Relevance of Solidification Kinetics for Enhanced Thermoelectric Performance in Al-Doped Higher Manganese Silicides

Chauhan, Nagendra S.; Ono, Ichiro; Hayashi, Kei; Miyazaki, Yasumitsu

doi:10.1021/acsami.2c16107

Cited by 7 publications

(16 citation statements)

References 62 publications

(100 reference statements)

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“…For comparison with the previously reported single crystals of MnSi γ , the attained maximum zT is displayed in Fig. 11, wherein the synthesized partially co-substituted (Mn 1−2 x V x Fe x )Si 1.74 crystals, outperformed previously reported HMS single crystals synthesized from chemical vapor deposition (CVD), 44 or partially substituted V, 22 Al, 45 and Ge 35 melt grown by Bridgman methods, which emphasizes a remarkable prospect for compensated co-doping in HMS crystals to attain higher zT , comparable to its polycrystal counterpart.…”

Section: Discussionmentioning

confidence: 83%

Lattice anharmonicity in charge compensated higher manganese silicide single crystals

Chauhan¹,

Ono²,

Miyazaki³

2023

J. Mater. Chem. A

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Section: Discussionmentioning

confidence: 83%

Lattice anharmonicity in charge compensated higher manganese silicide single crystals

Chauhan¹,

Ono²,

Miyazaki³

2023

J. Mater. Chem. A

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“…(a) Temperature-dependent thermoelectric figure of merit ( zT ) and (b) comparison of maximum zT attained for synthesis with previously reported B-, Ge-, , and Al-doped higher manganese silicide.…”

Section: Discussionmentioning

confidence: 99%

“…For discordant dopants, different phases may emerge upon solidification, introducing defects, inhomogeneity, and altered crystal structure. To enhance substitutability, rapid consolidation methods, particularly melt spinning, have proven effective in achieving a supersaturated solid solution of HMS, as demonstrated in the case of Al- and Re , -substituted HMS. Remarkably, the zT was significantly enhanced to 0.75 at 873 K in Al-doped HMS polycrystals prepared by melt-spinning .…”

Section: Introductionmentioning

confidence: 99%

“…To enhance substitutability, rapid consolidation methods, particularly melt spinning, have proven effective in achieving a supersaturated solid solution of HMS, as demonstrated in the case of Al- and Re , -substituted HMS. Remarkably, the zT was significantly enhanced to 0.75 at 873 K in Al-doped HMS polycrystals prepared by melt-spinning . Within the realm of doping at the silicon (Si) site in HMS, the inclusion of germanium (Ge) and boron (B) offers a novel prospect among the available alternatives.…”

Section: Introductionmentioning

confidence: 99%

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Discordant Doping and Labile Silicon Atoms in Higher Manganese Silicide

Chauhan,

Miyazaki

2023

ACS Appl. Energy Mater.

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Discordant doping is broadly connoted to atomic substitutions wherein even a marginal amount of incoming atom is unable to adopt the local geometry of the site it occupies and gets inhomogeneously distributed within the crystal. Herein, we report the implication of partial B or Ge doping on the labile, i.e., easily altered, Si atoms of higher manganese silicide (MnSi γ ), prepared by spark plasma sintering of melt-spun ribbons. The synthesized Mn(Si 1−x D x ) γ alloys (where D = B or Ge are dopants) having a Nowotny chimney ladder (NCL) phase, showed a close relation of their structural stability and electrical transport properties to the 14-electron rule. Following the (3 + 1) dimensional superspace approach, the modulation vector component (γ) was accurately determined and correlated with the electrical transport and valence electron count (VEC) of the synthesized samples. Beyond the solubility limit of B/Ge onto the labile [Si] subsystem, a homogeneous formation of Si-rich domains and (Si, Ge) solid solution within the MnSi γ matrix was distinctively observed for B and Ge doping, respectively, which modifies the thermal and electrical transport properties. Comparatively, Ge doping was more favorable than B doping on the Si sites of MnSi γ , wherein the peak thermoelectric figure of merit (zT) ∼ 0.67 (±0.1) at 823 K was obtained for Mn(Si 0.99 Ge 0.01 ) γ , corresponding to ∼50% enhancement, when compared to the Ge-doped HMS single-crystal counterparts.

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“…Moreover, limited control of various synthesis methodologies and the ineffectiveness of nanoengineering approaches in deterring the inevitable segregation of MnSi striation, further skewed efforts aiming toward zT optimization. − Thus, a marginal improvement in power factors and complex microstructural control had long limited the peak zT < 0.6 despite approaching the minimum κ L ∼ 1.6 W m –1 K –1 at 723 K in re-substituted HMS . Although maximum zT has been enhanced by nonequilibrium methods such as melt spinning, − the prospects of a single crystal have remained practically ignored owing to its lower zT ∼ 0.2 at 800 K and the anisotropic segregation of metallic MnSi as a secondary phase during crystal growth. − Single-crystal HMS specimen aligned perpendicular to the c -axis (i.e., along the cleavage ab -plane) exhibited high electrical and thermal conductivity, while maximum S was measured along the c -axis direction . The anisotropic transport properties thus require careful consideration, particularly in single crystal which can be exploited to attain higher zT in HMS.…”

Section: Introductionmentioning

confidence: 99%

Charge-Compensated (V, Ru) Co-Substitution in Higher Manganese Silicide Single Crystals for Enhanced Thermoelectric and Mechanical Performance

Chauhan

Ono

Hayashi

et al. 2023

ACS Appl. Energy Mater.

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Higher manganese silicides (HMSs) represented as MnSiγ are generically Nowotny chimney–ladder (NCL) compounds that obey the 14-electron rule due to which their stability and electrical properties are intimately related to the valence electron count (VEC) per number of transition metal atoms. However, owing to the incommensurate composite crystal structure of HMS, most doping/substitution approaches aimed at carrier concentration optimization had remained skewed, leading to limited control over its VEC. In this study, we propose the compensated co-substitution approach for the optimization of thermoelectric properties in NCL phases and demonstrate its efficacy by the co-substitution of the [Mn] subsystem with aliovalent V (p-type) and Ru (n-type) dopants in partially substituted (Mn1–x–y V x Ru y )Siγ single crystals melt grown by the Bridgman method. The modulation vector component (γ) was accurately determined by the Le Bail analysis of the diffraction pattern using a (3 + 1) dimensional superspace approach and is correlated with the electrical transport and VEC of the synthesized samples. A remarkable enhancement in thermoelectric and mechanical performance was attained for the HMS single crystals upon (V, Ru) co-substitution in the direction perpendicular to the c-axis, i.e., along the cleavage plane. The charge compensation and synergistic reduction in lattice thermal conductivity thus result in a peak thermoelectric figure of merit (zT) of ∼0.6 (±0.1) at 823 K, which corresponds to ∼250% enhancement when compared to the pristine HMS single crystal.

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Relevance of Solidification Kinetics for Enhanced Thermoelectric Performance in Al-Doped Higher Manganese Silicides

Cited by 7 publications

References 62 publications

Lattice anharmonicity in charge compensated higher manganese silicide single crystals

Lattice anharmonicity in charge compensated higher manganese silicide single crystals

Discordant Doping and Labile Silicon Atoms in Higher Manganese Silicide

Charge-Compensated (V, Ru) Co-Substitution in Higher Manganese Silicide Single Crystals for Enhanced Thermoelectric and Mechanical Performance

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