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Search for "surface structures" in Full Text gives 87 result(s) in Beilstein Journal of Nanotechnology.

Ultraviolet patterns of flowers revealed in polymer replica – caused by surface architecture

  • Anna J. Schulte,
  • Matthias Mail,
  • Lisa A. Hahn and
  • Wilhelm Barthlott

Beilstein J. Nanotechnol. 2019, 10, 459–466, doi:10.3762/bjnano.10.45

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  • cuticular foldings on top [21]. Barthlott et al. provided definitions and examples of such surface structures [1][21]. The surfaces of the three species investigated in this work possess papillae with heights between 20 µm and 80 µm and consist of convex-shaped cells. Different studies have found that
  • separated from the pigments. For example, Lee et al. [32] tried to examine the influence of the surface structure on the UV-reflection using replicas of rose petals with altered (shrunken) epidermal cells, which did not provide any information about the real influence of the original surface structures on
  • topography on the appearance of UV-patterns, we investigated the interaction between UV-light and the surface structures of three different plant species in this study. To consider several diverse surface structures we chose three species with distinct UV-patterns and different surface structures, for
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Published 13 Feb 2019

A comparison of tarsal morphology and traction force in the two burying beetles Nicrophorus nepalensis and Nicrophorus vespilloides (Coleoptera, Silphidae)

  • Liesa Schnee,
  • Benjamin Sampalla,
  • Josef K. Müller and
  • Oliver Betz

Beilstein J. Nanotechnol. 2019, 10, 47–61, doi:10.3762/bjnano.10.5

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  • ]. For theoretical access to the problem of frictional anisotropy considering factors such as the slope of the surface structures, the rigidity of the joints, and sliding speed, the reader is referred to [44]. Our results are in full accordance with previous measurements of the frictional directionality
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Published 04 Jan 2019

Apparent tunneling barrier height and local work function of atomic arrays

  • Neda Noei,
  • Alexander Weismann and
  • Richard Berndt

Beilstein J. Nanotechnol. 2018, 9, 3048–3052, doi:10.3762/bjnano.9.283

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  • have been used to estimate variations of the local work function Φ of surface structures. We experimentally show that Φapp can fail as a measure of Φ. The discrepancies are attributed to a kinetic-energy contribution to Φapp. This contribution depends on the lateral extent of the tunneling current
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Published 17 Dec 2018

Femtosecond laser-assisted fabrication of chalcopyrite micro-concentrator photovoltaics

  • Franziska Ringleb,
  • Stefan Andree,
  • Berit Heidmann,
  • Jörn Bonse,
  • Katharina Eylers,
  • Owen Ernst,
  • Torsten Boeck,
  • Martina Schmid and
  • Jörg Krüger

Beilstein J. Nanotechnol. 2018, 9, 3025–3038, doi:10.3762/bjnano.9.281

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  • -induced periodic surface structures (LIPSS [19]) and round melting features form on the glass surface (Figure 5b). The LIPSS with periods in the sub-micrometer range are generated via intra-pulse scattering and interference of the fs-laser radiation at the roughened glass surface, leading to the spatially
  • fluences F (from left to right: F = 1.63 J/cm2, N = 100; F = 1.83 J/cm2, N = 30; F = 1.83 J/cm2, N = 100; F = 2.04 J/cm2, N = 100). For all depicted laser spots, the laser-generated surface structures constitute a diffusion trap for evaporated indium during the PVD process. The fact that the strongest
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Published 12 Dec 2018

Controlling surface morphology and sensitivity of granular and porous silver films for surface-enhanced Raman scattering, SERS

  • Sherif Okeil and
  • Jörg J. Schneider

Beilstein J. Nanotechnol. 2018, 9, 2813–2831, doi:10.3762/bjnano.9.263

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  • plasmas on the surface morphology of thin silver films. It was found that different surface structures and different degrees of surface roughness could be obtained by a systematic variation of the plasma type and condition as well as plasma power and treatment time. The differently roughened silver
  • mixture as oxidizing plasma (Figure 8b). Even the silver film oxidized by air plasma for 15 min and 30 min as well as the silver film oxidized by the argon/oxygen plasma mixture show different surface structures compared to the silver films oxidized by pure oxygen plasma (Figure S16, Supporting
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Published 07 Nov 2018

Biomimetic surface structures in steel fabricated with femtosecond laser pulses: influence of laser rescanning on morphology and wettability

  • Camilo Florian Baron,
  • Alexandros Mimidis,
  • Daniel Puerto,
  • Evangelos Skoulas,
  • Emmanuel Stratakis,
  • Javier Solis and
  • Jan Siegel

Beilstein J. Nanotechnol. 2018, 9, 2802–2812, doi:10.3762/bjnano.9.262

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  • surface topography needs to be mimicked, but often also a specific function of the structure. An alternative approach to laser direct writing of complex structures is the generation of laser-induced periodic surface structures (LIPSS), which is based on directed self-organization of the material and
  • surface structures; laser rescanning; steel; wettability; Introduction Complex structures found in nature often present properties that are attractive for applications in science and technology. The hydrophobicity found at the lotus leaf surface [1], the exceptional adhesion capability of gecko feet [2
  • [12][13][14]. Such structures are commonly referred to as laser-induced periodic surface structures (LIPSSs). Two main mechanisms have been proposed to explain the origin of these structures. One of them takes into account laser light scattered at a rough surface, which interferes with the incident
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Published 05 Nov 2018

Friction reduction through biologically inspired scale-like laser surface textures

  • Johannes Schneider,
  • Vergil Djamiykov and
  • Christian Greiner

Beilstein J. Nanotechnol. 2018, 9, 2561–2572, doi:10.3762/bjnano.9.238

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  • maximum friction reduction [15]. A similar effect may exist for the optimum diameter of the scale-like surface morphologies as a function of oil viscosity, something to be tested in future experiments. Among our ongoing work, we have started to test these surface structures in reciprocating contacts, in
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Published 26 Sep 2018

Quantitative comparison of wideband low-latency phase-locked loop circuit designs for high-speed frequency modulation atomic force microscopy

  • Kazuki Miyata and
  • Takeshi Fukuma

Beilstein J. Nanotechnol. 2018, 9, 1844–1855, doi:10.3762/bjnano.9.176

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  • subnanometer-scale imaging of biomolecules [15][16][17]. Moreover, three-dimensional (3D) imaging techniques have been developed based on FM-AFM and used to visualize 3D distributions of hydration structures as well as flexible surface structures at solid–liquid interfaces [18][19][20][21][22]. Although FM-AFM
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Published 21 Jun 2018

Direct AFM-based nanoscale mapping and tomography of open-circuit voltages for photovoltaics

  • Katherine Atamanuk,
  • Justin Luria and
  • Bryan D. Huey

Beilstein J. Nanotechnol. 2018, 9, 1802–1808, doi:10.3762/bjnano.9.171

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  • ability to serially mill a surface, in order to reveal underlying surface structures and uniquely develop three-dimensional (3D) nanoscale property maps. The most notable examples are based on pure current detection with the AFM to resolve conduction pathways in filamentary semiconducting devices and
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Published 14 Jun 2018
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  • triple-decker sandwich complex of phthalocyanine compounds prepared on graphite was studied using STM by Lei et al. [17]. A method of photocatalytic lithography was reported for making porphyrin surface structures that were applied for preparing protein arrays [18][19]. The assembly of porphyrins at
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Published 17 Apr 2018

Periodic structures on liquid-phase smectic A, nematic and isotropic free surfaces

  • Anna N. Bagdinova,
  • Evgeny I. Demikhov,
  • Nataliya G. Borisenko,
  • Sergei M. Tolokonnikov,
  • Gennadii V. Mishakov and
  • Andrei V. Sharkov

Beilstein J. Nanotechnol. 2018, 9, 342–352, doi:10.3762/bjnano.9.34

Graphical Abstract
  • surface and in the bulk. Comparison of our images with FCD images [15] shows great similarity with FCD domains observed earlier. Figure 2 shows three-dimensional images of SmA surface structures obtained by the interferometric surface structure analyzer (ISSA). We see a system of craters and hills similar
  • region corresponded to a 10 nm distance between the tip and the surface but can be shifted to other values. The interaction between the tip and surface begins at a distance of 30 nm. Image of the 8CB surface structures on the SmA free surface (a) and in bulk (b), as measured with an optical polarized
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Published 30 Jan 2018

Combined scanning probe electronic and thermal characterization of an indium arsenide nanowire

  • Tino Wagner,
  • Fabian Menges,
  • Heike Riel,
  • Bernd Gotsmann and
  • Andreas Stemmer

Beilstein J. Nanotechnol. 2018, 9, 129–136, doi:10.3762/bjnano.9.15

Graphical Abstract
  • long-range electrostatic force between surface structures and the tip, care has to be taken to minimize long-range averaging effects on device structures with exposed electrodes [9]. Highest resolution and accuracy is enabled by detecting the force gradient [17][18][19]. On typical devices with large
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Published 11 Jan 2018

Nanoprofilometry study of focal conic domain structures in a liquid crystalline free surface

  • Anna N. Bagdinova,
  • Evgeny I. Demikhov,
  • Nataliya G. Borisenko and
  • Sergei M. Tolokonnikov

Beilstein J. Nanotechnol. 2017, 8, 2544–2551, doi:10.3762/bjnano.8.254

Graphical Abstract
  • following liquid crystalline phase sequence: isotropic (41 °C), nematic (32 °C), smectic-A (22.2 °C). The profilometer is an interferometric surface structure analyzer (ISSA) that allows three dimensional images of the surface structures to be obtained. Its vertical scan range is 150 μm, the vertical
  • and the LC surface. Experimental As was previously mentioned, the free surface structure of the liquid crystal compound 8CB has been studied using a profilometer. Scanning interferometry of white light was used in ISSA to obtain images and to calculate and analyze surface structures of the test parts
  • substrate without electrodes. On the glass substrate the same surface structures were observed. It is important to note that the FCDs are not observed on the smectic-free surface. The conditions for FCD formation are given in [4]. The nanoprofilometer presented in this work is a noncontact method which can
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Published 29 Nov 2017

Surfactant-induced enhancement of droplet adhesion in superhydrophobic soybean (Glycine max L.) leaves

  • Oliver Hagedorn,
  • Ingo Fleute-Schlachter,
  • Hans Georg Mainx,
  • Viktoria Zeisler-Diehl and
  • Kerstin Koch

Beilstein J. Nanotechnol. 2017, 8, 2345–2356, doi:10.3762/bjnano.8.234

Graphical Abstract
  • and five variations of nonionic surfactants) have been investigated. The leaf surface structures show a hierarchical organization, built up by convex epidermal cells (microstructure) and superimposed epicuticular platelet-shaped wax crystals (micro- to nanostructure). Chemical analysis of the
  • applied liquid also depends on the wetting mode. In the Wenzel mode [26] an applied water droplet penetrates into cavities formed by the surface structures, increasing the contact area, and resulting in high hysteresis of the applied liquid. In Cassie–Baxter mode [27] air remains in the surface cavities
  • distortion from desiccation, without changing the leaf surface structures [36][51]. The leaves were cut into 0.5 cm2 pieces and placed on a wet paper towel inside a petri dish. Glycerol (90%) was added drop-wise over a period of 20 h. The process ensures that glycerol infiltrates the tissue through the cut
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Published 08 Nov 2017

(Metallo)porphyrins for potential materials science applications

  • Lars Smykalla,
  • Carola Mende,
  • Michael Fronk,
  • Pablo F. Siles,
  • Michael Hietschold,
  • Georgeta Salvan,
  • Dietrich R. T. Zahn,
  • Oliver G. Schmidt,
  • Tobias Rüffer and
  • Heinrich Lang

Beilstein J. Nanotechnol. 2017, 8, 1786–1800, doi:10.3762/bjnano.8.180

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  • determine surface structures of deposited CuTPP(Br)8 on a Au(111) surface. After deposition of about one monolayer only small periodically structured arrangements were observed. Annealing significantly enlarged the size of ordered areas, which is attributed to a remarkable surface mobility [71] of the
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Published 29 Aug 2017

Collembola cuticles and the three-phase line tension

  • Håkon Gundersen,
  • Hans Petter Leinaas and
  • Christian Thaulow

Beilstein J. Nanotechnol. 2017, 8, 1714–1722, doi:10.3762/bjnano.8.172

Graphical Abstract
  • springtails (Collembola) are superhydrophobic, but the mechanism has not been described in detail. Previous studies have suggested that overhanging surface structures play an important role, but such structures are not a universal trait among springtails with superhydrophobic cuticles. A novel wetting
  • experiment with a fluorescent dye revealed the extent of wetting on exposed surface structures. Using simple wetting models to describe the composite wetting of the cuticular surface structures results in underestimating the contact angles of water. Including the three-phase line tension allows for a
  • . clavatus does not have overhanging surface structures. This large change in observed contact angles can be explained with a modest change of the three-phase line tension. Keywords: springtails (Collembola); superhydrophobicity; three-phase line tension; Introduction Collembola, a group of small
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Published 18 Aug 2017

Air–water interface of submerged superhydrophobic surfaces imaged by atomic force microscopy

  • Markus Moosmann,
  • Thomas Schimmel,
  • Wilhelm Barthlott and
  • Matthias Mail

Beilstein J. Nanotechnol. 2017, 8, 1671–1679, doi:10.3762/bjnano.8.167

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  • sensory systems. Biological surfaces are the basis of the discovery and are models for the development of biomimetic surfaces. The conquest of land some 450 million years ago led to the evolution of an almost endless variety of surface structures and functionalities in plants and animals [3]. One of the
  • sputter-coated onto the surface to enhance their conductivity. Biological role models of air-retaining Salvinia effect surfaces. a) The floating fern Salvinia molesta has one of the most complex surface structures in plants. Reproduced with permission from [5], copyright 2010 Wiley-VCH Verlag GmbH & Co
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Published 11 Aug 2017

Micro- and nano-surface structures based on vapor-deposited polymers

  • Hsien-Yeh Chen

Beilstein J. Nanotechnol. 2017, 8, 1366–1374, doi:10.3762/bjnano.8.138

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  • materials (with the exception for the case of selective deposition on transition metals and charged surfaces). Because of the well-established and available photolithography and soft lithography techniques, promising patterned surface structures have been created. Attempts were conducted to produce
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Published 04 Jul 2017

Calculating free energies of organic molecules on insulating substrates

  • Julian Gaberle,
  • David Z. Gao and
  • Alexander L. Shluger

Beilstein J. Nanotechnol. 2017, 8, 667–674, doi:10.3762/bjnano.8.71

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  • of attention due to their versatility, functionality, and technological potential. Understanding the behaviour of self-assembling molecules is important for catalysis [1], coatings [2], sensors [3][4] and molecular electronics [5][6][7]. To design and fabricate surface structures relevant for these
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Published 21 Mar 2017

Analysis and modification of defective surface aggregates on PCDTBT:PCBM solar cell blends using combined Kelvin probe, conductive and bimodal atomic force microscopy

  • Hanaul Noh,
  • Alfredo J. Diaz and
  • Santiago D. Solares

Beilstein J. Nanotechnol. 2017, 8, 579–589, doi:10.3762/bjnano.8.62

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  • transport characteristics and the distribution of carriers and materials, which are relevant to device performance [16]. In this work, we use a series of AFM techniques to characterize electrically defective surface structures aggregated on test PSC specimens. The active layer of the test PSCs comprises the
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Published 08 Mar 2017

Biological and biomimetic materials and surfaces

  • Stanislav Gorb and
  • Thomas Speck

Beilstein J. Nanotechnol. 2017, 8, 403–407, doi:10.3762/bjnano.8.42

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  • , which later proved to be wax crystals that are formed by self-organisation processes and show specific shapes characteristic for different plant groups. To study these surface structures in the SEM, the leaves have to be prepared and cleaned, and Wilhelm Barthlott soon realized that the leaves of some
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Published 08 Feb 2017

Nano- and microstructured materials for in vitro studies of the physiology of vascular cells

  • Alexandra M. Greiner,
  • Adria Sales,
  • Hao Chen,
  • Sarah A. Biela,
  • Dieter Kaufmann and
  • Ralf Kemkemer

Beilstein J. Nanotechnol. 2016, 7, 1620–1641, doi:10.3762/bjnano.7.155

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  • /nanotopographies. We define micro/nanostructured substrates as materials having fabricated surface structures in all three dimensions and, consequently, not having a planar surface. The number of possible architectures of micro/nanostructured substrates is huge and it is often difficult to keep track with all
  • desired surface feature size. In particular, some methods are not suited for structuring surface topographies in the nanometer range. 1.2 Microfabrication techniques Microfabrication techniques are mainly used to generate surface structures in the micrometer range, which is the size scale of cells. In
  • using metals [58]. The surface structures made by photolithography are typically further used as a master structure for further processing. Hot embossing also replicates micro- and nanofeatures of master substrates. In that case, a thermoplastic material is pressed on the mold at a high temperature to
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Published 08 Nov 2016

Surface roughness rather than surface chemistry essentially affects insect adhesion

  • Matt W. England,
  • Tomoya Sato,
  • Makoto Yagihashi,
  • Atsushi Hozumi,
  • Stanislav N. Gorb and
  • Elena V. Gorb

Beilstein J. Nanotechnol. 2016, 7, 1471–1479, doi:10.3762/bjnano.7.139

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  • attachment of the beetles. Surface roughness was found to be the dominant factor, strongly affecting the attachment ability of the beetles. Keywords: insect attachment; superhydrophilicity; superhydrophobicity; superoleophobicity; surface structures; Introduction The development of functional coatings that
  • also produce capillary forces. Inspired by this idea, artificial silicone polymer structures with underwater adhesive properties were fabricated [34]. Thus, the relationship between surface structures and the attachment of insects, in combination with their particular chemical/physical properties, has
  • flows on textured substrates with different roughness parameters and surface energies [39]. These numerical studies demonstrated that a higher density of geometrical surface structures of the rigid substrate results in a greater loss of fluid from the pad. The draining rate of the pad fluid is more
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Published 18 Oct 2016

Three-gradient regular solution model for simple liquids wetting complex surface topologies

  • Sabine Akerboom,
  • Marleen Kamperman and
  • Frans A. M. Leermakers

Beilstein J. Nanotechnol. 2016, 7, 1377–1396, doi:10.3762/bjnano.7.129

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  • approach, without a discontinuity in the water front shape or in the water advancing contact angle θ. Therefore, air entrapment cannot be the main reason why the contact angle θ for an advancing water front varies. Rather, the contact line is pinned and curved due to the surface structures, inducing
  • surface is hydrophobic (apparent contact angle θ > 90°) [1]. Recently, different surface structures have been designed and fabricated from hydrophilic materials that show hydrophobic contact angles [2][3][4][5][6][7][8][9][10]. An example is an inverse opal as schematically shown in Figure 1. Our group
  • scale, and does not entail details about the droplet shape close to the surface structures on a microscopic level. Another explanation of the difference in θ for a structured and unstructured surface of the same material is contact line pinning [17][18][19][20]. The three-phase contact line is hereby
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Published 04 Oct 2016

Functional diversity of resilin in Arthropoda

  • Jan Michels,
  • Esther Appel and
  • Stanislav N. Gorb

Beilstein J. Nanotechnol. 2016, 7, 1241–1259, doi:10.3762/bjnano.7.115

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  • is transported to the mouth region of the beetle where it can be seized with the mandibles [116][117][118]. The sticky pads feature a surface that is subdivided into numerous terminally branched outgrowths. During the prey capture, these surface structures are completely covered by an adhesive
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Published 01 Sep 2016
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