Your search keyword '"Nickel, Bert"' showing total 157 results

151. On the understanding of organic thin film growth and the changes in structure formation induced by molecular chemical tuning

Author

Zykov, Anton, Kowarik, Stefan, Nickel, Bert, and Dzubiella, Joachim

Subjects

Chemisches Tuning, chemical tuning, Organische Halbleiter, UP 3130, Growth and nucleation, UP 7570, ddc:530, Echtzeit Röntgenstreuung, organic semiconductors, real-time X-ray scattering, 530 Physik, Wachstum und Nukleation, 29 Physik, Astronomie

Abstract

Funktionale organische Moleküle bergen ein hohes Potential für den Einsatz in zukunftsprägenden Technologien wie organischen Leuchtdioden (OLED), Solarzellen, Transistoren und Bio-Sensoren. Eines der Herstellungsverfahren beruht auf der Gasphasenabscheidung der Moleküle, die auf dem Substrat mittels Selbstorganisation zu dünnen Schichten wachsen. Auf Grund der komplexen Wechselwirkungen und des Einflusses der Schichtmorphologie auf die Funktionalität der dünnen Schichten stellt der Wachstumsprozess sowohl für die anwendungsorientierte als auch für die Grundlagenforschung eine hochinteressante und wichtige wissenschaftliche Herausforderung dar, mit der sich die vorliegende Arbeit auseinandersetzt. Die experimentellen Resultate und Konzepte, die in dieser Arbeit vorgestellt werden, leisten neue Beiträge für das Verständnis von organischem Wachstum. Der demonstrierte Einfluss von chemischer Modifikation auf verschiedene Aspekte des Strukturwachstums, wie z.B. auf die Filmrauigkeit, Kristallphasenreinheit und molekulare Diffusivität, zeigt zudem das hohe Potential dieser Methode zur Steuerung des organischen Wachstums. Aus den genannten Gründen kann diese Arbeit neue Impulse für die Erforschung und spätere Anwendung von funktionalen organischen Dünnschichtsystemen setzen. Functional organic molecules are promising for the application in future relevant technologies such as organic light emitting diodes (OLEDs), solar cells, transistors and bio-sensors. One of the processing methods to fabricate organic devices is organic molecular beam deposition. In this process, the complexly interacting molecules grow via self-assembly as thin films on a substrate. Due to the close structure-property relationship, the growth process constitutes a highly interesting and important scientific challenge for both application oriented as well as fundamental research and is the topic of the present thesis. The experimental results and conceptual methods presented in this thesis contribute new stimuli to the understanding of the molecular self-assembly. The demonstrated influence of chemical tuning on various facets of structure formation, such as film roughness, crystal phase purity and molecular diffusivities, uncovers the strong potential of this approach for steering organic growth. Therefore, the present work has implications for future research and application of functional organic thin films.

Published

2017

152. Zur nanomechanischen Charakterisierung von oberflächengestützten Biomembranmodellen

Author

Stetter, Frank, Hugel, Thorsten (Prof. Dr.), and Nickel, Bert (Priv.-Doz. Dr.)

Subjects

Physik, lipid membrane, membrane, biomembrane, lipid bilayer, afm, force microscopy, force spectroscopy, nanomechanical, mechanical properties, ethanol, bolalipid, alpha synuclein, cholesterol, extraction, single lipid extraction, pulling, punctureing, ddc:530, nanomechanisch, Lipid, Lipidmembran, Lipidschicht, AFM, Kraftmikroskop, Punktion, Ethanol, Biomembran, Bolalipid,Extraktion, Cholesterol, Phospholipide, Alpha-Synuclein, Vesikel,mechanische Eigenschaften

Abstract

Die biophysikalischen Eigenschaften von Zellmembranen werden zunehmend als wichtige Determinante für die Funktion von Membranproteinen und damit für Zellen insgesamt erkannt. Es wurden zwei Methoden etabliert und verwendet, die es erlauben, die mechanische Stabilität von oberflächengestützten Lipidmembranen und die Verankerungstärke von Lipiden zu messen. Die Fähigkeit beider Methoden Lipidphasen auf der Nanoebene zu unterscheiden, eröffnet neue Möglichkeiten zur Charakterisierung von Membran-Mikrodomänen und der Heterogenität in Modell- und Zellmembranen im Allgemeinen. The biophysical properties of cell membranes are more and more recognised as an important determinant of membrane protein function and hence of cells in general. The two established and applied methods provide a means to evaluate both the mechanical stability of solid supported lipid membranes and the anchorage strength of lipids. The ability of the two established methods to discriminate between lipid phases on the nanoscale provides a novel way for characterizing membrane microdomains, model membranes and cell membranes in general.

Published

2014

153. Synthesis of Cs 3 Cu 2 I 5 Nanocrystals in a Continuous Flow System.

Author

Arslanova K, Ganswindt P, Lorenzen T, Kostyurina E, Karaghiosoff K, Nickel B, Müller-Caspary K, and Urban AS

Abstract

Achieving the goal of generating all of the world's energy via renewable sources and significantly reducing the energy usage will require the development of novel, abundant, nontoxic energy conversion materials. Here, a cost-efficient and scalable continuous flow synthesis of Cs 3 Cu 2 I 5 nanocrystals is developed as a basis for the rapid advancement of novel nanomaterials. Ideal precursor solutions are obtained through a novel batch synthesis, whose product served as a benchmark for the subsequent flow synthesis. Realizing this setup enabled a reproducible fabrication of Cs 3 Cu 2 I 5 nanocrystals. The effect of volumetric flow rate and temperature on the final product's morphology and optical properties are determined, obtaining 21% quantum yield with the optimal configuration. Consequently, the size and morphology of the nanocrystals can be tuned with far more precision and in a much broader range than previously achievable. The flow setup is readily applicable to other relevant nanomaterials. It should enable a rapid determination of a material's potential and subsequently optimize its desired properties for renewable energy generation or efficient optoelectronics., (© 2024 The Author(s). Small published by Wiley‐VCH GmbH.)

Published

2024

154. Photodegradation of CuBi 2 O 4 Films Evidenced by Fast Formation of Metallic Bi using Operando Surface-sensitive X-ray Scattering.

Author

Derelli D, Caddeo F, Frank K, Krötzsch K, Ewerhardt P, Krüger M, Medicus S, Klemeyer L, Skiba M, Ruhmlieb C, Gutowski O, Dippel AC, Parak WJ, Nickel B, and Koziej D

Abstract

CuBi 2 O 4 has recently emerged as a promising photocathode for photo-electrochemical (PEC) water splitting. However, its fast degradation under operation currently poses a limit to its application. Here, we report a novel method to study operando the semiconductor-electrolyte interface during PEC operation by surface-sensitive high-energy X-ray scattering. We find that a fast decrease in the generated photocurrents correlates directly with the formation of a metallic Bi phase. We further show that the slower formation of metallic Cu, as well as the dissolution of the electrode in contact with the electrolyte, further affect the CuBi 2 O 4 activity and morphology. Our study provides a comprehensive picture of the degradation mechanisms affecting CuBi 2 O 4 electrodes under operation and poses the methodological basis to investigate the photocorrosion processes affecting a wide range of PEC materials., (© 2023 The Authors. Angewandte Chemie International Edition published by Wiley-VCH GmbH.)

Published

2023

155. Exciton Dynamics in MoS 2 -Pentacene and WSe 2 -Pentacene Heterojunctions.

Author

Markeev PA, Najafidehaghani E, Samu GF, Sarosi K, Kalkan SB, Gan Z, George A, Reisner V, Mogyorosi K, Chikan V, Nickel B, Turchanin A, and de Jong MP

Abstract

We measured the exciton dynamics in van der Waals heterojunctions of transition metal dichalcogenides (TMDCs) and organic semiconductors (OSs). TMDCs and OSs are semiconducting materials with rich and highly diverse optical and electronic properties. Their heterostructures, exhibiting van der Waals bonding at their interfaces, can be utilized in the field of optoelectronics and photovoltaics. Two types of heterojunctions, MoS 2 -pentacene and WSe 2 -pentacene, were prepared by layer transfer of 20 nm pentacene thin films as well as MoS 2 and WSe 2 monolayer crystals onto Au surfaces. The samples were studied by means of transient absorption spectroscopy in the reflectance mode. We found that A-exciton decay by hole transfer from MoS 2 to pentacene occurs with a characteristic time of 21 ± 3 ps. This is slow compared to previously reported hole transfer times of 6.7 ps in MoS 2 -pentacene junctions formed by vapor deposition of pentacene molecules onto MoS 2 on SiO 2 . The B-exciton decay in WSe 2 shows faster hole transfer rates for WSe 2 -pentacene heterojunctions, with a characteristic time of 7 ± 1 ps. The A-exciton in WSe 2 also decays faster due to the presence of a pentacene overlayer; however, fitting the decay traces did not allow for the unambiguous assignment of the associated decay time. Our work provides important insights into excitonic dynamics in the growing field of TMDC-OS heterojunctions.

Published

2022

156. Dual channel operation upon n-channel percolation in a pentacene-C60 ambipolar organic thin film transistor.

Author

Noever SJ, Fischer S, and Nickel B

Abstract

Thickness resolved measurements of ambipolar thin-film transistor characteristics track the charging of an organic-organic heterojunction. Combined with structural investigation methods such as AFM and GIXS, this leads to a better understanding of the physics in state of the art devices such as organic solar cells, organic light emitting diodes and light emitting TFTs., (Copyright © 2013 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim.)

Published

2013

157. Structure and mobility of lipid membranes on a thermoplastic substrate.

Author

Hochrein MB, Reich C, Krause B, Rädler JO, and Nickel B

Subjects

Cations chemistry, Fatty Acids, Monounsaturated chemistry, Hydrophobic and Hydrophilic Interactions, Membrane Fluidity, Membrane Fusion, Microfluidic Analytical Techniques, Microscopy, Fluorescence, Phase Transition, Phosphatidylcholines chemistry, Photobleaching, Quaternary Ammonium Compounds chemistry, Solvents chemistry, Surface Properties, X-Ray Diffraction, Cycloparaffins chemistry, Lipid Bilayers chemistry, Membranes, Artificial, Polymers chemistry

Abstract

Supported lipid membranes constitute one of the most important model systems for cell membranes. The properties of lipid membranes supported by the hydrophobic solid polymer cyclic olefin copolymer (COC) were investigated. Lipid layers consisting of varying amounts of 1,2-dioleoyl-3-trimethylammonium propane (DOTAP, cationic) and 1,2-dioleoyl-sn-glycero-3-phosphocholine (DOPC, neutral) prepared by vesicle fusion and solvent exchange were compared. All lipid mixtures coated the COC surface homogeneously forming a fluid membrane as verified by fluorescence microscopy and fluorescence recovery after photobleaching (FRAP). The exact structure of the supported membranes was determined by synchrotron reflectivity experiments using a microfluidic chamber. The X-ray data are in agreement with a compressed (head-to-head distance = 29 angstroms) and less densely packed bilayer.

Published

2006