J
Johannes V. Barth
Researcher at Technische Universität München
Publications - 336
Citations - 24303
Johannes V. Barth is an academic researcher from Technische Universität München. The author has contributed to research in topics: Scanning tunneling microscope & Supramolecular chemistry. The author has an hindex of 75, co-authored 316 publications receiving 22525 citations. Previous affiliations of Johannes V. Barth include Fritz Haber Institute of the Max Planck Society & Max Planck Society.
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Engineering atomic and molecular nanostructures at surfaces
TL;DR: This work presents an autonomous ordering and assembly of atoms and molecules on atomically well-defined surfaces that combines ease of fabrication with exquisite control over the shape, composition and mesoscale organization of the surface structures formed.
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Scanning tunneling microscopy observations on the reconstructed Au(111) surface: Atomic structure, long-range superstructure, rotational domains, and surface defects
TL;DR: Spectroscopy and spin-Polarized STM Reference LNS-ARTICLE-1990-002 provide new insights into the determinants of spin- polarization in the Higgs boson.
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Molecular architectonic on metal surfaces.
TL;DR: This review delineates the principles of noncovalent synthesis on metal substrates under ultrahigh vacuum conditions and briefly assesses the pertaining terminology-self-assembly, self-organization, and self-organized growth.
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Exploration of pyrazine-embedded antiaromatic polycyclic hydrocarbons generated by solution and on-surface azomethine ylide homocoupling
Xiao-Ye Wang,Marcus Richter,Yuanqin He,Jonas Björk,Alexander Riss,Raju Rajesh,Manuela Garnica,Felix Hennersdorf,Jan J. Weigand,Akimitsu Narita,Reinhard Berger,Xinliang Feng,Willi Auwärter,Johannes V. Barth,Carlos-Andres Palma,Klaus Müllen +15 more
TL;DR: In this paper, azomethine ylide homocoupling is used to insert an antiaromatic pyrazine ring into the core of a nanographene, and characterize the molecule's unique electronic character.
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Steering molecular organization and host-guest interactions using two-dimensional nanoporous coordination systems.
Sebastian Stepanow,Magalí Lingenfelder,Alexandre Dmitriev,Hannes Spillmann,Erik Delvigne,Nian Lin,Xiaobin Deng,Chengzhi Cai,Johannes V. Barth,Johannes V. Barth,Klaus Kern,Klaus Kern +11 more
TL;DR: This work demonstrates the fabrication of surface-supported MOCNs comprising tailored pore sizes and chemical functionality by the modular assembly of polytopic organic carboxylate linker molecules and iron atoms on a Cu(100) surface under ultra-high-vacuum conditions.