Silver(I)-(poly)chalcogenide Halides – Ion and Electron High Potentials

Nilges, Tom; Bawohl, Melanie; Osters, Oliver; Lange, Stefan; Messel, Julia

doi:10.1524/zpch.2010.0032

Cited by 6 publications

(7 citation statements)

References 127 publications

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“…A modulation of the electronic structure can be achieved based on these low-dimensional interactions which do significantly influence the thermopower and the thermal diffusivity of these materials [12,18]. A strong influence on the electronic structure and the thermopower originating from a Peierls-distorted situation has also been postulated for lead chalcogenides (PbQ with Q = S, Se, Te) under high-pressure conditions [19].…”

Section: Resultsmentioning

confidence: 99%

The Influence of d¹⁰-d¹⁰ Interactions in Ag₅Te_1.8Se_0.2Cl and Ag₅Te_1.6Se_0.4Cl on Structural and Thermoelectric Properties

Eckstein

Chevalier

Nilges

2011

Zeitschrift Für Naturforschung B

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Measurements of the thermopower and of the thermal diffusivity and a detailed analysis of the structural features by temperature-dependent single-crystal structure determinations of silver ionconducting Ag 5 Te 1.8 Se 0.2 Cl and Ag 5 Te 1.6 Se 0.4 Cl were performed to investigate the interaction of silver ions in their disordered state. The substituted phases show an order/disorder phase transition at 273.3(2) and 302.5(2) K, respectively, accompanied by a drop of the thermal diffusivity and a minimum plateau of the thermopower right after the transition. Silver ions are arranged in welldefined strands along the crystallographic c axis characterized by a set of not fully occupied sites.

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Section: Resultsmentioning

confidence: 99%

The Influence of d¹⁰-d¹⁰ Interactions in Ag₅Te_1.8Se_0.2Cl and Ag₅Te_1.6Se_0.4Cl on Structural and Thermoelectric Properties

Eckstein

Chevalier

Nilges

2011

Zeitschrift Für Naturforschung B

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“…Besides their application in data storage as phase-change materials and resistivity switching memories, − they play a certain role in solar cells and thermoelectrics, where improvement of the efficiency is still a challenging task . Ternary coinage metal (poly)chalcogenide halides are a class of mixed conductors with high potential for application as thermoelectric energy conversion materials. , They show high cation mobility and, because of their ternary character, offer the possibility for multiple ion substitution. Fine tuning of the electronic structure, which is an important parameter for optimization of the thermoelectric and electronic properties, is possible .…”

Section: Introductionmentioning

confidence: 99%

“…Ternary coinage metal (poly)chalcogenide halides are a class of mixed conductors with high potential for application as thermoelectric energy conversion materials. , They show high cation mobility and, because of their ternary character, offer the possibility for multiple ion substitution. Fine tuning of the electronic structure, which is an important parameter for optimization of the thermoelectric and electronic properties, is possible . The named class of compounds summarizes the completely ionic silver(I) chalcogenide halides on the quasi binary section Ag 2 Q–AgX with Q = S, Se, and Te and X = Cl, Br, and I and the coinage metal polychalcogenide halides that contain both isolated chalcogenide anions and predominantly covalently bonded polyanionic chalcogene units.…”

Section: Introductionmentioning

confidence: 99%

“…5 Ternary coinage metal (poly)chalcogenide halides are a class of mixed conductors with high potential for application as thermoelectric energy conversion materials. 6,7 They show high cation mobility and, because of their ternary character, offer the possibility for multiple ion substitution. Fine tuning of the electronic structure, which is an important parameter for optimization of the thermoelectric and electronic properties, is possible.…”

Section: ■ Introductionmentioning

confidence: 99%

“…Fine tuning of the electronic structure, which is an important parameter for optimization of the thermoelectric and electronic properties, is possible. 7 The named class of compounds summarizes the completely ionic silver(I) chalcogenide halides on the quasi binary section Ag 2 Q−AgX with Q = S, Se, and Te and X = Cl, Br, and I and the coinage metal polychalcogenide halides that contain both isolated chalcogenide anions and predominantly covalently bonded polyanionic chalcogene units. Representatives of the first group are Ag 5 Te 2 X with X = Cl and Br 8−13 and Ag 19 Q 6 X 7 with Q = S, Se, and Te and X = Br and I.…”

Section: ■ Introductionmentioning

confidence: 99%

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Ion Dynamics and Polymorphism in Cu₂₀Te₁₁Cl₃

Vogel

Nilges

2021

Inorg. Chem.

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Coinage metal polychalcogenide halides are an intriguing class of materials, and many representatives are solid ion conductors and thermoelectric materials. The materials show high ion mobility, polymorphism, and various attractive interactions in the cation and anion substructures. Especially the latter feature leads to complex electronic structures and the occurrence of charge-density waves (CDWs) and, as a result, the first p–n–p switching materials. During our systematic investigations for new p–n–n switching materials in the Cu–Te–Cl phase diagram, we were able to isolate polymorphic Cu20Te11Cl3, which we characterized structurally and with regard to its electronic and thermoelectric properties. Cu20Te11Cl3 is trimorphic, with phase transitions occurring at 288 and 450 K. The crystal structures of two polymorphs, the α phase, stable above 450 K, and the β polymorph (288–450 K), are reported, and the complex structure chemistry featuring twinning upon a phase change is illustrated. We identified a dynamic cation substructure and a static anion substructure for all polymorphs, characterizing Cu20Te11Cl3 as a solid Cu-ion conductor. Temperature-dependent measurements of the Seebeck coefficient and total conductivity were performed and substantiated a linear response of the Seebeck coefficient, a lack of CDWs, and no p–n–p switching. Reasons for a lack of CDWs in Cu20Te11Cl3 are discussed and illustrated in the context of existing p–n–p switching materials.

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Application Potential of Pnp‐Switching Semiconductors

Deng,

Hoffmann,

Nilges

2024

Zeitschrift anorg allge chemie

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Materials with tunable properties are often in the focus of materials science. Up to this point four different semiconducting materials and substitution variants have been found that are capable of switching between p‐ and n‐type conduction by a simple change in temperature. In this review, we illustrate previous findings of these pnp‐switching materials and current developments in functional implementations. While in the past decade, the scientific focus was primarily on discovering new materials that possess this intriguing switching effect, recently the first devices were successfully constructed and tested. Using the compounds, Ag18Cu3Te11Cl3 and AgCuS, that exhibit the pnp‐switching behaviour at approximately room temperature and 364 K, respectively, two single‐material diodes were developed and characterized. The approach for inducing this effect is denoted and the fundamental principles for realizing these devices are summarized.

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Silver(I)-(poly)chalcogenide Halides – Ion and Electron High Potentials

Cited by 6 publications

References 127 publications

The Influence of d¹⁰-d¹⁰ Interactions in Ag₅Te_1.8Se_0.2Cl and Ag₅Te_1.6Se_0.4Cl on Structural and Thermoelectric Properties

The Influence of d¹⁰-d¹⁰ Interactions in Ag₅Te_1.8Se_0.2Cl and Ag₅Te_1.6Se_0.4Cl on Structural and Thermoelectric Properties

Ion Dynamics and Polymorphism in Cu₂₀Te₁₁Cl₃

Application Potential of Pnp‐Switching Semiconductors

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Silver(I)-(poly)chalcogenide Halides – Ion and Electron High Potentials

Cited by 6 publications

References 127 publications

The Influence of d10-d10 Interactions in Ag5Te1.8Se0.2Cl and Ag5Te1.6Se0.4Cl on Structural and Thermoelectric Properties

The Influence of d10-d10 Interactions in Ag5Te1.8Se0.2Cl and Ag5Te1.6Se0.4Cl on Structural and Thermoelectric Properties

Ion Dynamics and Polymorphism in Cu20Te11Cl3

Application Potential of Pnp‐Switching Semiconductors

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The Influence of d¹⁰-d¹⁰ Interactions in Ag₅Te_1.8Se_0.2Cl and Ag₅Te_1.6Se_0.4Cl on Structural and Thermoelectric Properties

The Influence of d¹⁰-d¹⁰ Interactions in Ag₅Te_1.8Se_0.2Cl and Ag₅Te_1.6Se_0.4Cl on Structural and Thermoelectric Properties

Ion Dynamics and Polymorphism in Cu₂₀Te₁₁Cl₃