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1. Electrical characterization of the azimuthal anisotropy of $(\mathrm{Ni}_x\mathrm{Co}_{1-x})\mathrm{B}$-based ferromagnetic nanotubes

Author

Tiwari, Dhananjay, Scheuerlein, Martin Christoph, Jaber, Mahdi, Gautier, Eric, Vila, Laurent, Attané, Jean-Philippe, Schöbitz, Michael, Masseboeuf, Aurélien, Hellmann, Tim, Hofmann, Jan P., Ensinger, Wolfgang, and Fruchart, Olivier

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

We report on the structural, electric and magnetic properties of $(\mathrm{Ni}_x\mathrm{Co}_{1-x})\mathrm{B}$ ferromagnetic nanotubes, displaying azimuthal magnetization. The tubes are fabricated using electroless plating in polycarbonate porous templates, with lengths several tens of micrometers, diameters from 100nm to 500nm and wall thicknesses from 10nm to 80nm. The resistivity is $\sim 1.5\times10^{-6}\mathrm{\Omega/m}$, and the anisotropic magnetoresistance~(AMR) of 0.2-0.3%, one order of magnitude larger~(resp. smaller) than in the bulk material, which we attribute to the resistance at grain boundaries. We determined the azimuthal anisotropy field from M(H) AMR loops of single tubes contacted electrically. Its magnitude is around 10mT, and tends to increase with the tube wall thickness, as well as the Co content. However, surprisingly it does not dependent much on the diameter nor on the curvature., Comment: 12 pages, 10 figures, includes methods and appendix

Published
2023
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4. From Groundwork to Efficient Solar Cells: On the Importance of the Substrate Material in Co‐Evaporated Perovskite Solar Cells

Author

Abzieher, Tobias, Feeney, Thomas, Schackmar, Fabian, Donie, Yidenekachew J., Hossain, Ihteaz M., Schwenzer, Jonas A., Hellmann, Tim, Mayer, Thomas, Powalla, Michael, Paetzold, Ulrich W., Abzieher, Tobias, Feeney, Thomas, Schackmar, Fabian, Donie, Yidenekachew J., Hossain, Ihteaz M., Schwenzer, Jonas A., Hellmann, Tim, Mayer, Thomas, Powalla, Michael, and Paetzold, Ulrich W.

Abstract

Vacuum‐based deposition of optoelectronic thin films has a long‐standing history. However, in the field of perovskite‐based photovoltaics, these techniques are still not as advanced as their solution‐based counterparts. Although high‐efficiency vacuum‐based perovskite solar cells reaching power conversion efficiencies (PCEs) above 20% are reported, the number of studies on the underlying physical and chemical mechanism of the co‐evaporation of lead iodide and methylammonium iodide is low. In this study, the impact of one of the most crucial process parameters in vacuum processes — the substrate material — is studied. It is shown that not only the morphology of the co‐evaporated perovskite thin films is significantly influenced by the surface polarity of the substrate material, but also the incorporation of the organic compound into the perovskite framework. Based on these studies, a selection guide for suitable substrate materials for efficient co‐evaporated perovskite thin films is derived. This selection guide points out that the organic vacuum‐processable hole transport material 2,2″,7,7″‐tetra(N,N‐di‐p‐tolyl)amino‐9,9‐spirobifluorene is an ideal candidate for the fabrication of efficient all‐evaporated perovskite solar cells, demonstrating PCEs above 19%. Furthermore, building on the insights into the formation of the perovskite thin films on different substrate materials, a basic crystallization model for co‐evaporated perovskite thin films is suggested.

Published
2024

5. A Low‐Temperature Molecular Precursor Approach to Copper‐Based Nano‐Sized Digenite Mineral for Efficient Electrocatalytic Oxygen Evolution Reaction

Author

Chakraborty, Biswarup, Kalra, Shweta, Beltrán‐Suito, Rodrigo, Das, Chittaranjan, Hellmann, Tim, Menezes, Prashanth W., Driess, Matthias, Chakraborty, Biswarup, Kalra, Shweta, Beltrán‐Suito, Rodrigo, Das, Chittaranjan, Hellmann, Tim, Menezes, Prashanth W., and Driess, Matthias

Abstract

In the urge of designing noble metal‐free and sustainable electrocatalysts for oxygen evolution reaction (OER), herein, a mineral Digenite Cu₉S₅ has been prepared from a molecular copper(I) precursor, [{(PyHS)₂CuI(PyHS)}₂](OTf)₂ (1), and utilized as an anode material in electrocatalytic OER for the first time. A hot injection of 1 yielded a pure phase and highly crystalline Cu₉S₅, which was then electrophoretically deposited (EPD) on a highly conducting nickel foam (NF) substrate. When assessed as an electrode for OER, the Cu₉S₅/NF displayed an overpotential of merely 298±3 mV at a current density of 10 mA cm⁻² in alkaline media. The overpotential recorded here supersedes the value obtained for the best reported Cu‐based as well as the benchmark precious‐metal‐based RuO₂ and IrO₂ electrocatalysts. In addition, the choronoamperometric OER indicated the superior stability of Cu₉S₅/NF, rendering its suitability as the sustainable anode material for practical feasibility. The excellent catalytic activity of Cu₉S₅ can be attributed to the formation of a crystalline CuO overlayer on the conductive Cu₉S₅ that behaves as active species to facilitate OER. This study delivers a distinct molecular precursor approach to produce highly active copper‐based catalysts that could be used as an efficient and durable OER electro(pre)catalysts relying on non‐precious metals.

Published
2024

6. Preparation of methylammonium lead iodide (CH₃NH₃PbI₃) thin film perovskite solar cells by chemical vapor deposition using methylamine gas (CH₃NH₂) and hydrogen iodide gas

Author

Mortan, Claudiu, Hellmann, Tim, Buchhorn, Moritz, Melzi d'Eril, Marco, Clemens, Oliver, Mayer, Thomas, Jaegermann, Wolfram, Mortan, Claudiu, Hellmann, Tim, Buchhorn, Moritz, Melzi d'Eril, Marco, Clemens, Oliver, Mayer, Thomas, and Jaegermann, Wolfram

Abstract

An upscalable chemical vapor deposition setup has been built‐up and employed in producing methylammonium lead iodide (MAPI) thin film perovskite solar cells, leading to a maximum efficiency of 12.9%. The method makes use of methylamine gas and hydrogen iodide gas to transform a predeposited layer of lead(II)iodide (PbI₂) into MAPI. Although the reaction mechanism includes the intermediate phases lead oxide (PbO) and lead hydroxide (Pb(OH)₂), indicated at least on the surface of the samples by XPS, neither species could be observed in XRD measurements of the stepwise reaction, which show a mixture of highly oriented cubic and tetragonal MAPI perovskite lattice systems.

Published
2024

7. The Electronic Structure of MAPI‐Based Perovskite Solar Cells: Detailed Band Diagram Determination by Photoemission Spectroscopy Comparing Classical and Inverted Device Stacks

Author

Hellmann, Tim, Das, Chittaranjan, Abzieher, Tobias, Schwenzer, Jonas A., Wussler, Michael, Dachauer, Ralph, Paetzold, Ulrich W., Jaegermann, Wolfram, Mayer, Thomas, Hellmann, Tim, Das, Chittaranjan, Abzieher, Tobias, Schwenzer, Jonas A., Wussler, Michael, Dachauer, Ralph, Paetzold, Ulrich W., Jaegermann, Wolfram, and Mayer, Thomas

Abstract

High power conversion efficiency (PCE) perovskite solar cells (PSCs) rely on optimal alignment of the energy bands between the perovskite absorber and the adjacent charge extraction layers. However, since most of the materials and devices of high performance are prepared by solution‐based techniques, a deposition of films with thicknesses of a few nanometers and therefore a detailed analysis of surface and interface properties remains difficult. To identify the respective photoactive interfaces, photoelectron spectroscopy measurements are performed on device stacks of methylammonium‐lead‐iodide (MAPI)‐based PSCs in classical and inverted architectures in the dark and under illumination at open‐circuit conditions. The analysis shows that vacuum‐deposited MAPI perovskite absorber layers are n‐type, independent of the architecture and of the charge transport layer that it is deposited on (n‐type SnO₂ or p‐type NiOₓ). It is found that the majority of the photovoltage is formed at the n‐MAPI/p‐HEL (hole extraction layer) junction for both architectures, highlighting the importance of this interface for further improvement of the photovoltage and therefore also the PCE. Finally, an experimentally derived band diagram of the completed devices for the dark and the illuminated case is presented.

Published
2024

8. Electroless Nanoplating of Iridium: Template‐Assisted Nanotube Deposition for the Continuous Flow Reduction of 4‐Nitrophenol

Author

Scheuerlein, Martin Christoph, Muench, Falk, Kunz, Ulrike, Hellmann, Tim, Hofmann, Jan P., Ensinger, Wolfgang, Scheuerlein, Martin Christoph, Muench, Falk, Kunz, Ulrike, Hellmann, Tim, Hofmann, Jan P., and Ensinger, Wolfgang

Abstract

Electroless plating is a powerful tool in nanofabrication and is available for many of the noble transition metals. There is, however, a striking lack of electroless plating procedures for the rarer platinum‐group metals. In this work, two plating baths for nanoscale iridium coatings are developed and their conformality and nanofabrication potential are showcased by coating ion‐track‐etched polycarbonate membranes, creating Ir nanotubes in the process. Both plating solutions yield morphologically different deposits, indicating that the microstructure of the film can be tuned by adjusting the composition of the plating bath. The catalytic performance of the deposited materials is investigated by using membrane‐embedded nanotubes as catalysts for the reduction of 4‐nitrophenol and methyl orange by borohydride, showing remarkable activity and stability. Operation in flow‐through configuration, in which the metallized membrane is implemented as a microreactor greatly enhances the interaction with the catalyst surface, considerably increasing product yield. The results highlight the potential of Ir nanoplating for realizing sophisticated nanostructures and heterogeneous catalysts, but also illustrate the intricacies related to the complex chemistry of electroless Ir plating baths.

Published
2024

10. Electroreduction of CO₂ on Au(310)@Cu High‐index Facets

Author

Liang, Liang, Feng, Quanchen, Wang, Xingli, Hübner, Jessica, Gernert, Ulrich, Heggen, Marc, Wu, Longfei, Hellmann, Tim, Hofmann, Jan P., Strasser, Peter, Liang, Liang, Feng, Quanchen, Wang, Xingli, Hübner, Jessica, Gernert, Ulrich, Heggen, Marc, Wu, Longfei, Hellmann, Tim, Hofmann, Jan P., and Strasser, Peter

Abstract

The chemical selectivity and faradaic efficiency of high‐index Cu facets for the CO₂ reduction reaction (CO₂RR) is investigated. More specifically, shape‐controlled nanoparticles enclosed by Cu {hk0} facets are fabricated using Cu multilayer deposition at three distinct layer thicknesses on the surface facets of Au truncated ditetragonal nanoprisms (Au DTPs). Au DTPs are shapes enclosed by 12 high‐index {310} facets. Facet angle analysis confirms DTP geometry. Elemental mapping analysis shows Cu surface layers are uniformly distributed on the Au {310} facets of the DTPs. The 7 nm Au@Cu DTPs high‐index {hk0} facets exhibit a CH₄ : CO product ratio of almost 10 : 1 compared to a 1 : 1 ratio for the reference 7 nm Au@Cu nanoparticles (NPs). Operando Fourier transform infrared spectroscopy spectra disclose reactive adsorbed *CO as the main intermediate, whereas CO stripping experiments reveal the high‐index facets enhance the *CO formation followed by rapid desorption or hydrogenation.

Published
2023

11. Modulating Catalytic Selectivity by Base Addition in Aqueous Reductive Amination of 1,6-Hexanediol Using Ru/C

Author

Gupta, Navneet Kumar, Palenicek, Phillip, Nortmeyer, Lucas, Meyer, Gregor Maurice, Schäfer, Timo, Hellmann, Tim, Hofmann, Jan P., Rose, Marcus, Gupta, Navneet Kumar, Palenicek, Phillip, Nortmeyer, Lucas, Meyer, Gregor Maurice, Schäfer, Timo, Hellmann, Tim, Hofmann, Jan P., and Rose, Marcus

Abstract

Efficient base-modulated product selectivity in the aqueous-phase Ru/C-catalyzed reductive amination of 1,6-hexanediol (HDO) was reported by performing the reaction at mild conditions (463 K, 25 bar H2). High selectivity of amines could be controlled by the addition of different bases; for example, Cs2CO3 addition gave a high yield of 6-amino-1-hexanol (AH, 26%). However, the addition of Ba(OH)2 resulted in the formation of high yield of secondary amination products, hexamethylenediamine (HMDA, 34%) and azepane (26%). The hydroxide base, especially Ba(OH)2, aids in the initial conversion of HDO to AH by significantly decreasing the apparent activation energy from 68 to 48 kJ mol–1. A closer analysis of the formation of secondary products (azepane and HMDA) revealed a faster reaction between NH3 and the carbonyl-containing intermediate by the addition of Ba(OH)2 into the reaction solution.

Published
2023

13. Networks, beliefs, and asset prices

Author

Hatcher, Michael and Hellmann, Tim

Abstract

We set out a model of the stock market in which investors with heterogeneous beliefs update their type based on the past performance of neighbours in an arbitrary social network.We study how the network structure and the degree of agents’ attention to performance affect the coupled price-type dynamics. Types converge to a group-consensus characterised by network centrality if updating is purely social and to either the group’s most fundamental or most chartist type if updating is purely performance-based, with the time to convergence being finite and proportional to the network diameter. For intermediate cases, we identify two key mechanisms which can make group-consensus non-monotonic with respect to investors’attention to performance. These results shed light on when performance-based updating from social networks is stabilising – or destabilising – for asset prices. As an application, ourmodel can explain price bubbles and price oscillations by network-performance effects.

Published
2022

14. A comprehensive comparative study of CO2-resistance and oxygen permeability of 60 wt % Ce0.8M0.2O2– (M = La, Pr, Nd, Sm, Gd) - 40 wt % La0.5Sr0.5Fe0.8Cu0.2O3– dual-phase membranes

Author

Chen, Guoxing, primary, Zhao, Zhijun, additional, Widenmeyer, Marc, additional, Frömling, Till, additional, Hellmann, Tim, additional, Yan, Ruijuan, additional, Qu, Fangmu, additional, Homm, Gert, additional, Hofmann, Jan P., additional, Feldhoff, Armin, additional, and Weidenkaff, Anke, additional

Published
2021
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15. Advanced Understanding of the Electronic Properties of Perovskite Solar Cells: Contact Formation, Band Energy Diagrams and involved Surface Photovoltages

Author

Hellmann, Tim

Abstract

Solar cells incorporating organic inorganic metal halide perovskites as the absorber material have achieved power conversion efficiencies of more than 25% after only a decade of research. The extremely rapid improvement in efficiency of perovskite solar cells compared to pre-established absorber materials, such as silicon, cadmium telluride, or gallium arsenide, is mainly due to their cheap and easy low-temperature, solution-processing preparation techniques such as spin coating. To further improve the power conversion efficiency of perovskite solar cells, it is still necessary to develop a fundamental understanding of the device physics. The focus of this work lies, therefore, on investigating the energy band diagram of perovskite solar cells, both in the dark and under illumination at open circuit conditions, predominantly using photoelectron spectroscopy (PES). Two different architectures are investigated and compared: i) the classical architecture where the perovskite absorber is deposited onto the electron extraction layer and ii) the inverted architecture where the perovskite is deposited onto the hole extraction layer. Initial experiments showed that perovskite absorbers are extremely light-sensitive, meaning that even small intensities of background light, like the visible light emitted from the X ray source, can induce a photovoltage which will significantly affect the PES measurements by shifting all spectra to higher or lower binding energies. To shield the sample from the visible light emitted by the X ray source, the setup of the X ray photoelectron spectroscopy (XPS) system used in this work was improved by installing an aluminum window in between the sample and the X ray source. In the next step, a comparative study of several different perovskite absorbers on n type SnO2 (classical) and p type NiOx substrates (inverted architecture) was performed. It was proven that the underlying substrate has no effect on the doping level of the perovskite absorbers, as it has previously been proposed in the literature. The perovskite absorbers are always measured to be n doped. It is suggested that the literature reported substrate effect originates from background light during the measurement. This leads to an unnoticed photovoltage resulting in a binding energy shift of all spectra, which leads to the determination of incorrect doping levels. For both architectures, the majority of the photovoltage and hence the open-circuit voltage of the full device is identified at the n-type perovskite | p-type hole extraction layer interface. The interfaces between the perovskite and the respective hole extraction layer (classical: spiro MeOTAD and inverted: NiOx) were then investigated in detail. For the perovskite | spiro MeOTAD interface a classical step-by-step interface experiment was performed. Since spiro MeOTAD films used in perovskite solar cell devices are usually doped with LiTFSI, at first a vacuum deposition process of LiTFSI doped spiro MeOTAD through co-evaporation of both materials was developed. The interface characterization proved that a band bending occurs in the dark, which changes to a flat band situation under illumination, corresponding to a surface photovoltage. For the inverted architecture, the perovskite | NiOx interface was investigated using the tapered cross-section PES method, which demonstrated the presence of a band bending in the dark as well. Finally, the results from the photovoltage measurements and the detailed interface characterizations were combined to derive complete energy band diagrams for both architectures under dark and illuminated open-circuit conditions.

Published
2021
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16. Carbon-Assisted Stable Silver Nanostructures

Author

Abdollahi, S. Narjes, Ochoa-Martinez, Efrain, Kilchoer, Cédric, Kremer, Geoffroy, Jaouen, Thomas, Hellmann, Tim, Mayer, Thomas, Gu, Yibei, Wiesner, Ulrich B., Steiner, Ullrich, Wilts, Bodo D., and Gunkel, Ilja

Abstract

Galley proofs for the paper Carbon-Assisted Stable Silver Nanostructures

Published
2020

18. The dynamics of continuous cultural traits in social networks

Author

Buechel, Berno, Hellmann, Tim, Pichler, Michael M., Buechel, Berno, Hellmann, Tim, and Pichler, Michael M.

Abstract

We consider an overlapping generations model where continuous cultural traits are transmitted from an adult generation to the children. A weighted social network describes how children are influenced not only by their parents but also by other role models within the society. Parents can invest into the purposeful socialization of their children by strategically displaying a cultural trait (which need not coincide with their true cultural trait). We observe a cultural substitution effect when parents choose their behavior optimally. Based on Nash equilibrium behavior, we then study the dynamics of cultural traits throughout generations. These converge if parent’s influence on their children is large enough compared to the social environment’s influence. Under convergent dynamics, closed subgroups fully assimilate, while heterogeneous traits prevail in the other groups. Speed of convergence is low when parents' incentives to socialize their children to the own trait are high.

Published
2019

19. Pairwise stable networks in homogeneous societies

Author

Hellmann, Tim and Landwehr, Jakob

Subjects
Convexity, Strategic Complements, Network Formation, Noncooperative Games
Abstract

We study general properties of pairwise stable networks in homogeneous societies, i.e. when agents' utilities differ only with respect to their network position while their names do not matter. Rather than assuming a particular functional form of utility, we impose general link externality conditions on utility such as ordinal convexity and ordinal strategic complements. Depending on these rather weak notions of link externalities, we show that pairwise stable networks of various structure exist. For stronger versions of the convexity and strategic complements conditions, we are even able to characterize all pairwise stable networks: they are nested split graphs (NSG). We illustrate these results with many examples from the literature, including utility funtions that arise from games with strategic complements played on the network and utility funtions that depend on centrality measures such as Bonacich centrality.

Published
2018

20. Preparation of methylammonium lead iodide (CH3NH3PbI3) thin film perovskite solar cells by chemical vapor deposition using methylamine gas (CH3NH2) and hydrogen iodide gas.

Author

Mortan, Claudiu, Hellmann, Tim, Buchhorn, Moritz, d'Eril Melzi, Marco, Clemens, Oliver, Mayer, Thomas, and Jaegermann, Wolfram

Subjects
*CHEMICAL vapor deposition, *PEROVSKITE, *SOLAR cells, *LEAD iodide, *THIN films, *LEAD oxides, *DYE-sensitized solar cells
Abstract

An upscalable chemical vapor deposition setup has been built‐up and employed in producing methylammonium lead iodide (MAPI) thin film perovskite solar cells, leading to a maximum efficiency of 12.9%. The method makes use of methylamine gas and hydrogen iodide gas to transform a predeposited layer of lead(II)iodide (PbI2) into MAPI. Although the reaction mechanism includes the intermediate phases lead oxide (PbO) and lead hydroxide (Pb(OH)2), indicated at least on the surface of the samples by XPS, neither species could be observed in XRD measurements of the stepwise reaction, which show a mixture of highly oriented cubic and tetragonal MAPI perovskite lattice systems. [ABSTRACT FROM AUTHOR]

Published
2020
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21. Under-connected and over-connected networks: the role of externalities in strategic network formation

Author

Buechel, Berno, Hellmann, Tim, Buechel, Berno, and Hellmann, Tim

Abstract

Since the seminal contribution of Jackson and Wolinsky (J Econ Theory 71(1):44–74, 1996) it has been widely acknowledged that the formation of social networks exhibits a general conflict between individual strategic behavior and collective outcome. What has not been studied systematically are the sources of inefficiency. We approach this omission by analyzing the role of positive and negative externalities of link formation. This yields general results that relate situations of positive externalities with stable networks that cannot be “too dense” in a well-defined sense, while situations with negative externalities tend to induce “too dense” networks. Those results are neither restricted to specific assumptions on the agents’ preferences (e.g. homogeneity), nor to a specific notion of stability or efficiency.

Published
2017

22. Local and global pollution and international environmental agreements in a network approach

Author

Günther, Michael and Hellmann, Tim

Subjects
Coalition structures, C72, C73, International environmental agreements, Q54, Weak renegotiation-proofness, Q50, ddc:330, Networks, D85, Weak renegotiation-proofness, Coalition structures, International environmental agreements, Networks, F53
Abstract

Increasing concerns about climate change have given rise to the formation of International Environmental Agreements (IEAs) as a possible solution to limit global pollution effects. In this paper, we study the stability of IEAs in a repeated game framework where we restrict to strategies which are simple and invariant to renegotiation. Our main contribution to the literature on IEAs is that we allow for heterogeneous patterns of pollution such that additional to a global effect of pollution there are local pollution effects represented by a network structure. We show that stable IEAs exist if the network structure is balanced. Too large asymmetries in the degree of local spillovers may however lead to non-existence of stable structures. The generality of our approach allows for several applications to general problems in the provision of public goods.

Published
2015

23. Opinion dynamics under conformity

Author

Buechel, Berno, Hellmann, Tim, and Klößner, Stefan

Subjects
social networks, wisdom of the crowds, eigenvector centrality, Soziale Norm, Meinung, Soziales Netzwerk, C72, D83, Nichtkooperatives Spiel, consensus, Z13, ddc:330, D85, Theorie, conformity
Abstract

We present a model of opinion formation where individuals repeatedly engage in discussion and update their opinion in a social network similarly to the DeGroot model. Abstracting from the standard assumption that individuals always report their opinion truthfully, agents in our model interact strategically in the discussion such that their stated opinion can di er from their true opinion. The incentive to do so is induced by agents' preferences for conformity. Highly conforming agents will state an opinion which is close to their neighbors' while agents with low level of conformity may be honest or even overstate their opinion. We model opinion formation as a dynamic process and identify conditions for convergence to consensus. Studying the consensus in detail, we show that an agent's social in uence on the consensus opinion is increasing in network centrality and decreasing in the level of conformity. Thus, lower conformity fosters opinion leadership. Moreover, assuming that the initial opinion is a noisy signal about some true state of the world, we consider the mean squared error of the consensus as an estimator for the true state of the world. We show that a society is \wise, i.e. the mean squared error is smaller, if players who are well informed are less conform, while uninformed players conform more with their neighbors.

Published
2012

24. Convexity and complementarity in network formation. Implications for the structure of pairwise stable networks

Author

Hellmann, Tim

Subjects
L14, Spieltheorie, Gleichgewichtsstabilität, Existence, Soziales Netzwerk, C72, ddc:330, Nutzenfunktion, Uniqueness, Existence, Stability, Uniqueness, Supermodularity, Increasing differences, Networks, Game theory, Network formation, Networks, Network formation, D85, Increasing differences, D20, Stability, Theorie, Game theory, A14, Supermodularity
Abstract

This paper studies the properties of convexity (concavity) and strategic complements (substitutes) in network formation and the implications for the structure of pairwise stable networks. First, different definitions of convexity (concavity) in own links from the literature are put into the context of diminishing marginal utility of own links. Second, it is shown that there always exists a pairwise stable network as long as the utility function of each player satisfies convexity in own links and strategic complements. For network societies with a profile of utility functions satisfying concavity in own links and strategic complements, a local uniqueness property of pairwise stable networks is derived. The results do neither require any specification on the utility function nor any other additional assumptions such as homogeneity.

Published
2009

25. Opinion dynamics and wisdom under conformity

Author

Buechel, Berno, Hellmann, Tim, Kloessner, Stefan, Buechel, Berno, Hellmann, Tim, and Kloessner, Stefan

Abstract

We study a dynamic model of opinion formation in social networks. In our model, boundedly rational agents update opinions by averaging over their neighbors’ expressed opinions, but may misrepresent their own opinion by conforming or counter-conforming with their neighbors. We show that an agent׳s social influence on the long-run group opinion is increasing in network centrality and decreasing in conformity. Concerning efficiency of information aggregation or “wisdom” of the society, it turns out that misrepresentation of opinions need not undermine wisdom, but may even enhance it. Given the network, we provide the optimal distribution of conformity levels in the society and show which agents should be more conforming in order to increase wisdom.

26. Carbon‐assisted stable silver nanostructures

Author

Abdollahi, S. Narjes, Ochoa Martínez, Efraín, Kilchoer, Cédric, Kremer, Geoffroy, Jaouen, Thomas, Aebi, Philipp, Hellmann, Tim, Mayer, Thomas, Gu, Yibei, Wiesner, Ulrich B., Steiner, Ullrich, Wilts, Bodo D., Gunkel, Ilja, Abdollahi, S. Narjes, Ochoa Martínez, Efraín, Kilchoer, Cédric, Kremer, Geoffroy, Jaouen, Thomas, Aebi, Philipp, Hellmann, Tim, Mayer, Thomas, Gu, Yibei, Wiesner, Ulrich B., Steiner, Ullrich, Wilts, Bodo D., and Gunkel, Ilja

Abstract

Nanostructured silver stands out among other plasmonic materials because its optical losses are the lowest of all metals. However, nanostructured silver rapidly degrades under ambient conditions, preventing its direct use in most plasmonic applications. Here, a facile and robust method for the preparation of highly stable nanostructured silver morphologies is introduced. 3D nanostructured gyroid networks are fabricated through electrodeposition into voided, self‐assembled triblock terpolymer scaffolds. Exposure to an argon plasma degraded the polymer and stabilized the silver nanostructure for many weeks, even in high humidity and under high‐dose UV irradiation. This stabilization protocol enables the robust manufacture of low‐loss silver nanostructures for a wide range of plasmonic applications.

27. The dynamics of continuous cultural traits in social networks

Author

Buechel, Berno, Hellmann, Tim, Pichler, Michael M., Buechel, Berno, Hellmann, Tim, and Pichler, Michael M.

Abstract

We consider an overlapping generations model where continuous cultural traits are transmitted from an adult generation to the children. A weighted social network describes how children are influenced not only by their parents but also by other role models within the society. Parents can invest into the purposeful socialization of their children by strategically displaying a cultural trait (which need not coincide with their true cultural trait). We observe a cultural substitution effect when parents choose their behavior optimally. Based on Nash equilibrium behavior, we then study the dynamics of cultural traits throughout generations. These converge if parent’s influence on their children is large enough compared to the social environment’s influence. Under convergent dynamics, closed subgroups fully assimilate, while heterogeneous traits prevail in the other groups. Speed of convergence is low when parents' incentives to socialize their children to the own trait are high.

28. Under-connected and over-connected networks: the role of externalities in strategic network formation

Author

Buechel, Berno, Hellmann, Tim, Buechel, Berno, and Hellmann, Tim

Abstract

Since the seminal contribution of Jackson and Wolinsky (J Econ Theory 71(1):44–74, 1996) it has been widely acknowledged that the formation of social networks exhibits a general conflict between individual strategic behavior and collective outcome. What has not been studied systematically are the sources of inefficiency. We approach this omission by analyzing the role of positive and negative externalities of link formation. This yields general results that relate situations of positive externalities with stable networks that cannot be “too dense” in a well-defined sense, while situations with negative externalities tend to induce “too dense” networks. Those results are neither restricted to specific assumptions on the agents’ preferences (e.g. homogeneity), nor to a specific notion of stability or efficiency.

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