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1,074 results on '"Besenbacher F"'

1. Fabrication and characterization of a rapid prototyped tissue engineering scaffold with embedded multicomponent matrix for controlled drug release

Author

Chen M, Le DQ, Hein S, Li P, Nygaard JV, Kassem M, Kjems J, Besenbacher F, and Bünger C

Subjects
Medicine (General), R5-920
Abstract

Muwan Chen,1,2 Dang QS Le,1,2 San Hein,2 Pengcheng Li,1 Jens V Nygaard,2 Moustapha Kassem,3 Jørgen Kjems,2 Flemming Besenbacher,2 Cody Bünger11Orthopaedic Research Lab, Aarhus University Hospital, Aarhus C, Denmark; 2Interdisciplinary Nanoscience Center (iNANO), Aarhus University, Aarhus C, Denmark; 3Department of Endocrinology and Metabolism, Odense University Hospital, Odense C, DenmarkAbstract: Bone tissue engineering implants with sustained local drug delivery provide an opportunity for better postoperative care for bone tumor patients because these implants offer sustained drug release at the tumor site and reduce systemic side effects. A rapid prototyped macroporous polycaprolactone scaffold was embedded with a porous matrix composed of chitosan, nanoclay, and β-tricalcium phosphate by freeze-drying. This composite scaffold was evaluated on its ability to deliver an anthracycline antibiotic and to promote formation of mineralized matrix in vitro. Scanning electronic microscopy, confocal imaging, and DNA quantification confirmed that immortalized human bone marrow-derived mesenchymal stem cells (hMSC-TERT) cultured in the scaffold showed high cell viability and growth, and good cell infiltration to the pores of the scaffold. Alkaline phosphatase activity and osteocalcin staining showed that the scaffold was osteoinductive. The drug-release kinetics was investigated by loading doxorubicin into the scaffold. The scaffolds comprising nanoclay released up to 45% of the drug for up to 2 months, while the scaffold without nanoclay released 95% of the drug within 4 days. Therefore, this scaffold can fulfill the requirements for both bone tissue engineering and local sustained release of an anticancer drug in vitro. These results suggest that the scaffold can be used clinically in reconstructive surgery after bone tumor resection. Moreover, by changing the composition and amount of individual components, the scaffold can find application in other tissue engineering areas that need local sustained release of drug.Keywords: nanoclay, chitosan, scaffold, tissue engineering, drug delivery system

Published
2012

2. Cell volume increase in murine MC3T3-E1 pre-osteoblasts attaching onto biocompatible Tantalum observed by magnetic AC mode Atomic Force Microscopy

Author

Klembt Andersen L., Antoranz Contera S., Justesen J., Duch M., Hansen O., Chevallier J., Foss M., Pedersen F. S., and Besenbacher F.

Subjects
Diseases of the musculoskeletal system, RC925-935, Orthopedic surgery, RD701-811
Abstract

Magnetic AC mode (MACmode) atomic force microscopy (AFM) was used to study murine (mouse) MC3T3-E1 preosteoblastic cells attached to biocompatible tantalum substrates. Cell volumes of attached cells derived from AFM images were compared to volumes of detached cells in suspension measured by the Coulter sizing technique. An increase of similar 50 % in cell volume was observed when the cells attached to planar tantalum substrates and developed a flattened structure including lamellipodia. We address thoroughly the issues general to the AFM determination of absolute cell volumes, and compare our magnetic AC mode AFM measurements to hitherto reported cell volume determinations by contact mode AFM.

Published
2005

3. Molecular Recognition Effects in the Surface Diffusion of Large Organic Molecules: The Case of Violet Lander

Author

Sato, F., Legoas, S. B., Otero, R., Hummelink, F., Thostrup, P., Laegsgaard, E., Stensgaard, I., Besenbacher, F., and Galvao, D. S.

Subjects
Condensed Matter - Materials Science
Abstract

Violet Lander (VL) (C108H104) is a large organic molecule that when deposited on Cu (110) exhibited lock-and-key like behavior (Otero et al., Nature Mater. 3, 779 (2004)). In this work we report on a detailed fully atomistic molecular dynamics study of this phenomenon. Our results show that it has its physical basis in the interplay of the molecular hydrogens and the Cu(110) atomic spacing, which is a direct consequence of an accidental commensurability between molecule and surface dimensions. This knowledge could be used to engineer new molecules capable of displaying lock-and-key behavior with new potential applications in nanotechology., Comment: 6 pages, 9 figures. This is an expanded version of our previous work published in Nature Materials v3, page 779, 2004

Published
2007
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4. Conductance of single-atom platinum contacts: Voltage-dependence of the conductance histogram

Author

Nielsen, S. K., Noat, Y., Brandbyge, M., Smit, R. H. M., Hansen, K., Chen, L. Y., Yanson, A. I., Besenbacher, F., and van Ruitenbeek, J. M.

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

The conductance of a single-atom contact is sensitive to the coupling of this contact atom to the atoms in the leads. Notably for the transition metals this gives rise to a considerable spread in the observed conductance values. The mean conductance value and spread can be obtained from the first peak in conductance histograms recorded from a large set of contact-breaking cycles. In contrast to the monovalent metals, this mean value for Pt depends strongly on the applied voltage bias and other experimental conditions, ranging from about 1 to 2.5 times 2e^2/h. We propose that the different results in part can be explained by the inclusion of hydrogen in the contacts. The bias dependence of the conductance is on the other hand due to the electron current that destabilizes monatomic Pt chains at high bias., Comment: 4 pages, 4 figures

Published
2002
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5. Atomic-Scale Structure of Dislocations Revealed by Scanning Tunnelling Microscopy and Molecular Dynamics

Author

Christiansen, J., Morgenstern, K., Schiøtz, J., Jacobsen, K. W., Braun, K. -F., Rieder, K. -H., Lægsgaard, E., and Besenbacher, F.

Subjects
Condensed Matter - Materials Science
Abstract

The intersection between dislocations and a Ag(111) surface has been studied using an interplay of scanning tunneling microscopy (STM) and molecular dynamics (MD). Whereas the STM provides atomically resolved information about the surface structure and Burgers vectors of the dislocations, the simulations can be used to determine dislocation structure and orientation in the near-surface region. In a similar way, the sub-surface structure of other extended defects can be studied. The simulations show dislocations to reorient the partials in the surface region leading to an increased splitting width at the surface, in agreement with the STM observations. Implications for surface-induced cross slip are discussed., Comment: 4 pages, RevTeX version 4, 4 figures included. Final version: title changed, discussion and figures improved

Published
2001
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26. Influence of surface roughness on quartz crystal microbalance measurements in liquids

Author

Rechendorff, K., Hovgaard, M.B., Foss, M., and Besenbacher, F.

Subjects
Quartz crystals -- Research, Quartz crystals -- Properties, Surface roughness -- Observations, Physics
Abstract

The studies were conducted to explore the frequency and dissipation responses from quartz crystal microbalance (QCM) crystals with different values of surface roughness oscillating in liquids with various densities and viscosities. The observation showed a clear correlation between the measured surface roughness and the frequency shift while the shift in the dissipation factor was unaffected by an increase in surface roughness.

Published
2007

38. Nanocatalysis

Author

Vang, R.T., Wendt, S., Besenbacher, F., Narlikar, A.V., book editor, and Fu, Y.Y., book editor

Published
2010
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43. Selection of conformational states in self-assembled surface structures formed from an oligo(naphthylene-ethynylene) 3-bit binary switch.

Author

Ning, Y., Cramer, J. R., Nuermaimaiti, A., Svane, K., Yu, M., Lægsgaard, E., Besenbacher, F., Xue, Q.-K., Ma, X., Hammer, B., Gothelf, K. V., and Linderoth, T. R.

Subjects
MOLECULAR self-assembly, MOLECULAR conformation, SURFACE chemistry, MOLECULAR structure, DENSITY functional theory, SCANNING tunneling microscopy
Abstract

Supra-molecular self-assembly on surfaces often involves molecular conformational flexibility which may act to enrich the variation and complexity of the structures formed. However, systematic and explicit investigations of how molecular conformational states are selected in surface self-assembly processes are relatively scarce. Here, we use a combination of high-resolution scanning tunneling microscopy and Density Functional Theory (DFT) calculations to investigate self-assembly for a custom-designed molecule capable of assuming eight distinct surface conformations (four enantiomeric pairs). The conformations result from binary positions of n = 3 naphtalene units on a linear oligo(naphthylene-ethynylene) backbone. On Au(111), inter-molecular interactions involving carboxyl and bulky tert-butyl-phenyl functional groups induce the molecules to form two ordered phases with brick-wall and lamella structure, respectively. These structures each involve molecules in two conformational states, and there is a clear separation between the conformers involved in the two types of structures. On Cu(111), individual molecules isolated by carboxylate-substrate binding show a distribution involving all possible conformational states. Together these observations imply selection and adaptation of conformational states upon molecular self-assembly. From DFT modeling and statistical analysis of the molecular conformations, the observed selection of conformational states is attributed to steric interaction between the naphthalene units. The present study enhances our understanding of how ordering and selection of molecular conformations is controlled by intermolecular interactions in a complex situation with many distinct conformational states for the participating molecules. [ABSTRACT FROM AUTHOR]

Published
2015
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44. Nucleation and growth of Pt nanoparticles on reduced and oxidized rutile TiO2 (110).

Author

Rieboldt, F., Vilhelmsen, L. B., Koust, S., Lauritsen, J. V., Helveg, S., Lammich, L., Besenbacher, F., Hammer, B., and Wendt, S.

Subjects
NUCLEATION, PLATINUM nanoparticles, OXIDIZING agents, RUTILE, TITANIUM dioxide, CHEMICAL reduction
Abstract

The nucleation and growth of Pt nanoparticles (NP's) on rutile TiO2 (110) surfaces with O on-top atoms (oxidized TiO2), surface O vacancies, and H adatoms, respectively (reduced TiO2), was studied by means of scanning tunneling microscopy (STM) experiments and density functional theory calculations. At room temperature, Pt was found to be trapped at O on-top atoms and surface O vacancies, leading to rather small Pt NP's. In contrast, on surfaces with H adatoms the mobility of Pt was much larger. As a result, large Pt NP's were found at room temperature on TiO2 (110) surfaces with H adatoms. However, at ~150 K the diffusion of Pt was kinetically hindered on all TiO2 (110) surfaces considered. STM data acquired after vacuum-annealing at 800 K showed comparable results on all TiO2 (110) surfaces because the diffusion of Pt is not influenced by surface defects at such high temperatures. [ABSTRACT FROM AUTHOR]

Published
2014
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