2 article(s) from Mülhaupt, Rolf
- Full Research Paper
- Published 15 Apr 2021
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Figure 1: P-XRD pattern of Ni@rGO obtained from a 0.5 wt % dispersion of Ni(COD)2 in [BMIm][NTf2] (space grou...
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Figure 2: TEM images of Ni@rGO obtained from a 0.5 wt % dispersion of Ni(COD)2 in [BMIm][NTf2]. Particle size...
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Figure 3: Left: P-XRD pattern of WO3 powder calcined at 600 °C for 2 h. (space group of WO3: P21/n). Right: S...
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Figure 4: Time dependence of the sensor resistance values of the 0.35 wt % Ni@rGO/WO3 sample under exposure t...
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Figure 5: Left: time dependence of the sensor resistance values of the 0.35 wt % Ni@rGO/WO3 samples (green) u...
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Figure 6: Time dependence of the sensor resistance values (left) and sensor response (right) of 1.00 wt % Ni@...
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Figure 7: Left: magnetization as a function of temperature for the Ni@rGO composite in argon atmosphere. Righ...
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- Full Research Paper
- Published 22 Nov 2017
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Scheme 1: Synthesis scheme of MFx@TRGO from [M(AMD)n] and [Eu(dpm)3] by microwave (MW)-assisted thermal decom...
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Figure 1: Example PXRD of 0.5 wt % PrF3@TRGO-SH in [BMIm][BF4] synthesized from [Pr(AMD)3]. PrF3 reference re...
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Figure 2: TEM images of PrF3@TRGO-400 dispersions from [Pr(AMD)3] in [BMIm][BF4].
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Figure 3: XPS of PrF3@TRGO-400 dispersions from [Pr(AMD)3] in [BMIm][BF4].
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Figure 4: The electrochemical performance of FeF2@TRGO-400 as cathode material for lithium-ion batteries. (a)...
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