the ability of crystal formation for the 19 kg/mol material is reduced.

Published

2011

17. Nanotribology : Tribotronics, ionic liquids and control of surface interactions

Author

Álvarez Asencio, Rubén, Cranston, Emily, Wakeham, Deborah, Niga, Petru, Werzer, O., Sweeney, J., Hausen, F., Hayes, R., Webber, G. B., Endres, F., Bennewitz, R., Hjalmarsson, Nicklas, Glavatskih, Sergei, Atkin, R., Rutland, Mark, Álvarez Asencio, Rubén, Cranston, Emily, Wakeham, Deborah, Niga, Petru, Werzer, O., Sweeney, J., Hausen, F., Hayes, R., Webber, G. B., Endres, F., Bennewitz, R., Hjalmarsson, Nicklas, Glavatskih, Sergei, Atkin, R., and Rutland, Mark

Abstract

The interfacial ordering of Ionic liquids leads to interesting nanotribological properties as revealed by colloid probe studies. The first of these is the clear correlation between the number of ion pairs trapped in the tribological contact and the friction coefficient displayed. The second is the fact that the surface electrical potential can be used to control the composition of the boundary layer and thus tune the friction. Thirdly, the interfacial ordering appears to significantly affect the fluid dynamics over large distances., QC 20150612

Published

2013

18. Dynamics of Monolayer–Island Transitions in 2,7-Dioctyl-benzothienobenzthiophene Thin Films

Author

Dohr, Michael, Werzer, O, Shen, Quan, Salzmann, Ingo, Teichert, Christian, Ruzié, Christian, Schweicher, Guillaume, Geerts, Yves, Sferrazza, Michele, Resel, Roland, Dohr, Michael, Werzer, O, Shen, Quan, Salzmann, Ingo, Teichert, Christian, Ruzié, Christian, Schweicher, Guillaume, Geerts, Yves, Sferrazza, Michele, and Resel, Roland

Abstract

The order in molecular monolayers is a crucial aspect for their technological application. However, the preparation of defined monolayers by spin-coating is a challenge, since the involved processes are far from thermodynamic equilibrium. In the work reported herein, the dynamic formation of dioctyl-benzothienobenzothiophene monolayers is explored as a function of temperature by using X-ray scattering techniques and atomic force microscopy. Starting with a disordered monolayer after the spin-coating process, post-deposition self-reassembly at room temperature transforms the initially amorphous layer into a well-ordered bilayer structure with a molecular herringbone packing, whereas at elevated temperature the formation of crystalline islands occurs. At the temperature of the liquid-crystalline crystal–smectic transition, rewetting of the surface follows resulting in a complete homogeneous monolayer. By subsequent controlled cooling to room temperature, cooling-rate-dependent kinetics is observed; at rapid cooling, a stable monolayer is preserved at room temperature, whereas slow cooling causes bilayer structures. Increasing the understanding and control of monolayer formation is of high relevance for achieving ordered functional monolayers with defined two-dimensional packing, for future applications in the field of organic electronics., SCOPUS: ar.j, FLWNA, info:eu-repo/semantics/published

Published

2013

19. Crystallisation kinetics in thin films of dihexyl-terthiophene: The appearance of polymorphic phases

Author

Wedl, B, Resel, Roland, Leising, G., Kunert, B, Albering, J, Salzmann, Ingo, Koch, N, Vollmer, A, Duhm, S, Werzer, O, Gbabode, Gabin, Sferrazza, Michele, Geerts, Yves, Wedl, B, Resel, Roland, Leising, G., Kunert, B, Albering, J, Salzmann, Ingo, Koch, N, Vollmer, A, Duhm, S, Werzer, O, Gbabode, Gabin, Sferrazza, Michele, and Geerts, Yves

Abstract

The presence of surface-induced crystal structures is well known within organic thin films. However, the physical parameters responsible for their formation are still under debate. In the present work, we present the formation of polymorphic crystal structures of the molecule dihexyl-terthiophene in thin films. The films are prepared by different methods using solution-based methods like spin-coating, dip-coating and drop-casting, but also by physical vapour deposition. The thin films are characterised by various X-ray diffraction methods to investigate the crystallographic properties and by microscopy techniques (atomic force microscopy and optical microscopy) to determine the thin film morphologies. Three different polymorphic crystal structures are identified and their appearance is related to the film preparation parameters. The crystallisation speed is varied by the evaporation rate of the solvent and is identified as a key parameter for the respective polymorphs present in the films. Slow crystallisation speed induces preferential growth in the stable bulk structure, while fast crystallisation leads to the occurrence of a metastable thin-film phase. Furthermore, by combining X-ray reflectivity investigations with photoelectron spectroscopy experiments, the presence of a monolayer thick wetting layer below the crystalline film could be evidenced. This work gives an example of thin film growth where the kinetics during the crystallisation rather than the film thickness is identified as the critical parameter for the presence of a thin-film phase within organic thin films. © The Royal Society of Chemistry 2012., info:eu-repo/semantics/published

Published

2012

20. Interface induced crystal structures of Dioctyl-Terthiophene thin films

Author

Werzer, O, Boucher, Nicolas, De Silva, Johann, Gbabode, Gabin, Geerts, Yves, Konovalov, Oleg, Moser, Armin, Novak, J, Resel, Roland, Sferrazza, Michele, Werzer, O, Boucher, Nicolas, De Silva, Johann, Gbabode, Gabin, Geerts, Yves, Konovalov, Oleg, Moser, Armin, Novak, J, Resel, Roland, and Sferrazza, Michele

Abstract

info:eu-repo/semantics/published

Published

2012

21. Impact of Drying on Solid State Modifications and Drug Distribution in Ibuprofen-Loaded Calcium Stearate Pellets

Author

Schrank, S., primary, Kann, B., additional, Saurugger, E., additional, Ehmann, H., additional, Werzer, O., additional, Windbergs, M., additional, Glasser, B. J., additional, Zimmer, A., additional, Khinast, J., additional, and Roblegg, E., additional

Published

2014

22. Model-Independent X-ray Reflectivity Fitting for Structure Analysis of Poly(3-hexylthiophene) Films

Author

Werzer, O., primary and Resel, R., additional

Published

2013

23. Surface Induced Order of Solution Processed Caffeine Needles on Silica and Muscovite Mica

Author

Werzer, O., primary, Kunert, B., additional, Roblegg, E., additional, Zimmer, A., additional, Oehzelt, M., additional, and Resel, R., additional

Published

2013

24. A quinquethiophene based self-assembled monolayer for organic electronic applications

Author

Resel, R., primary, Flesch, H. -G., additional, Moser, A., additional, Werzer, O., additional, Smits, E. C. P., additional, Mathijssen, S. G. J., additional, Gholamrezaie, F., additional, Wondergem, H. J., additional, Ponomarenko, S. A., additional, Smilgies, D. -M., additional, Hlawacek, G., additional, Shen, Q., additional, Teichert, C., additional, Puschnig, P., additional, and de Leeuw, D. M., additional

Published

2011

25. Evaluation of organic sub-monolayers by X-ray based measurements under gracing incident conditions

Author

Werzer, O., primary, Stadlober, B., additional, Haase, A., additional, Flesch, H.-G., additional, and Resel, R., additional

Published

2009

26. Epitaxial order of pentacene on Cu(110)–(2×1)O: One dimensional alignment induced by surface corrugation

Author

Koini, M., primary, Haber, T., additional, Werzer, O., additional, Berkebile, S., additional, Koller, G., additional, Oehzelt, M., additional, Ramsey, M.G., additional, and Resel, R., additional

Published

2008

27. Wide-range three-dimensional reciprocal-space mapping: a novel approach applied to organic monodomain thin films

Author

Resel, R., primary, Lengyel, O., additional, Haber, T., additional, Werzer, O., additional, Hardeman, W., additional, de Leeuw, D. M., additional, and Wondergem, H. J., additional

Published

2007

28. Surface Induced Orderof Solution Processed CaffeineNeedles on Silica and Muscovite Mica.

Author

Werzer, O., Kunert, B., Roblegg, E., Zimmer, A., Oehzelt, M., and Resel, R.

Subjects

*CAFFEINE, *SURFACE chemistry, *SOLUTION (Chemistry), *SILICA, *MUSCOVITE, *X-ray diffraction, *CRYSTAL structure, *MICROSCOPY

Abstract

In this work the orientational order of needle-shapedcaffeinecrystallites at silica and muscovite mica surfaces is investigatedby X-ray diffraction experiment and optical microscopy. The investigationof thin films reveals the formation of caffeine in the anhydrous monoclinicβ-polymorphic structure independent of the surface with thedisclike caffeine molecules assemble in an edge-on conformation. Thesilica surface provides isotropic properties for crystal growth whichleads to a fiber texture arrangement of the needles; a majority ofneedles have a 010 texture with all other directions being randomlydistributed. The mica surface with its highly regular surface structureinduces defined textures and azimuthal order of the caffeine needlesresulting in a fully defined epitaxial order. The edge-on and disclikecaffeine molecules align along the [100]m, [110]m, and [11̅0]mreal space directions of the micasubstrate and show a mirror symmetry around the [110]m.The experiments on these two surfaces show that the type of surfaceis able to induce order during caffeine needle growth. [ABSTRACT FROM AUTHOR]

Published

2013

29. Nanotribology: Tribotronics, ionic liquids and control of surface interactions

Author

Asencio, R. A., Cranston, E. D., Wakeham, D., Niga, P., Werzer, O., Sweeney, J., Hausen, F., Hayes, R., Webber, G. B., Endres, F., Bennewitz, R., Hjalmarsson, N., Sergei Glavatskih, Atkin, R., and Rutland, M. W.

30. Surface Induced Phenytoin Polymorph. 2. Structure Validation by Comparing Experimental and Density Functional Theory Raman Spectra

Author

Elisabetta Venuti, Oliver Werzer, Arianna Rivalta, Natalia Bedoya-Martínez, Benedikt Schrode, Andrea Giunchi, Doris E. Braun, Raffaele Guido Della Valle, Giunchi A., Rivalta A., Bedoya-Martinez N., Schrode B., Braun D.E., Werzer O., Venuti E., and Della Valle R.G.

Subjects

Diffraction, Surface (mathematics), Materials science, 010405 organic chemistry, Analytical chemistry, Structure validation, General Chemistry, 010402 general chemistry, Condensed Matter Physics, 01 natural sciences, Article, 0104 chemical sciences, Crystal structure prediction, symbols.namesake, symbols, General Materials Science, Density functional theory, Phenytoin, surface induced polymorphs, lattice phonons, DFT calculations, Raman spectroscopy, Thin film, Raman spectroscopy

Abstract

A method for structure solution in thin films that combines grazing incidence X-ray diffraction data analysis and crystal structure prediction was presented in a recent work (Braun et al. Cryst. Growth Des.2019, DOI: 10.1021/acs.cgd.9b00857). Applied to phenytoin form II, which is only detected in films, the approach gave a very reasonable, but not fully confirmed, candidate structure with Z = 4 and Z′ = 2. In the present work, we demonstrate how, by calculating and measuring the crystal Raman spectrum in the low wavenumber energy region with the aim of validating the candidate structure, this can be further refined. In fact, we find it to correspond to a saddle point of the energy landscape of the system, from which a minimum of lower symmetry may be reached. With the new structure, with Z = 4 and Z′ = 2, we finally obtain an excellent agreement between experimental and calculated Raman spectra., Experimental low wavenumber Raman spectroscopy validates the presence of a non-centrosymmetric packing arrangement that is energetically very close to a centrosymmetric saddle point structure.

Published

2019

31. Suitability of 3,4-dialkyl substitution in molecular crystal based on thiophene–fluorenone for organic field effect transistors

Author

Porzio, W., Destri, S., Pasini, M., Giovanella, U., Resel, R., Werzer, O., G.Scavia, Fumagalli, L., Natali, D., and Sampietro, M.

Subjects

*MOLECULAR crystals, *FIELD-effect transistors, *COPOLYMERS, *THIOPHENES, *ORGANIC synthesis, *SUBSTITUTION reactions

Abstract

Abstract: A new co-oligomer constituted by both a thiophene sequence bearing a 3,4-dialkyl substitution, imparting processability, and by end-capping fluorenone moieties, has been synthesised. The molecule, potentially suitable for close-packing aptness, has been characterized by means of combined optical, thermal, structural, and morphological analyses, showing that, despite the O–H intermolecular interaction favoured by fluorenone presence, the large steric hindrance specific to the dialkyl 3,4-disubstitution strongly limits the intermolecular interaction. Hence it makes such substitution pattern unsuitable for field effect transistor application, as it is confirmed by the electrical performances measured on prototype devices. [Copyright &y& Elsevier]

Published

2009

32. Crystal alignment of surface stabilized polymorph in thioindigo films

Author

Nicola Demitri, Oliver Werzer, Arianna Rivalta, Andrea Giunchi, Benedikt Schrode, Elisabetta Venuti, Marta Mas-Torrent, Simone d'Agostino, Tommaso Salzillo, Lorenzo Pandolfi, Aldo Brillante, R. G. Della Valle, CINECA, Centro de Investigación Biomédica en Red Bioingeniería, Biomateriales y Nanomedicina (España), Dirección General de Investigación Científica y Técnica, DGICT (España), Generalitat de Catalunya, Ministerio de Economía y Competitividad (España), European Commission, Rivalta A., Giunchi A., Pandolfi L., Salzillo T., D'agostino S., Werzer O., Schrode B., Demitri N., Mas-Torrent M., Brillante A., Della Valle R.G., and Venuti E.

Subjects

Surface (mathematics), Raman Spectroscopy, Materials science, BULK PHASE, Functional materials, General Chemical Engineering, GIXRD, DFT calculation, Crystal growth, 02 engineering and technology, 010402 general chemistry, 01 natural sciences, DFT, Thioindigo, Crystal, X-ray, symbols.namesake, chemistry.chemical_compound, THIN-FILMS, RAMAN, Chemical engineering, Phase (matter), Crystal alignment, Coloring, Thin film, BAMS, Dyes, Shearing (physics), Process Chemistry and Technology, THIOINDIGO, Spectroscopic identification, Synthetic dyes, 021001 nanoscience & nanotechnology, 0104 chemical sciences, Crystallography, chemistry, CRYSTAL GROWTH, symbols, Polymorph, 0210 nano-technology, Raman spectroscopy

Abstract

Thioindigo (2-(3-Oxo-1-benzothiophen-2(3H)-ylidene)-1-benzothiophen-3(2H)-one) is a synthetic dye related to the natural compound Indigo. Notwithstanding the interest aroused recently by its employment as a functional material in a number of applications, a satisfactory characterization of its solid state is still missing. In this work, we study the occurrence of the two thioindigo α and β polymorphs under various growth conditions, and find that their structural similarity implies they often coexist. However, whereas polymorph β is certainly predominant in the bulk phase, polymorph α grows preferentially on substrates, turning out to be the surface stabilized phase in highly homogeneous and ordered films obtained by the bar‐assisted meniscus shearing method (BAMS). DFT calculations support the experimental findings, aiding in the polymorph spectroscopic identification and to the interpretation of the order in the films of polymorph α., We thank CINECA Supercomputing Center for providing computer time through the ISCRA scheme (project C – HP10CA2TWT). The authors thank the Networking Research Center on Bioengineering, Biomaterials and Nanomedicine (CIBER-BBN), the DGI (Spain) project, FANCY CTQ2016-80030-R, the Generalitat de Catalunya (2017-SGR-918) and the Spanish Ministry of Economy and Competitiveness, through the ‘Severo Ochoa‘ Programme for Centres of Excellence in R&D (SEV- 2015–0496). We acknowledge the Elettra Synchrotron Trieste for beamtime allocation and thank Luisa Barba for assistance in using beamline XRD1. T.S. acknowledges the H2020-MSCA-COFUND-2014 Programme (P-SPHERE, Grant agreement 665919).

Published

2019

33. Epitaxial relation of carbamazepine and its precursor template extracted from rotating grazing incidence X-ray diffraction

Author

Oliver Werzer, Christian Röthel, Tommaso Salzillo, Paul Christian, Arianna Rivalta, Hans Riegler, Elisabetta Venuti, Riegler H., Rivalta A., Christian P., Rothel C., Salzillo T., Venuti E., Werzer O., and NAWI Graz

Subjects

Diffraction, Materials science, Analytical chemistry, Crystal growth, 02 engineering and technology, Substrate (electronics), Pole figure, Epitaxy, 01 natural sciences, Grazing incidence, law.invention, Optical microscope, Thin filmKinetics, law, 0103 physical sciences, Materials Chemistry, Thin film, 010302 applied physics, Kinetic, Metals and Alloys, Surfaces and Interfaces, 021001 nanoscience & nanotechnology, Surfaces, Coatings and Films, Electronic, Optical and Magnetic Materials, X-ray diffraction, X-ray crystallography, Selective epitaxy, Drug, 0210 nano-technology

Abstract

Directed crystal growth often requires considerable experimental effort to achieve epitaxial control. In this work a simple solution step is shown to yield crystals of two different molecules simultaneously within a thin film and with defined epitaxial relations to each other. This was achieved by dissolving simultaneously carbamazepine (CBZ), a drug molecule, and iminostilbene (ISB), its precursor, in a single solution. When the sample is prepared using slow solvent evaporation rates, both molecules grow into needle-shaped crystals. The ISB crystals contact the substrate surface and extend for hundreds of μm. CBZ tends to minimize the contact with the substrate and assembles on top or is ledge-directed. In both cases a defined inclination of CBZ to the underlying ISB crystals is seen with optical microscopy showing a 36° inclination of the elongated crystals. In a similar way to pole figure measurements, rotating grazing incidence X-ray diffraction allows the determination of crystallographic properties and epitaxial relation, i.e. how the unit cells of both molecules align with respect to each other in terms of contact plane and azimuthal orientation. A point-on-line coincidence was identified, which can be related to the herringbone packing in the ISB crystals. Furthermore, changing the solute content as well as the processing times/kinetics, the appearance and the quality of crystal growth changes, but with the epitaxial relations remaining unaffected; crystals grow more frequent on top when processed slowly and when processed fast, growth takes place more often at facet inclined 90° from the top one., The authors want to thank the NAWI Graz for support. Elettra synchrotron is acknowledged for providing beamtime at the XRD1 beamline. The authors want to thank Luisa Barba and Nicola Demitri for excellent support.

Published

2019

34. Thin Film Formation Based on a Nanoporous Metal-Organic Framework by Layer-By-Layer Deposition.

Author

Fratschko M, Zhao T, Fischer JC, Werzer O, Gasser F, Howard IA, and Resel R

Abstract

Understanding the structure of thin films is essential for successful applications of metal-organic frameworks (MOFs), such as low k-dielectrics in electronic devices. This study focuses on the thin film formation of the 3D nanoporous MOF Cu 2 (bdc) 2 (dabco). The thin films are prepared by a layer-by-layer technique with varying deposition cycles (1 to 50). Thin film morphologies and crystallographic properties were investigated using atomic force microscopy (AFM), Fourier transform infrared (FTIR) spectroscopy, and grazing-incidence X-ray diffraction (GIXD). AFM revealed an island growth (Volmer-Weber) with plate-like shaped islands. FTIR and GIXD revealed that Cu 2 (bdc) 2 (dabco) crystals form already during the first preparation cycle. The heights of the islands do not increase linearly with the number of deposition cycles, suggesting multiple growth stages. X-ray diffraction pole figures uncover a uniplanar texture of the Cu 2 (bdc) 2 (dabco) crystals, together with randomly oriented crystallites. The fraction of uniplanar oriented crystals increases with each deposition cycle, reaching a maximum of 75% at ten deposition cycles, simultaneously achieving complete substrate coverage. However, already at five cycles, an additional phase of randomly oriented copper-terephthalate (Cu 2 (bdc)) crystals appeared; this phase reaches a fraction of 22% at the largest film thickness (50 cycles). In summary, a detailed understanding of the thin film formation of an archetypal layer-pillar MOF is presented, elucidating how films grow in terms of their morphology and crystalline properties. Samples prepared by ten cycles show complete coverage of the substrate together with the highest degree of preferred crystal orientation. These results establish a deepened understanding of critical parameters for MOF thin film applications, such as complete substrate coverage and definition of the nanopores relative to the substrate surface., Competing Interests: The authors declare no competing financial interest., (© 2024 The Authors. Published by American Chemical Society.)

Published

2024

35. Interfacial Engineering of Soft Matter Substrates by Solid-State Polymer Adsorption.

Author

Xu W, Werzer O, Spiliopoulos P, Mihhels K, Jiang Q, Meng Z, Tao H, Resel R, Tammelin T, Pettersson T, and Kontturi E

Abstract

Polymer coating to substrates alters surface chemistry and imparts bulk material functionalities with a minute thickness, even in nanoscale. Specific surface modification of a substate usually requires an active substrate that, e.g., undergoes a chemical reaction with the modifying species. Here, we present a generic method for surface modification, namely, solid-state adsorption, occurring purely by entropic strive. Formed by heating above the melting point or glass transition and subsequent rinsing of the excess polymer, the emerging ultrathin (<10 nm) layers are known in fundamental polymer physics but have never been utilized as building blocks for materials and they have never been explored on soft matter substrates. We show with model surfaces as well as bulk substrates, how solid-state adsorption of common polymers, such as polystyrene and poly(lactic acid), can be applied on soft, cellulose-based substrates. Our study showcases the versatility of solid-state adsorption across various polymer/substrate systems. Specifically, we achieve proof-of-concept hydrophobization on flexible cellulosic substrates, maintaining irreversible and miniscule adsorption yet with nearly 100% coverage without compromising the bulk material properties. The method can be considered generic for all polymers whose T g and T m are below those of the to-be-coated adsorbed layer, and whose integrity can withstand the solvent leaching conditions. Its full potential has broad implications for diverse materials systems where surface coatings play an important role, such as packaging, foldable electronics, or membrane technology.

Published

2024

36. Impact of sample misalignment on grazing incidence x-ray diffraction patterns and the resulting unit cell determination.

Author

Holzer V, Schrode B, Simbrunner J, Hofer S, Barba L, Resel R, and Werzer O

Subjects

Incidence, X-Rays, X-Ray Diffraction

Abstract

Grazing incidence x-ray diffraction (GIXD) is a frequently used tool for the crystallographic characterization of thin films in terms of polymorph identification and determination of the crystallographic lattice parameters. Even full structure solutions are possible. To obtain highly accurate diffraction patterns, the thin film sample has to be aligned carefully with the center of the goniometer, which allows a defined incidence of the primary x-ray beam relative to the sample surface. This work studies the effect of misalignment of a thin film sample on the acquired diffraction pattern. Three potential types of misalignments are considered: the deviation of the sample surface from the center of the goniometer, an error in the incidence angle of the primary beam, and an inclination of the goniometer rotation axis from the normal of the substrate surface. The consequence of these types of sample misalignments is the shift of diffraction peaks toward specific directions in reciprocal space. Mathematical equations are given that relate the error in positions of Bragg peaks for each type of sample misalignment. Experiments with intentionally misaligned samples confirm the given formulas. In a subsequent step, the errors in the peak positions are translated to systematic errors in the estimation of the unit cell parameters. Depending on the type of misalignment, some alignment errors can be reduced or even corrected; in particular, azimuthal sample rotations prove to be advantageous in these cases. The results in this work improve the quality of GIXD measurements, in general, enabling deeper analysis like the full structure solution from the GIXD pattern on everyday basis.

Published

2022

37. Fabrication, characterization and cytocompatibility assessment of gelatin nanofibers coated with a polymer thin film by initiated chemical vapor deposition.

Author

Mansurnezhad R, Ghasemi-Mobarakeh L, Coclite AM, Beigi MH, Gharibi H, Werzer O, Khodadadi-Khorzoughi M, and Nasr-Esfahani MH

Subjects

Cell Line, Fibroblasts cytology, Humans, Methacrylates chemistry, Methacrylates pharmacology, Coated Materials, Biocompatible chemistry, Coated Materials, Biocompatible pharmacology, Fibroblasts metabolism, Gelatin chemistry, Gelatin pharmacology, Materials Testing, Membranes, Artificial, Nanofibers chemistry

Abstract

The presence of various functional groups in the structure of gelatin nanofibers (GNFs) has made it a suitable candidate for biomedical applications, yet its fast dissolution in aqueous media has been a real challenge for years. In the present work, we propose an efficient procedure to improve the durability of the GNFs. The electrospun GNFs were coated with poly(ethylene glycol dimethacrylate) (pEGDMA) using initiated chemical vapor deposition (iCVD) as a completely dry polymerization method. Morphological and chemical analysis revealed that an ultrathin layer formed around nanofibers (iCVD-GNFs) which has covalently bonded to gelatin chains. Against the instant dissolution of GNFs, the in vitro biodegradability test showed the iCVD-GNFs, to a large extent, preserve their morphology after 14 days of immersion and did not lose its integrity even after 31 days. In vitro cell culture studies, also, revealed cytocompatibility of the iCVD-GNFs for human fibroblast cells (hFC), as well as higher cell proliferation on the iCVD-GNFs compared to control made from tissue culture plate (TCP). Furthermore, contact angle measurements indicated that the hydrophilic GNFs became hydrophobic after the iCVD, yet FE-SEM images of cell-seeded iCVD-GNFs showed satisfactory cell adhesion. Taken together, the proposed method paves a promising way for the production of water-resistant GNFs utilized in biomedical applications; for instance, tissue engineering scaffolds and wound dressings., Competing Interests: Declaration of competing interest None., (Copyright © 2020. Published by Elsevier B.V.)

Published

2020

38. Surface Induced Phenytoin Polymorph. 2. Structure Validation by Comparing Experimental and Density Functional Theory Raman Spectra.

Author

Giunchi A, Rivalta A, Bedoya-Martínez N, Schrode B, Braun DE, Werzer O, Venuti E, and Della Valle RG

Abstract

A method for structure solution in thin films that combines grazing incidence X-ray diffraction data analysis and crystal structure prediction was presented in a recent work (Braun et al. Cryst. Growth Des.2019, DOI: 10.1021/acs.cgd.9b00857). Applied to phenytoin form II, which is only detected in films, the approach gave a very reasonable, but not fully confirmed, candidate structure with Z = 4 and Z ' = 2. In the present work, we demonstrate how, by calculating and measuring the crystal Raman spectrum in the low wavenumber energy region with the aim of validating the candidate structure, this can be further refined. In fact, we find it to correspond to a saddle point of the energy landscape of the system, from which a minimum of lower symmetry may be reached. With the new structure, with Z = 4 and Z ' = 2, we finally obtain an excellent agreement between experimental and calculated Raman spectra., Competing Interests: The authors declare no competing financial interest.

Published

2019

39. Surface Induced Phenytoin Polymorph. 1. Full Structure Solution by Combining Grazing Incidence X-ray Diffraction and Crystal Structure Prediction.

Author

Braun DE, Rivalta A, Giunchi A, Bedoya-Martinez N, Schrode B, Venuti E, Della Valle RG, and Werzer O

Abstract

Understanding the behavior and properties of molecules assembled in thin layers requires knowledge of their crystalline packing. The drug phenytoin (5,5-diphenylhydantoin) is one of the compounds that can be grown as a surface induced polymorph. By using grazing incidence X-ray diffraction, the monoclinic unit cell of the new form II can be determined, but, due to crystal size and the low amount of data, a full solution using conventional structure solving strategies fails. In this work, the full solution has been obtained by combining computational structure generation and experimental results. The comparison between the bulk and the new surface induced phase reveals significant packing differences of the hydrogen-bonding network, which might be the reason for the faster dissolution of form II with respect to form I . The results are very satisfactory, and the method might be adapted for other systems, where, due to the limited amount of experimental data, one must rely on additional approaches to gain access to more detailed information to understand the solid-state behavior., Competing Interests: The authors declare no competing financial interest., (Copyright © 2019 American Chemical Society.)

Published

2019

40. Wrinkling of an Enteric Coating Induced by Vapor-Deposited Stimuli-Responsive Hydrogel Thin Films.

Author

Muralter F, Coclite AM, and Werzer O

Abstract

In this contribution, we report on the thin-film synthesis of a thermoresponsive polymer onto another polymer used as an enteric coating in drug applications. In particular, we deposit cross-linked poly( N -vinylcaprolactam) (pNVCL) thin films by initiated chemical vapor deposition (iCVD) onto spin-coated Eudragit (EUD) layers. Already upon iCVD synthesis, the layered structure starts to form wrinkles at a minimum iCVD thickness of 30 nm. By changing the EUD layer thickness and the amount of cross-linking used during iCVD, the morphology of the wrinkles is demonstrated to be readily tunable. Laterally, the double-layer structures vary in morphology from being ultrasmooth to exhibiting up to a 3.5 μm wrinkle wavelength. The surface roughness and, thus, the wrinkles' height can be tailored from below 1 nm up to 100 nm. From the resulting wavelength of wrinkles, an estimation of the elastic modulus of pNVCL proves its tunability over a wide range of values thanks to the iCVD process. This study elucidates an uncomplicated way to tune the wrinkles' morphology and, thus, the surface area of a system that can be employed in drug delivery applications. Hence, an enteric coating of EUD together with an iCVD-synthesized thermoresponsive thin film is proposed as a promising composite encapsulation layer to outperform established systems in terms of tunability of the response to multiple external stimuli., Competing Interests: The authors declare no competing financial interest., (Copyright © 2019 American Chemical Society.)

Published

2019

41. Interlink between Tunable Material Properties and Thermoresponsiveness of Cross-Linked Poly( N -vinylcaprolactam) Thin Films Deposited by Initiated Chemical Vapor Deposition.

Author

Muralter F, Perrotta A, Werzer O, and Coclite AM

Abstract

In this contribution, we report on the thin-film synthesis of a novel thermoresponsive polymer, namely, poly( N -vinylcaprolactam) cross-linked by di(ethylene glycol)divinyl ether [p(NVCL- co -DEGDVE)] by initiated chemical vapor deposition (iCVD). Its transition between swollen and shrunken states in film thickness and the corresponding lower critical solution temperature (LCST) was investigated by spectroscopic ellipsometry in water. Water contact angle measurements and nano-indentation experiments reveal that the transition is accompanied by a change in wettability and elastic modulus. The amount of cross-linking was used to tune the thermoresponsive behavior of the thin films, resulting in higher swelling and LCST, increased surface rearrangement, and lower stiffness for less cross-linked polymers. For the first time, the filament temperature during iCVD synthesis was used to vary the chain length of the resulting polymeric systems and, thus, the position of their thermoresponsive transition. With that, swelling of up to 250% compared to the dry thickness and transition temperatures ranging from 16 to 40 °C could be achieved., Competing Interests: The authors declare no competing financial interest., (Copyright © 2019 American Chemical Society.)

Published

2019

42. Increased Aggregation Tendency of Alpha-Synuclein in a Fully Disordered Protein Complex.

Author

Merle DA, Witternigg A, Tam-Amersdorfer C, Hartlmüller C, Spreitzer E, Schrank E, Wagner-Lichtenegger S, Werzer O, Zangger K, Kungl AJ, Madl T, Meyer NH, and Falsone SF

Subjects

Amino Acid Sequence, Animals, Brain cytology, Humans, Intrinsically Disordered Proteins chemistry, Mice, Mice, Inbred C57BL, Models, Molecular, Nerve Tissue Proteins chemistry, Neuroblastoma pathology, Protein Binding, Protein Conformation, Protein Multimerization, Sequence Homology, Amyloid chemistry, Brain metabolism, Intrinsically Disordered Proteins metabolism, Nerve Tissue Proteins metabolism, Neuroblastoma metabolism, alpha-Synuclein chemistry, alpha-Synuclein metabolism

Abstract

The recent discovery of biologically active fully disordered, so called random fuzzy protein-protein interactions leads to the question of how the high flexibility of these protein complexes correlates to aggregation and pathologic misfolding. We identify the structural mechanism by which a random fuzzy protein complex composed of the intrinsically disordered proteins alpha-Synuclein and SERF1a is able to potentiate cytotoxic aggregation. A structural model derived from an integrated NMR/SAXS analysis of the reconstituted aSyn:SERF1a complex enabled us to observe the partial deprotection of one precise aSyn amyloid nucleation element in the fully unstructured ensemble. This minimal exposure was sufficient to increase the amyloidogenic tendency of SERF1a-bound aSyn. Our findings provide a structural explanation of the previously observed pro-amyloid activity of SERF1a. They further demonstrate that random fuzziness can trigger a structurally organized disease-associated reaction such as amyloid polymerization., (Copyright © 2019 Elsevier Ltd. All rights reserved.)

Published

2019

43. GIDVis : a comprehensive software tool for geometry-independent grazing-incidence X-ray diffraction data analysis and pole-figure calculations.

Author

Schrode B, Pachmajer S, Dohr M, Röthel C, Domke J, Fritz T, Resel R, and Werzer O

Abstract

GIDVis is a software package based on MATLAB specialized for, but not limited to, the visualization and analysis of grazing-incidence thin-film X-ray diffraction data obtained during sample rotation around the surface normal. GIDVis allows the user to perform detector calibration, data stitching, intensity corrections, standard data evaluation ( e.g. cuts and integrations along specific reciprocal-space directions), crystal phase analysis etc . To take full advantage of the measured data in the case of sample rotation, pole figures can easily be calculated from the experimental data for any value of the scattering angle covered. As an example, GIDVis is applied to phase analysis and the evaluation of the epitaxial alignment of pentacene-quinone crystallites on a single-crystalline Au(111) surface.

Published

2019

44. A Protocol To Characterize Peptide-Based Drug Delivery Systems for miRNAs.

Author

Schachner-Nedherer AL, Werzer O, and Zimmer A

Abstract

Micro RNA (miRNA)-based medicines have attracted attention as new therapeutic strategies to treat genetic diseases and metabolic and immunological disorders. MiRNAs have emerged as key mediators of metabolic processes fulfilling regulatory functions in maintaining physiological conditions, while altered miRNA expression profiles are often associated with genetic diseases. However, naked miRNAs exhibit poor enzymatic stability, biomembrane permeation, and cellular uptake. To overcome these limitations, the development of appropriate drug delivery systems (DDS) is necessary. Herein, a DDS is characterized being assembled from miRNA-27a (negative regulator in fat metabolism) and the amphipathic N-TER peptide. Dynamic light scattering (DLS), electrophoretic light scattering, and atomic force microscopy (AFM) are used to investigate physicochemical properties (i.e., size, shape, and charge) of the DDS. Although surface charges should provide decent stabilization, the AFM results confirm a state of agglomeration, which is also suggested by DLS. Furthermore, AFM studies reveal adhesion on hydrophilic as well as hydrophobic substrates, which is related to the amphipathic properties of the N-TER peptide. Physicochemical properties of DDS are important parameters, which have an impact on cell internalization/uptake and have to be taken into account for in vitro studies to develop a successful peptide-based DDS for miRNA replacement therapy in metabolic diseases, such as obesity and others., Competing Interests: The authors declare no competing financial interest.

Published

2019

45. Drug release from thin films encapsulated by a temperature-responsive hydrogel.

Author

Werzer O, Tumphart S, Keimel R, Christian P, and Coclite AM

Subjects

Acrylic Resins chemistry, Capsules, Drug Carriers chemistry, Drug Liberation, Hydrogels chemistry, Temperature

Abstract

Control over drug delivery may be interestingly achieved by using temperature responsive encapsulants, which change their thickness and mesh size with temperature. The prototype N-isopropylacrylamide hydrogel cross-linked with di(ethylene glycol) divinyl ether p(NIPAAm-co-DEGDVE) swells at low temperature and collapses above the lower critical solution temperature (LCST), ∼29 °C in a buffer. It might be expected that drug release from such encapsulation is always favored below the LCST, due to the larger free volume present in the swollen polymer film. Recent results show contradicting behavior where some cases behave as expected and others release much less when the polymer layer is swollen. In this study, layers of the drugs phenytoin, clotrimazole and indomethacin were drop cast on glass and p(NIPAAM-co-DEGDVE) layers were then synthesized directly on top of these drug layers via initiated chemical vapor deposition (iCVD), a solvent-free and gentle polymerization technique. Dissolution experiments were then performed, in which the drug release through the hindrance of the hydrogel was measured at different pH values. The results show that not only the swelling but also the permeate (drug in this case)-polymer interaction plays an important role in the release.

Published

2019

46. Bulk and Surface-Stabilized Structures of Paracetamol Revisited by Raman Confocal Microscopy.

Author

Rivalta A, Salzillo T, Venuti E, Della Valle RG, Sokolovič B, Werzer O, and Brillante A

Abstract

We revisit the polymorphism of paracetamol by means of a micro-Raman technique, which has proved to be a powerful tool for structure recognition. Distinct lattice phonon spectra clearly identified the pure phases. Confocality enabled us to detect phase mixing between form II and either I or III on a micrometric scale in the same crystallite. Following the most recent findings on surface-mediated structures, we also investigated spin-coated films grown on glass, gold, and polystyrene substrates, confirming the selectivity of these surfaces for the metastable form III, which shows an unprecedented stability over a time span of several months. A mechanism of its transformation to phase II, via a partially ordered intermediate state, is suggested by polarized Raman measurements., Competing Interests: The authors declare no competing financial interest.

Published

2018

47. Controlling Indomethacin Release through Vapor-Phase Deposited Hydrogel Films by Adjusting the Cross-linker Density.

Author

Christian P, Tumphart S, Ehmann HMA, Riegler H, Coclite AM, and Werzer O

Abstract

Vapor-phase deposited polymer coatings are applied on thin indomethacin films to modify the drug release. Hydrogel-forming co-polymers of 2-hydroxyethyl methacrylate and ethylene glycol dimethacrylate were prepared directly on top of solution cast indomethacin thin films by initiated Chemical Vapor Deposition (iCVD). This technique allows for solvent-free processing under mild conditions, thus minimizing a potential impact on the pharmaceutical. The drug release behavior, among other properties, was evaluated for polymers of different compositions and at different temperatures. The data show that the release kinetics can be tuned by several orders of magnitude as the cross-linker fraction is varied in the polymer coating. While uncoated indomethacin films were fully released within an hour, polymer coatings showed gradual liberation over several hours to days. Additional insight is gained from evaluating the experimental dissolution data in the framework of diffusive transport. The results of this study show that the iCVD technique has some promises for pharmaceutical technology, potentially allowing for tailored release behavior also for other drug systems.

Published

2018

48. Solvent Vapor Annealing of Amorphous Carbamazepine Films for Fast Polymorph Screening and Dissolution Alteration.

Author

Schrode B, Bodak B, Riegler H, Zimmer A, Christian P, and Werzer O

Abstract

Solubility enhancement and thus higher bioavailability are of great importance and a constant challenge in pharmaceutical research whereby polymorph screening and selection is one of the most important tasks. A very promising approach for polymorph screening is solvent vapor annealing where a sample is exposed to an atmosphere saturated with molecules of a specific chemical/solvent. In this work, amorphous carbamazepine thin films were prepared by spin coating, and the transformation into crystalline forms under exposure to solvent vapors was investigated. Employing grazing incidence X-ray diffraction, four distinct carbamazepine polymorphs, a solvate, and hydrates could be identified, while optical microscopy showed mainly spherulitic morphologies. In vitro dissolution experiments revealed different carbamazepine release from the various thin-film samples containing distinct polymorphic compositions: heat treatment of amorphous samples at 80 °C results in an immediate release; samples exposed to EtOH vapors show a drug release about 5 times slower than this immediate one; and all the others had intermediate release profiles. Noteworthy, even the sample of slowest release has a manifold faster release compared to a standard powder sample demonstrating the capabilities of thin-film preparation for faster drug release in general. Despite the small number of samples in this screening experiment, the results clearly show how solvent vapor annealing can assist in identifying potential polymorphs and allows for estimating their impact on properties like bioavailability.

Published

2017

49. Crystal alignment of caffeine deposited onto single crystal surfaces via hot-wall epitaxy.

Author

Röthel C, Radziown M, Resel R, Grois A, Simbrunner C, and Werzer O

Abstract

Defined crystal growth is highly demanded for technological applications but also fundamental research. Within this work, the crystal growth of the asymmetric molecule caffeine was studied on single crystalline surfaces of muscovite mica, sodium chloride and potassium chloride. While elongated needle-like crystals grow on muscovite mica and sodium chloride, smaller individual "bird-like" structures were observed on potassium chloride. Depending on the surface type and temperature, the disk-shaped caffeine molecules prefer either an edge-on or flat-on orientation with respect to the surface, but in each case, a defined crystallographic relation between the surface and caffeine crystallites was determined by using the X-ray pole figure technique. On muscovite mica and sodium chloride, needle-like crystallites with edge-on oriented molecules aligned mainly with the unit cell c -axis (which coincides with the long needle axis) along the [1-10] mica , [100] mica , [110] mica and [110] NaCl , [1-10] NaCl directions, respectively. Crystals consisting of flat-on oriented molecules on KCl showed also defined alignments with respect to the substrate, but due to the altered molecule-substrate contact, the b -axis aligned along [110] KCl and [1-10] KCl . Growth at elevated temperatures enabled changes in the crystal growth whereby more defined structures formed on NaCl. On KCl, the bird-like structures remained very similar, while caffeine on the mica surface at elevated temperatures resulted in even additional texture forming with the caffeine molecules now also favoring a flat-on orientation with respect to the surface. The systematic variation of various system parameters demonstrates how sensitive the growth behavior of caffeine on this variety of substrates is.

Published

2017

50. Wrinkle formation in a polymeric drug coating deposited via initiated chemical vapor deposition.

Author

Christian P, Ehmann HM, Werzer O, and Coclite AM

Subjects

Chemistry, Pharmaceutical, Drug Delivery Systems, Gases chemistry, Polyhydroxyethyl Methacrylate chemistry

Abstract

Polymer encapsulation of drugs is conventionally used as a strategy for controlled delivery and enhanced stability. In this work, a novel encapsulation approach is demonstrated, in which the organic molecule clotrimazole is enclosed into wrinkles of defined sizes. Having defined wrinkles at the drug/encapsulant interface, the contact between the encapsulating polymer and the drug can be improved. In addition, this can also allow for some control on the drug delivery as the available surface area changes with the wrinkle size. For this purpose, thin films of clotrimazole were deposited onto silica substrates and were then encapsulated by crosslinked poly(2-hydroxyethyl methacrylate) (pHEMA) via initiated chemical vapor deposition (iCVD). The thickness and the solid state (crystalline or amorphous) of the clotrimazole layer were varied so that the conditions under which surface wrinkles emerge can be determined. A (critical) clotrimazole thickness of 76.6 nm was found necessary to induce wrinkles, whereby the wrinkle size is directly proportional to the thickness of the amorphous clotrimazole. When the pHEMA was deposited on top of crystalline clotrimazole instead, wrinkling was absent. The wrinkling effect can be understood in terms of elastic mismatch between the relatively rigid pHEMA film and the drug layer. In the case of amorphous clotrimazole, the relatively soft drug layer causes a large mismatch resulting in a sufficient driving force for wrinkle formation. Instead, the increased elastic modulus of crystalline clotrimazole reduces the elastic mismatch between drug and polymer, so that wrinkles do not form.

Published

2016