Christine Damm scite author profile

Crystal growth of MnBi 2 Te 4 has delivered the first experimental corroboration of the 3D antiferromagnetic topological insulator state. Our present results confirm that the synthesis of MnBi 2 Te 4 can be scaled-up and strengthen it as a promising experimental platform for studies of a crossover between magnetic ordering and non-trivial topology. High-quality single crystals of MnBi 2 Te 4 are grown by slow cooling within a narrow range between the melting points of Bi 2 Te 3 (586 °C) and MnBi 2 Te 4 (600 °C). Single crystal X-ray diffraction and electron microscopy reveal ubiquitous antisite defects in both cation sites and, possibly, Mn vacancies. Powders of MnBi 2 Te 4 can be obtained at subsolidus temperatures, and a complementary thermochemical study establishes a limited high-temperature range of phase stability. Nevertheless, quenched powders are stable at room temperature and exhibit long-range antiferromagnetic ordering below 24 K. The expected Mn(II) out-of-plane magnetic state is confirmed by the magnetization, X-ray photoemission, X-ray absorption and linear dichroism data. MnBi 2 Te 4 exhibits a metallic type of resistivity in the range 4.5-300 K. The compound is an n-type conductor that reaches a thermoelectric figure of merit up to ZT = 0.17. Angle-resolved photoemission experiments provide evidence for a surface state forming a gapped Dirac cone.

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Intrinsic Activity of Oxygen Evolution Catalysts Probed at Single CoFe₂O₄ Nanoparticles

Arrassi

Liu

Evers

et al. 2019

J. Am. Chem. Soc.

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Identifying the intrinsic electrocatalytic activity of nanomaterials is challenging, as their characterization usually requires additives and binders whose contributions are difficult to dissect. Herein, we use nano impact electrochemistry as an additive-free method to overcome this problem. Due to the efficient mass transport at individual catalyst nanoparticles, high current densities can be realized. High-resolution bright-field transmission electron microscopy and selected area diffraction studies of the catalyst particles before and after the experiments provide valuable insights in the transformation of the nanomaterials during harsh oxygen evolution reaction (OER) conditions. We demonstrate this for 4 nm sized CoFe 2 O 4 spinel nanoparticles. It is revealed that these particles retain their size and crystal structure even after OER at current densities as high as several kA•m −2 . The steady-state current scales with the particle size distribution and is limited by the diffusion of produced oxygen away from the particle. This versatilely applicable method provides new insights into intrinsic nanocatalyst activities, which is key to the efficient development of improved and precious metal-free catalysts for renewable energy technologies.

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Strong negative nanocatalysis: oxygen reduction and hydrogen evolution at very small (2 nm) gold nanoparticles

et al. 2014

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Nanoparticle Impacts Show High‐Ionic‐Strength Citrate Avoids Aggregation of Silver Nanoparticles

et al. 2013

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BaHfO₃artificial pinning centres in TFA-MOD-derived YBCO and GdBCO thin films

Erbe

Hänisch

Hühne

et al. 2015

Supercond. Sci. Technol.

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Chemical solution deposition (CSD) is a promising way to realize REBa 2 Cu 3 O 7 x (REBCO; RE = rare earth (here Y, Gd))-coated conductors with high performance in applied magnetic fields. However, the preparation process contains numerous parameters which need to be tuned to achieve high-quality films. Therefore, we investigated the growth of REBCO thin films containing nanometre-scale BaHfO 3 (BHO) particles as pinning centres for magnetic flux lines, with emphasis on the influence of crystallization temperature and substrate on the microstructure and superconductivity. Conductivity, microscopy and x-ray investigations show an enhanced performance of BHO nano-composites in comparison to pristine REBCO. Further, those measurements reveal the superiority of GdBCO to YBCO e.g. by inductive critical current densities, J c , at self-field and 77 K. YBCO is outperformed by more than 1 MA cm 2 with J c values of up to 5.0 MA cm 2 for 265 nm thick layers of GdBCO(BHO) on lanthanum aluminate. Transport in-field J c measurements demonstrate high pinning force maxima of around 4 GN m 3 for YBCO(BHO) and GdBCO(BHO). However, the irreversibility fields are appreciably higher for GdBCO. The critical temperature was not significantly reduced upon BHO addition to both YBCO and GdBCO, indicating a low tendency for Hf diffusion into the REBCO matrix. Angular-dependent J c measurements show a reduction of the anisotropy in the same order of magnitude for both REBCO compounds. Theoretical models suggest that more than one sort of pinning centre is active in all CSD films.

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Christine Damm

Chemical Aspects of the Candidate Antiferromagnetic Topological Insulator MnBi₂Te₄

Intrinsic Activity of Oxygen Evolution Catalysts Probed at Single CoFe₂O₄ Nanoparticles

Strong negative nanocatalysis: oxygen reduction and hydrogen evolution at very small (2 nm) gold nanoparticles

Nanoparticle Impacts Show High‐Ionic‐Strength Citrate Avoids Aggregation of Silver Nanoparticles

BaHfO₃artificial pinning centres in TFA-MOD-derived YBCO and GdBCO thin films

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Christine Damm

Chemical Aspects of the Candidate Antiferromagnetic Topological Insulator MnBi2Te4

Intrinsic Activity of Oxygen Evolution Catalysts Probed at Single CoFe2O4 Nanoparticles

Strong negative nanocatalysis: oxygen reduction and hydrogen evolution at very small (2 nm) gold nanoparticles

Nanoparticle Impacts Show High‐Ionic‐Strength Citrate Avoids Aggregation of Silver Nanoparticles

BaHfO3artificial pinning centres in TFA-MOD-derived YBCO and GdBCO thin films

Contact Info

Product

Resources

About

Chemical Aspects of the Candidate Antiferromagnetic Topological Insulator MnBi₂Te₄

Intrinsic Activity of Oxygen Evolution Catalysts Probed at Single CoFe₂O₄ Nanoparticles

BaHfO₃artificial pinning centres in TFA-MOD-derived YBCO and GdBCO thin films