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128 results on '"Heinke, Lars"'

1. Exploring Functional Photonic Devices made from a Chiral Metal-Organic Framework Material by a Multiscale Computational Method

Author

Zerulla, Benedikt, Li, Chun, Beutel, Dominik, Oßwald, Simon, Holzer, Christof, Bürck, Jochen, Bräse, Stefan, Wöll, Christof, Fernandez-Corbaton, Ivan, Heinke, Lars, Rockstuhl, Carsten, and Krstić, Marjan

Subjects
Condensed Matter - Materials Science, Physics - Optics
Abstract

Electronic circular dichroism is an important optical phenomenon offering insights into chiral molecular materials. On the other hand, metal-organic frameworks (MOFs) are a novel group of crystalline porous thin-film materials that provide tailor-made chemical and physical properties by carefully selecting their building units. Combining these two aspects of contemporary material research and integrating chiral molecules into MOFs promises devices with unprecedented functionality. However, considering the nearly unlimited degrees of freedom concerning the choice of materials and the geometrical details of the possibly structured films, we urgently need to complement advanced experimental methods with equally strong modeling techniques. Most notably, these modeling techniques must cope with the challenge that the material and devices thereof cover size scales from {\AA}ngstr\"oms to mm. In response to that need, we outline a computational workflow that seamlessly combines quantum chemical methods to capture the properties of individual molecules with optical simulations to capture the properties of functional devices made from these molecular materials. We concentrate on chiral properties and apply our work to UiO-67-BINOL MOFs, for which experimental results are available to benchmark the results of our simulations and explore the optical properties of cavities and metasurfaces made from that chiral material.

Published
2023
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5. Comparison of the effects of cold water immersion and percussive massage on the recovery after exhausting eccentric exercise: A three-armed randomized controlled trial.

Author

Heinke, Lars, Javanmardi, Sasha, Rappelt, Ludwig, Konrad, Andreas, Schleip, Robert, Knicker, Axel J., Freiwald, Jürgen, and Baumgart, Christian

Abstract

Introduction: Athletic training requires both challenging stimuli for adaptation and sufficient recovery for improved performance. While cold water immersion (CWI) is already a popular recovery method, handheld percussive massage (PM) devices have also gained popularity in recent years. This study aims to assess the effects of CWI and PM on performance recovery after strenuous eccentric exercises compared to a passive rest (PR) control condition. Methods: Thirty-four healthy physically active participants (9 females, 25 males) were randomly divided into three groups: CWI (n = 11), PM (n = 11), and passive rest (PR) (n = 12). They underwent an exhausting eccentric exercise protocol and different measurements at six time points (baseline, POST1, POST2, POST24, POST48, and POST72) over the time course of 72 h. These included subjective assessments of muscle soreness and perceived stiffness as well as measures of skin temperature, leg volume, creatine kinase activity, and three different jump tests. The eccentric exercise protocol consisted of 15 min downhill running (slope: 12%, speed: 10 km/h) and 3 sets of successive depth jumps (dropping height: 0.5 m) until individual exhaustion. After POST1 measurements, participants received 12 min of either CWI (11 ± 0.5°C), PM (40 Hz) or PR (supine posture). Results: No significant group effects were found for the number of depth jumps performed during the exhaustion protocol. All jump tests displayed a significant group × time interaction effect. Post-hoc analysis indicated significant lower jump heights in ΔPOST2 between CWI and both PM and PR. No other significant group effects were observed at any time point. No significant group × time interaction effects were noted for CK, leg volume, and soreness. The perceived stiffness showed a significant group × time interaction effect. Post-hoc analysis revealed a significant decrease in stiffness for PM compared to PR at ΔPOST2. Conclusion: Neither CWI nor PM showed any significant improvement in performance recovery over the 72-h period following strenuous eccentric exercise compared to PR. CWI showed an immediate performance decline which may be attributed to a cold-related reduction in motor nerve conduction velocity. [ABSTRACT FROM AUTHOR]

Published
2024
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11. Sensitive Detection of a Gaseous Analyte with Low‐Power Metal–Organic Framework Functionalized Carbon Nanotube Transistors

Author

Kumar, Sandeep, Dehm, Simone, Wieland, Laura, Chandresh, Abhinav, Heinke, Lars, Flavel, Benjamin S., Krupke, Ralph, Kumar, Sandeep, Dehm, Simone, Wieland, Laura, Chandresh, Abhinav, Heinke, Lars, Flavel, Benjamin S., and Krupke, Ralph

Abstract

A highly sensitive and low‐power sensing platform for detecting ethanol molecules by interfacing high‐purity, large‐diameter semiconducting carbon nanotube transistors with a metal–organic framework layer is presented. The new devices outperform similar graphene‐based metal–organic framework devices by several orders of magnitude in terms of sensitivity and power consumption, and can detect extremely low ethanol concentrations down to sub‐ppb levels while consuming only picowatts of power. The exceptional sensor performance results from the nanotube transistor's high on/off ratio and its sensitivity to charges, allowing for ultra‐low power consumption. The platform can also compensate for shifts in threshold voltage induced by ambient conditions, making it suitable for use in humid air. This novel concept of MOF/CNTFETs could be customized for detecting various gaseous analytes, leading to a range of ultra‐sensitive and ultra‐low power sensors.

Published
2024

13. Elimination of Domain Boundaries Accelerates Diffusion in MOFs by an Order of Magnitude: Monolithic Metal‐Organic Framework Thin Films Epitaxially Grown on Si(111) Substrates.

Author

Thissen, Peter, Wohlgemuth, Jonas, Weidler, Peter, Smilgies, Detlef, Heinke, Lars, Schewe, Nils, Koenig, Meike, Krolla, Peter, and Wöll, Christof

Subjects
METAL-organic frameworks, GRAZING incidence, CRYSTAL lattices, SINGLE crystals, DIFFUSION coefficients, SILICON films, THIN films
Abstract

Many properties of the emerging class of metal‐organic frameworks (MOFs) depend crucially on defect concentrations, as in case of other solids. In order to provide reference systems with nearly perfect structure and low defect density, a procedure to grow MOFs epitaxially on cm‐sized Si(111) single crystals is developed. The crystalline metal‐organic thin films are in high registry with the substrate's crystal lattice, as demonstrated by synchrotron‐based grazing incidence X‐ray diffraction (GI‐XRD) experiments. The corresponding reduction of MOF defect density is shown to have striking effects on the properties of these porous frameworks. The most pronounced difference concerns mass transport. An increase in the diffusion coefficient of guest molecules by one order of magnitude relative to the same MOF materials with normal defect densities is observed. [ABSTRACT FROM AUTHOR]

Published
2024
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14. Exploring Functional Photonic Devices made from a Chiral Metal–Organic Framework Material by a Multiscale Computational Method.

Author

Zerulla, Benedikt, Li, Chun, Beutel, Dominik, Oßwald, Simon, Holzer, Christof, Bürck, Jochen, Bräse, Stefan, Wöll, Christof, Fernandez‐Corbaton, Ivan, Heinke, Lars, Rockstuhl, Carsten, and Krstić, Marjan

Subjects
METAL-organic frameworks, OPTICAL resonators, POROUS materials, CHEMICAL properties, DEGREES of freedom, CIRCULAR dichroism
Abstract

Electronic circular dichroism is an important optical phenomenon offering insights into chiral molecular materials. On the other hand, metal–organic frameworks (MOFs) are a novel group of crystalline porous thin‐film materials that provide tailor‐made chemical and physical properties by carefully selecting their building units. Combining these two aspects of contemporary material research and integrating chiral molecules into MOFs promises devices with unprecedented functionality. However, considering the nearly unlimited degrees of freedom concerning the choice of materials and the geometrical details of the possibly structured films, urgently it needs to complement advanced experimental methods with equally strong modeling techniques. Most notably, these modeling techniques must cope with the challenge that the material and devices thereof cover size scales from Ångströms to mm. In response to that need, a computational workflow is outlined that seamlessly combines quantum chemical methods to capture the properties of individual molecules with optical simulations to capture the properties of functional devices made from these molecular materials. The focus is on chiral properties and applying work to UiO‐67‐BINOL MOFs, for which experimental results are available to benchmark the results of the simulations and explore the optical properties of cavities and metasurfaces made from that chiral material. [ABSTRACT FROM AUTHOR]

Published
2024
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19. Nanographene‐Based Metal‐Organic Framework Thin Films: Optimized Packing and Efficient Electron‐Hole Separation Yielding Efficient Photodetector.

Author

Xu, Zhiyun, Liu, Yidong, Chandresh, Abhinav, Pati, Palas Baran, Monnier, Vincent, Heinke, Lars, Odobel, Fabrice, Diring, Stéphane, Haldar, Ritesh, and Wöll, Christof

Subjects
THIN films, METAL-organic frameworks, CHEMICAL vapor deposition, PHOTODETECTORS, CONDENSED matter
Abstract

Organic semiconductors, specifically polycyclic aromatic chromophores like pentacene, coronene, and nanographenes (hexa‐peri‐hexabenzocoronene, HBC), are often utilized in optoelectronic applications due to their intriguing single‐molecule properties. However, the integration of these aromatic compounds into optoelectronic devices frequently encounters significant obstacles, primarily due to the unpredictable and challenging control over the structure and morphology of their condensed phase. Rather than resorting to chemical modifications or advanced thin‐film manufacturing methods such as chemical vapor deposition, the so‐called metal‐organic framework (MOF) approach is employed to create a highly photoresponsive, nanographene‐based thin film employing a layer‐by‐layer, liquid‐phase epitaxy method. It is demonstrated that the novel Cu‐HBC MOF thin film exhibits excellent photoresponsive behavior under ultraviolet illumination, including a fast response time (˂ 0.02 s) and high current switching ratio (≈104), which significantly outperforms an isostructural MOF Zn‐HBC. Furthermore, it is demonstrated that the metal nodes inside the MOF can be used to enhance the photoresponse by efficient exciton splitting. [ABSTRACT FROM AUTHOR]

Published
2024
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21. Exploring Functional Photonic Devices made from a Chiral Metal–Organic Framework Material by a Multiscale Computational Method

Author

Zerulla, Benedikt, primary, Li, Chun, additional, Beutel, Dominik, additional, Oßwald, Simon, additional, Holzer, Christof, additional, Bürck, Jochen, additional, Bräse, Stefan, additional, Wöll, Christof, additional, Fernandez‐Corbaton, Ivan, additional, Heinke, Lars, additional, Rockstuhl, Carsten, additional, and Krstić, Marjan, additional

Published
2023
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25. Sensing Molecules with Metal–Organic Framework Functionalized Graphene Transistors

Author

Kumar, Sandeep, Pramudya, Yohanes, Müller, Kai, Chandresh, Abhinav, Dehm, Simone, Heidrich, Shahriar, Fediai, Artem, Parmar, Devang, Perera, Delwin, Rommel, Manuel, Heinke, Lars, Wenzel, Wolfgang, Wöll, Christof, Krupke, Ralph, Kumar, Sandeep, Pramudya, Yohanes, Müller, Kai, Chandresh, Abhinav, Dehm, Simone, Heidrich, Shahriar, Fediai, Artem, Parmar, Devang, Perera, Delwin, Rommel, Manuel, Heinke, Lars, Wenzel, Wolfgang, Wöll, Christof, and Krupke, Ralph

Abstract

Graphene is inherently sensitive to vicinal dielectrics and local charge distributions, a property that can be probed by the position of the Dirac point in graphene field‐effect transistors. Exploiting this as a useful sensing principle requires selectivity; however, graphene itself exhibits no molecule‐specific interaction. Complementarily, metal–organic frameworks can be tailored to selective adsorption of specific molecular species. Here, a selective ethanol sensor is demonstrated by growing a surface‐mounted metal–organic framework (SURMOF) directly onto graphene field‐effect transistors (GFETs). Unprecedented shifts of the Dirac point, as large as 15 V, are observed when the SURMOF/GFET is exposed to ethanol, while a vanishingly small response is observed for isopropanol, methanol, and other constituents of the air, including water. The synthesis and conditioning of the hybrid materials sensor with its functional characteristics are described and a model is proposed to explain the origin, magnitude, and direction of the Dirac point voltage shift. Tailoring multiple SURMOFs to adsorb specific gases on an array of such devices thus generates a versatile, selective, and highly sensitive platform for sensing applications.

Published
2023

26. Metal‐Organic Framework Thin Films Grown on Functionalized Graphene as Solid‐State Ion‐Gated FETs.

Author

Chandresh, Abhinav, Wöll, Christof, and Heinke, Lars

Subjects
THIN films, METAL-organic frameworks, GRAPHENE, FIELD-effect transistors, ELECTRONIC equipment, METALLIC films, GRAPHENE oxide
Abstract

The unique properties of 2D‐materials like graphene are exploited in various electronic devices. In sensor applications, graphene shows a very high sensitivity, but only a low specificity. This shortcoming can be mastered by using heterostructures, where graphene is combined with materials exhibiting high analyte selectivities. Herein, this study demonstrates the precise deposition of nanoporous metal‐organic frameworks (MOFs) on graphene, yielding bilayers with excellent specificity while the sensitivity remains large. The key for the successful layer‐by‐layer deposition of the MOF films (SURMOFs) is the use of planar polyaromatic anchors. Then, the MOF pores are loaded with ionic liquid (IL). For functioning sensor devices, the IL@MOF films are grown on graphene field‐effect transistors (GFETs). Adding a top‐gate electrode yields an ion‐gated GFET. Analysis of the transistor characteristics reveals a clear Dirac point at low gate voltages, good on‐off ratios, and decent charge mobilities and densities in the graphene channel. The GFET‐sensor reveals a strong and selective response. Compared to other ion‐gated‐FET devices, the IL@MOF material is relatively hard, allowing the manufacturing of ultrathin devices. The new MOF‐anchoring strategy offers a novel approach generally applicable for the functionalization of 2D‐materials, where MOF/2D‐material hetero‐bilayers carry a huge potential for a wide variety of applications. [ABSTRACT FROM AUTHOR]

Published
2023
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28. Twisting of Porphyrin by Assembly in a Metal‐Organic Framework yielding Chiral Photoconducting Films for Circularly‐Polarized‐Light Detection

Author

Li, Chun, primary, Schopmans, Henrik, additional, Langer, Lukas, additional, Marschner, Stefan, additional, Chandresh, Abhinav, additional, Bürck, Jochen, additional, Tsuchiya, Youichi, additional, Chihaya, Adachi, additional, Wenzel, Wolfgang, additional, Bräse, Stefan, additional, Kozlowska, Mariana, additional, and Heinke, Lars, additional

Published
2023
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29. Inside Back Cover: Twisting of Porphyrin by Assembly in a Metal‐Organic Framework yielding Chiral Photoconducting Films for Circularly‐Polarized‐Light Detection (Angew. Chem. Int. Ed. 10/2023)

Author

Li, Chun, primary, Schopmans, Henrik, additional, Langer, Lukas, additional, Marschner, Stefan, additional, Chandresh, Abhinav, additional, Bürck, Jochen, additional, Tsuchiya, Youichi, additional, Chihaya, Adachi, additional, Wenzel, Wolfgang, additional, Bräse, Stefan, additional, Kozlowska, Mariana, additional, and Heinke, Lars, additional

Published
2023
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30. Chirales Porphyrin durch Einbau in metallorganisches Gerüst erlaubt fotoleitende Filme für die Detektion von zirkular polarisiertem Licht

Author

Li, Chun, primary, Schopmans, Henrik, additional, Langer, Lukas, additional, Marschner, Stefan, additional, Chandresh, Abhinav, additional, Bürck, Jochen, additional, Tsuchiya, Youichi, additional, Chihaya, Adachi, additional, Wenzel, Wolfgang, additional, Bräse, Stefan, additional, Kozlowska, Mariana, additional, and Heinke, Lars, additional

Published
2023
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35. Optical sensor array of chiral MOF-based Fabry–Pérot films for enantioselective odor sensing

Author

Zhan, Kuo, Jiang, Yunzhe, and Heinke, Lars

Subjects
Life sciences, biology, ddc:570
Abstract

An optical sensor array based on photonic Fabry–Pérot films of surface-mounted metal–organic-frameworks (SURMOFs) with different homochiral structures is presented. It is used to detect and enantioselectively discriminant 3 pairs of chiral odor molecules, either pure or in binary mixtures.

Published
2023

44. Nanoporöse Filme mit regelmäßig angeordneten molekularen Motoren für lichtgesteuerte Adsorption und Diffusion.

Author

Jiang, Yunzhe, Danowski, Wojciech, Feringa, Ben L., and Heinke, Lars

Subjects
ROTATIONAL motion
Abstract

Copyright of Angewandte Chemie is the property of Wiley-Blackwell and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published
2023
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45. Nanoporous Films with Oriented Arrays of Molecular Motors for Photoswitching the Guest Adsorption and Diffusion.

Author

Jiang, Yunzhe, Danowski, Wojciech, Feringa, Ben L., and Heinke, Lars

Subjects
MOLECULAR motor proteins, MOLECULAR rotation, MATERIALS science, POROUS materials, METAL-organic frameworks, DIFFUSION
Abstract

Molecular motors are fascinating nanomachines. However, constructing smart materials from such functional molecules presents a severe challenge in material science. Here, we present a bottom‐up layer‐by‐layer assembly of oriented overcrowded‐alkene molecular motors forming a crystalline metal–organic framework thin film. While all stator parts of the overcrowded‐alkene motors are oriented perpendicular to the substrate, the rotors point into the pores, which are large enough allowing for the light‐induced molecular rotation. Taking advantage of the thin film's transparency, the motor rotation and its activation energy are determined by UV/Vis spectroscopy. As shown by gravimetric uptake experiments, molecular motors in crystalline porous materials are used, for the first time, to control the adsorption and diffusion properties of guest molecules in the pores, here, by switching with light between the (meta‐)stable states. The work demonstrates the potential of designed materials with molecular motors and indicates a path for the future development of smart materials. [ABSTRACT FROM AUTHOR]

Published
2023
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48. Cover Feature: Classification and Identification of Perfume Scents by an Enantioselective Colorimetric Sensor Array of Chiral Metal‐Organic‐Framework‐Based Fabry‐Pérot Films (Chem. Eur. J. 39/2024).

Author

Zhan, Kuo, Kanj, Anemar Bruno, and Heinke, Lars

Subjects
SENSOR arrays, ODORS, PERFUMES, CLASSIFICATION, MACHINE learning
Abstract

This article discusses a colorimetric sensor array that uses metal-organic framework films to detect and classify perfume scents. The sensor system is able to detect chiral odor molecules and discriminate between different commercial perfume scents. The sensor read-out is captured using a smartphone camera and analyzed using a machine-learning algorithm. The research article provides more detailed information on the topic. [Extracted from the article]

Published
2024
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50. Innenrücktitelbild: Chirales Porphyrin durch Einbau in metallorganisches Gerüst erlaubt fotoleitende Filme für die Detektion von zirkular polarisiertem Licht (Angew. Chem. 10/2023).

Author

Li, Chun, Schopmans, Henrik, Langer, Lukas, Marschner, Stefan, Chandresh, Abhinav, Bürck, Jochen, Tsuchiya, Youichi, Chihaya, Adachi, Wenzel, Wolfgang, Bräse, Stefan, Kozlowska, Mariana, and Heinke, Lars

Subjects
METAL-organic frameworks, PORPHYRINS, BINAPHTHOL, MOLECULES, METALLOPORPHYRINS
Abstract

While the porphyrin molecules in solution (red) are planar, as common porphyrin, the porphyrin cores are twisted and chiral upon assembly in the metal-organic framework. Keywords: BINOL; Chirales Porphyrin; Fotodetektoren; Metallorganische Gerüste; Zirkular Polarisiertes Licht DE BINOL Chirales Porphyrin Fotodetektoren Metallorganische Gerüste Zirkular Polarisiertes Licht 1 1 1 02/22/23 20230301 NES 230301 B A chiral metal-organic framework film b with optoelectronic properties based on functionalized porphyrin molecules is presented by Mariana Kozlowska, Lars Heinke et al. in their Research Article (e202217377). The close packing and the crystalline order of the porphyrin cores in the film result in excellent photoconduction properties and sensitivity to circularly polarized light. [Extracted from the article]

Published
2023
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