M
Matthias Ernst
Researcher at ETH Zurich
Publications - 162
Citations - 6667
Matthias Ernst is an academic researcher from ETH Zurich. The author has contributed to research in topics: Solid-state nuclear magnetic resonance & Homonuclear molecule. The author has an hindex of 45, co-authored 149 publications receiving 5888 citations. Previous affiliations of Matthias Ernst include Radboud University Nijmegen & National Institute of Chemical Physics and Biophysics.
Papers
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Journal ArticleDOI
Correlation of structural elements and infectivity of the HET-s prion.
Christiane Ritter,Marie-Lise Maddelein,Ansgar B. Siemer,Thorsten Lührs,Matthias Ernst,Beat H. Meier,Sven J. Saupe,Roland Riek +7 more
TL;DR: It is shown that the structure-based mutagenesis approach shows that this conformation is the functional and infectious entity of the HET-s prion, and correlate distinct structural elements with prion infectivity.
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De Novo 3D Structure Determination from Sub-milligram Protein Samples by Solid-State 100 kHz MAS NMR Spectroscopy
Vipin Agarwal,Susanne Penzel,Kathrin Szekely,Riccardo Cadalbert,Emilie Testori,Andres Oss,Jaan Past,Ago Samoson,Matthias Ernst,Anja Böckmann,Beat H. Meier +10 more
TL;DR: It is shown that a new NMR probe, pushing magic-angle sample rotation to frequencies around 100 kHz, makes it possible to narrow the proton resonance lines sufficiently to provide the necessary sensitivity and spectral resolution for efficient and sensitive proton detection.
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Simple and efficient decoupling in magic-angle spinning solid-state NMR: the XiX scheme
TL;DR: In this paper, a simple heteronuclear decoupling scheme for spin-1/2 nuclei under magic-angle sample spinning (MAS) was proposed, called XiX, which consists of windowless rf irradiation with a repeat of two pulses of equal width, phase-shifted by 180°.
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Adiabatic dipolar recoupling in solid-state NMR: the DREAM scheme.
TL;DR: A theoretical treatment of the DREAM adiabatic homonuclear recoupling experiment is given using Floquet theory and an effective Hamiltonian is derived analytically and the time evolution of the density operator in the adiABatic limit is described.
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Complex Hydrides with (BH4)− and (NH2)− Anions as New Lithium Fast-Ion Conductors
Motoaki Matsuo,Arndt Remhof,Pascal Martelli,Riccarda Caputo,Matthias Ernst,Yohei Miura,Toyoto Sato,Hiroyuki Oguchi,Hideki Maekawa,Hitoshi Takamura,Andreas Borgschulte,Andreas Züttel,Shin Ichi Orimo +12 more
TL;DR: This study demonstrates an important direction in which to search for higher ion conductivity in complex hydrides but also greatly increases the material variations of solid electrolytes.