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Subject: Chemistry Study Type: experimental

11 to 19 of 19 Results

Simulation and experimental files, datasets and equipment setup for "Nonlinear frequency response analysis of oxygen reduction reaction on silver in strong alkaline media" Mar 13, 2023 Zivkovic, A. Luka, 2023, "Simulation and experimental files, datasets and equipment setup for "Nonlinear frequency response analysis of oxygen reduction reaction on silver in strong alkaline media"", https://doi.org/10.17617/3.1GTTFE, Edmond, V1 This batch contains simulation and experimental datasets, along with the simulation files and generated publication figures. The experimental files (equipment setup, datasets, runs) have "experimental" in their description. Each file title corresponds to the published figure.
FUS Air-Buffer Figure Data Mar 3, 2023 Parekh, Sapun, 2023, "FUS Air-Buffer Figure Data", https://doi.org/10.17617/3.PUBRKR, Edmond, V2
Understanding the evolution of lithium dendrites at the Li6.25Al0.25La3Zr2O12 grain boundaries via operando microscopy techniques Mar 1, 2023 Berger, Ruediger, 2023, "Understanding the evolution of lithium dendrites at the Li6.25Al0.25La3Zr2O12 grain boundaries via operando microscopy techniques", https://doi.org/10.17617/3.GOCS2D, Edmond, V1 We provide the data for the measurements of the work "Understanding the evolution of lithium dendrites at the Li6.25Al0.25La3Zr2O12 grain boundaries via operando microscopy techniques" published in Nature Communications (https://doi.org/10.1038/s41467-023-36792-7).
Chemical modification by peroxynitrite enhances TLR4 activation of the grass pollen allergen Phl p 5 Oct 10, 2022 Reinmuth-Selzle, Kathrin, 2022, "Chemical modification by peroxynitrite enhances TLR4 activation of the grass pollen allergen Phl p 5", https://doi.org/10.17617/3.98W1BB, Edmond, V2 In this study, we investigate how the physiological reagent peroxynitrite (ONOO– ) can change TLR4 activation of the grass pollen allergen Phl p 5 through protein nitration and the formation of protein dimers and higher oligomers.
Data for: Programmable synthetic cell networks regulated by tuneable reaction rates Jun 14, 2022 Tang, Dora; Gao, Mengfei; Fracasso, Giorgio; Zambrano,Adrian, 2022, "Data for: Programmable synthetic cell networks regulated by tuneable reaction rates", https://doi.org/10.17617/3.6FGVUS, Edmond, V1
High-power relaxation dispersion NMR data set at different ligand concentrations: a litmus test for classification of recognition mechanism May 29, 2022 Chakrabarti, Kalyan S; Pratihar, Supriya; Giller, Karin; Overkamp, Kerstin; Lee, Ko On; Ryu, Kyoung-Seok; Becker, Stefan; Lee, Donghan; Griesinger, Christian, 2022, "High-power relaxation dispersion NMR data set at different ligand concentrations: a litmus test for classification of recognition mechanism", https://doi.org/10.17617/3.AVKYZC, Edmond, V1 High-power relaxation dispersion of ubiquitin (with SH3c titrated in) The high-power relaxation dispersion experiments were measured using the 15N based constant time E-CPMG experiment for quantifying kinetics of exchange processes in ubiquitin happening on a micro-to-millisecond...
Digital catalysis DoE Apr 28, 2022 Kunkel, Christian, 2022, "Digital catalysis DoE", https://doi.org/10.17617/3.OPCILR, Edmond, V2 AC Archive Id: D53301 gen_pid: 59617764-138b-491d-9696-16376aafc9d4 URL: https://ac.archive.fhi.mpg.de/D53301
Digital catalysis DoE, first generation, synthesis Apr 11, 2022 Kunkel, Christian, 2022, "Digital catalysis DoE, first generation, synthesis", https://doi.org/10.17617/3.GESYJW, Edmond, V2 AC Archive Id: D52750 gen_pid: catlab-wp4-doe-0001 URL: https://ac.archive.fhi.mpg.de/D52750
Data to "Mesocrystalline architecture in hyaline foraminifer shells indicates a non-classical crystallization pathway" Mar 22, 2022 Arns, Anthea I.; Evans, D.; Schiebel, R.; Fink, L.; Mezger, M.; Alig, E.; Linckens, J.; Jochum, K. P.; Schmidt, M. U.; Jantschke, A.; Haug, G. H., 2022, "Data to "Mesocrystalline architecture in hyaline foraminifer shells indicates a non-classical crystallization pathway"", https://doi.org/10.17617/3.D7HN3I, Edmond, V1 This file provides raw and processed XRD, PDF, LA-ICP-MS and EBSD data from foraminifer samples.

Simulation and experimental files, datasets and equipment setup for "Nonlinear frequency response analysis of oxygen reduction reaction on silver in strong alkaline media"

Mar 13, 2023

Zivkovic, A. Luka, 2023, "Simulation and experimental files, datasets and equipment setup for "Nonlinear frequency response analysis of oxygen reduction reaction on silver in strong alkaline media"", https://doi.org/10.17617/3.1GTTFE, Edmond, V1

This batch contains simulation and experimental datasets, along with the simulation files and generated publication figures. The experimental files (equipment setup, datasets, runs) have "experimental" in their description. Each file title corresponds to the published figure.

FUS Air-Buffer Figure Data

Mar 3, 2023

Parekh, Sapun, 2023, "FUS Air-Buffer Figure Data", https://doi.org/10.17617/3.PUBRKR, Edmond, V2

Understanding the evolution of lithium dendrites at the Li6.25Al0.25La3Zr2O12 grain boundaries via operando microscopy techniques

Mar 1, 2023

Berger, Ruediger, 2023, "Understanding the evolution of lithium dendrites at the Li6.25Al0.25La3Zr2O12 grain boundaries via operando microscopy techniques", https://doi.org/10.17617/3.GOCS2D, Edmond, V1

We provide the data for the measurements of the work "Understanding the evolution of lithium dendrites at the Li6.25Al0.25La3Zr2O12 grain boundaries via operando microscopy techniques" published in Nature Communications (https://doi.org/10.1038/s41467-023-36792-7).

Chemical modification by peroxynitrite enhances TLR4 activation of the grass pollen allergen Phl p 5

Oct 10, 2022

Reinmuth-Selzle, Kathrin, 2022, "Chemical modification by peroxynitrite enhances TLR4 activation of the grass pollen allergen Phl p 5", https://doi.org/10.17617/3.98W1BB, Edmond, V2

In this study, we investigate how the physiological reagent peroxynitrite (ONOO– ) can change TLR4 activation of the grass pollen allergen Phl p 5 through protein nitration and the formation of protein dimers and higher oligomers.

Data for: Programmable synthetic cell networks regulated by tuneable reaction rates

Jun 14, 2022

Tang, Dora; Gao, Mengfei; Fracasso, Giorgio; Zambrano,Adrian, 2022, "Data for: Programmable synthetic cell networks regulated by tuneable reaction rates", https://doi.org/10.17617/3.6FGVUS, Edmond, V1

High-power relaxation dispersion NMR data set at different ligand concentrations: a litmus test for classification of recognition mechanism

May 29, 2022

Chakrabarti, Kalyan S; Pratihar, Supriya; Giller, Karin; Overkamp, Kerstin; Lee, Ko On; Ryu, Kyoung-Seok; Becker, Stefan; Lee, Donghan; Griesinger, Christian, 2022, "High-power relaxation dispersion NMR data set at different ligand concentrations: a litmus test for classification of recognition mechanism", https://doi.org/10.17617/3.AVKYZC, Edmond, V1

High-power relaxation dispersion of ubiquitin (with SH3c titrated in) The high-power relaxation dispersion experiments were measured using the 15N based constant time E-CPMG experiment for quantifying kinetics of exchange processes in ubiquitin happening on a micro-to-millisecond...

Digital catalysis DoE

Apr 28, 2022

Kunkel, Christian, 2022, "Digital catalysis DoE", https://doi.org/10.17617/3.OPCILR, Edmond, V2

AC Archive Id: D53301 gen_pid: 59617764-138b-491d-9696-16376aafc9d4 URL: https://ac.archive.fhi.mpg.de/D53301

Digital catalysis DoE, first generation, synthesis

Apr 11, 2022

Kunkel, Christian, 2022, "Digital catalysis DoE, first generation, synthesis", https://doi.org/10.17617/3.GESYJW, Edmond, V2

AC Archive Id: D52750 gen_pid: catlab-wp4-doe-0001 URL: https://ac.archive.fhi.mpg.de/D52750

Data to "Mesocrystalline architecture in hyaline foraminifer shells indicates a non-classical crystallization pathway"

Mar 22, 2022

Arns, Anthea I.; Evans, D.; Schiebel, R.; Fink, L.; Mezger, M.; Alig, E.; Linckens, J.; Jochum, K. P.; Schmidt, M. U.; Jantschke, A.; Haug, G. H., 2022, "Data to "Mesocrystalline architecture in hyaline foraminifer shells indicates a non-classical crystallization pathway"", https://doi.org/10.17617/3.D7HN3I, Edmond, V1

This file provides raw and processed XRD, PDF, LA-ICP-MS and EBSD data from foraminifer samples.

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