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Mössbauer Spectroscopy [2023]
- 1
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Application of Mössbauer Spectroscopy to Energy Materials
- 33
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Mössbauer Spectral Studies of Iron Phosphate Containing Minerals and Compounds
- 93
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Mössbauer Spectroscopic Investigation of Fe‐Based Silicides
- 113
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Mössbauer Spectroscopy of Catalysts
- 145
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Application of Mössbauer Spectroscopy in Studying Catalysts for <fc>CO</fc> Oxidation and Preferential Oxidation of <fc>CO</fc> in <fc>H <sub>2</sub></fc>
- 171
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Application of <fc><sup>57</sup> Fe</fc> Mössbauer Spectroscopy in Studying <fc>Fe–N–C</fc> Catalysts for Oxygen Reduction Reaction in Proton Exchange Membrane Fuel Cells
- 195
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<fc><sup>197</sup> Au</fc> Mössbauer Spectroscopy of Thiolate‐protected Gold Clusters
- 213
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<fc><sup>197</sup> Au</fc> Mössbauer Spectroscopy of Gold Mixed‐Valence Complexes, Cs <sub>2</sub> [ <fc>Au <sup>I</sup> X <sub>2</sub></fc> ][ <fc>Au <sup>III</sup> Y <sub>4</sub></fc> ](X, Y = Cl, Br, I) and [ <fc>NH <sub>3</sub></fc> ( <fc>CH <sub>2</sub></fc> ) <fc><sub>n</sub> NH <sub>3</sub></fc> ] <sub>2</sub> [( <fc>Au <sup>I</sup> I <sub>2</sub></fc> )( <fc>Au <sup>III</sup> I <sub>4</sub></fc> ) ( <fc>I <sub>3</sub></fc> ) <sub>2</sub> ] (n = 7, 8)
- 251
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Temperature‐ and Photo‐Induced Spin‐Crossover in Molecule‐Based Magnets
- 271
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Developing a Methodology to Obtain New Photoswitchable Fe( <fc>II</fc> ) Spin Crossover Complexes
- 291
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<sup>57</sup> Fe Mössbauer Spectroscopy as a Prime Tool to Explore a New Family of Colorimetric Sensors
- 311
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Index
- i
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Front Matter