T
Tilmann D. Märk
Researcher at University of Innsbruck
Publications - 668
Citations - 19726
Tilmann D. Märk is an academic researcher from University of Innsbruck. The author has contributed to research in topics: Ion & Electron ionization. The author has an hindex of 64, co-authored 662 publications receiving 18712 citations. Previous affiliations of Tilmann D. Märk include University of New Hampshire & Claude Bernard University Lyon 1.
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Proton transfer reaction-mass spectrometry: fundamentals, recent advances and applications
Eugen Hartungen,Simone Jürschik,Alfons Jordan,Achim Edtbauer,S. Feil,G. Hanel,H. Seehauser,S. Haidacher,R. Schottkowsky,Lukas Märk,S. Jaksch,Bishu Agarwal,Kurt Becker,Chris A. Mayhew,Philipp Sulzer,Tilmann D. Märk +15 more
TL;DR: Proton transfer reaction-mass spectrometry (PTR-MS) offers many advantages for trace gas analysis, including no sample preparation, real-time analysis, high selectivity and sensitivity, ultra-low detection limits and very short response times.
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Formation of no- following electron attachment to no clusters
Yannan Chu,G. Senn,Štefan Matejčík,Paul Scheier,P. Stampfli,Aleksandar Stamatovic,Eugen Illenberger,Tilmann D. Märk +7 more
TL;DR: In this article, low energy (0 − 1 eV) electron attachment to NO clusters was studied with high-energy resolution (15 meV, FWHM) and the dominant signal is NO − which has not been observed in previous Rydberg electron transfer studies to NO cluster.
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Fission-Track-Alter von Durango-Apatit, Mexiko
TL;DR: In this article, spontaneous and induced fission tracks in apatite were revealed by etching with HNO3 and used for fission track dating, and the fission-track age of specimens known as Durango-Apatite was found to be (36.3±3.5) · 106 a.
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InnFLUX – an open-source code for conventional and disjunct eddy covariance analysis of trace gas measurements: an urban test case
TL;DR: In this paper, the authors describe and test a new versatile software tool for processing eddy covariance and disjunct EDD covariance flux data, which can be applied to a wide range of analytical setups for NMVOC and other trace gas measurements, and is tailored towards the application of noisy data, where lag time corrections become challenging.
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Collisions of slow ions C3Hn+ and C3Dn+ (n = 2-8) with room temperature carbon surfaces: mass spectra of product ions and the ion survival probability.
TL;DR: Collisions of C3H n + ions and some of their per-deuterated analogs with room temperature carbon (HOPG) surfaces (hydrocarbon-covered) were investigated over the incident energy range 13–45 eV in beam scattering experiments.