Tyler J Slade
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Explore the profile of Tyler J Slade including associated specialties, affiliations and a list of published articles.
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13
Citations
73
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Recent Articles
1.
Riberolles S, Slade T, Han T, Li B, Abernathy D, Canfield P, et al.
Nat Commun
. 2024 Feb;
15(1):1592.
PMID: 38383472
Magnetic kagome metals are a promising platform to develop unique quantum transport and optical phenomena caused by the interplay between topological electronic bands, strong correlations, and magnetic order. This interplay...
2.
Huyan S, Ryan D, Slade T, Lavina B, Jose G, Wang H, et al.
Proc Natl Acad Sci U S A
. 2023 Dec;
120(52):e2310779120.
PMID: 38113259
We present a comprehensive study of the inhomogeneous mixed-valence compound, EuPdS, by electrical transport, X-ray diffraction, time-domain Eu synchrotron Mössbauer spectroscopy, and X-ray absorption spectroscopy measurements under high pressure. Electrical...
3.
Cappai A, Melis C, Marongiu D, Quochi F, Saba M, Congiu F, et al.
Adv Sci (Weinh)
. 2023 Dec;
11(9):e2305861.
PMID: 38111327
Anomalous thermal transport of Cs NaYbCl double-halide perovskite above room temperature is reported and rationalized. Calculations of phonon dispersion relations and scattering rates up to the fourth order in lattice...
4.
Riberolles S, Slade T, Dally R, Sarte P, Li B, Han T, et al.
Nat Commun
. 2023 May;
14(1):2658.
PMID: 37160929
Ferromagnetic (FM) order in a two-dimensional kagome layer is predicted to generate a topological Chern insulator without an applied magnetic field. The Chern gap is largest when spin moments point...
5.
Luo Z, Cai S, Hao S, Bailey T, Xie H, Slade T, et al.
J Am Chem Soc
. 2022 Apr;
144(16):7402-7413.
PMID: 35420804
Converting waste heat into useful electricity using solid-state thermoelectrics has a potential for enormous global energy savings. Lead chalcogenides are among the most prominent thermoelectric materials, whose performance decreases with...
6.
Slade T, Gvozdetskyi V, Wilde J, Kreyssig A, Gati E, Wang L, et al.
Inorg Chem
. 2021 Dec;
60(24):19345-19355.
PMID: 34889600
Canfieldite, AgSnS, is a semiconducting mineral notable for its high ionic conductivity, photosensitivity, and low thermal conductivity. We report the solution growth of large single crystals of AgSnS of mass...
7.
Zheng Y, Slade T, Hu L, Yi Tan X, Luo Y, Luo Z, et al.
Chem Soc Rev
. 2021 Jun;
50(16):9022-9054.
PMID: 34137396
Thermoelectric energy conversion is an all solid-state technology that relies on exceptional semiconductor materials that are generally optimized through sophisticated strategies involving the engineering of defects in their structure. In...
8.
Xie H, Hao S, Bailey T, Cai S, Zhang Y, Slade T, et al.
J Am Chem Soc
. 2021 Apr;
143(15):5978-5989.
PMID: 33847500
Owing to the diversity of composition and excellent transport properties, the ternary I-III-VI type diamond-like chalcopyrite compounds are attractive functional semiconductors, including as thermoelectric materials. In this family, CuInTe and...
9.
Luo Y, Hao S, Cai S, Slade T, Luo Z, Dravid V, et al.
J Am Chem Soc
. 2020 Aug;
142(35):15187-15198.
PMID: 32786784
We investigate the structural and physical properties of the AgSnSbSe system with = 1-20 (i.e., SnSe matrix and ∼5-50% AgSbSe) from atomic, nano, and macro length scales. We find the...
10.
Slade T, Pal K, Grovogui J, Bailey T, Male J, Khoury J, et al.
J Am Chem Soc
. 2020 Jul;
142(28):12524-12535.
PMID: 32628474
Defect chemistry is critical to designing high performance thermoelectric materials. In SnTe, the naturally large density of cation vacancies results in excessive hole doping and frustrates the ability to control...