Kimo Pressler scite author profile

We introduce a general surface passivation mechanism for cesium lead halide perovskite materials (CsPbX 3 , X = Cl, Br, I) that is supported by a combined experimental and theoretical study of the nanocrystal surface chemistry. A variety of spectroscopic methods are employed together with ab initio calculations to identify surface halide vacancies as the predominant source of charge trapping. The number of surface traps per nanocrystal is quantified by 1 H NMR spectroscopy, and that number is consistent with a simple trapping model in which surface halide vacancies create deleterious under-coordinated lead atoms. These halide vacancies exhibit trapping behavior that differs between CsPbCl 3 , CsPbBr 3 , and CsPbI 3. Ab initio calculations suggest that introduction of anionic X-type ligands can produce trap-free bandgaps by altering the energetics of lead-based defect levels. General rules for selecting effective passivating ligand pairs are introduced by considering established principles of coordination chemistry. Introducing softer, anionic, X-type Lewis bases that target under-coordinated lead atoms results in absolute quantum yields approaching unity and monoexponential luminescence decay kinetics, thereby indicating full trap passivation. This work provides a systematic framework for preparing highly luminescent CsPbX 3 nanocrystals with variable compositions and dimensionalities, thereby improving fundamental understanding of these materials and informing future synthetic and post-synthetic efforts towards trap-free CsPbX 3 nanocrystals.

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Ferromagnetism and Spin-Polarized Luminescence in Lead-Free CsEuCl₃ Perovskite Nanocrystals and Thin Films

Walsh

Pressler

Crane

et al. 2022

ACS Nano

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The emergence of next-generation spintronic and spin-photonic technologies will be aided by the development of materials showing strongly coupled magnetic, electronic, and optical properties. Through a combination of magneto-photoluminescence and magnetic circular dichroism spectroscopies we demonstrate strong magneto-optical responses from CsEuCl3 perovskite nanocrystals and thin films in the near-UV/visible region, stemming from the f–d transitions centered at the B-site Eu2+ cations. We show that this material undergoes a ferromagnetic phase transition at ∼3 K in both the nanocrystal and thin-film samples, resulting in complete spin alignment and indicating intrinsic ferromagnetism. We also report the observation of spin-polarized photoluminescence in the presence of a magnetic field at cryogenic temperatures, saturating with a large polarization ratio (ΔI/I = (I L – I R)/(I L + I R)) of nearly 30% at modest magnetic fields (∼2 T). These results highlight CsEuCl3 as an intrinsically ferromagnetic, luminescent metal-halide perovskite with potentially interesting implications for future spin-based technologies using perovskites.

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Magnetic Amplification at Yb³⁺“Designer Defects” in the van der Waals Ferromagnet CrI₃

Pressler

Walsh

et al. 2023

Nano Lett.

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The two-dimensional (2D) van der Waals ferromagnet CrI3 has been doped with the magnetic optical impurity Yb3+ to yield materials that display sharp multiline Yb3+ photoluminescence (PL) controlled by the magnetism of CrI3. Magneto-PL shows that Yb3+ magnetization is pinned to the magnetization of CrI3. An effective internal field of ∼10 T at Yb3+ is estimated, attributed to strong in-plane Yb3+–Cr3+ superexchange coupling. The anomalously low energy of Yb3+ PL in CrI3 reflects relatively high Yb3+–I– covalency, contributing to Yb3+–Cr3+ superexchange coupling. The Yb3+ PL energy and line width both reveal the effects of spontaneous zero-field CrI3 magnetic ordering within 2D layers below T C, despite the absence of net magnetization in multilayer samples. These results illustrate the use of optical impurities as “designer defects” to introduce unique functionality to 2D magnets.

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Magnetic Amplification at Yb3+ "Designer Defects" in the van der Waals Ferromagnet, CrI3

Pressler¹,

J.²,

Walsh³

et al. 2023

Preprint

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Kimo Pressler

Design Principles for Trap-Free CsPbX₃ Nanocrystals: Enumerating and Eliminating Surface Halide Vacancies with Softer Lewis Bases

Ferromagnetism and Spin-Polarized Luminescence in Lead-Free CsEuCl₃ Perovskite Nanocrystals and Thin Films

Magnetic Amplification at Yb³⁺“Designer Defects” in the van der Waals Ferromagnet CrI₃

Magnetic Amplification at Yb3+ "Designer Defects" in the van der Waals Ferromagnet, CrI3

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Kimo Pressler

Design Principles for Trap-Free CsPbX3 Nanocrystals: Enumerating and Eliminating Surface Halide Vacancies with Softer Lewis Bases

Ferromagnetism and Spin-Polarized Luminescence in Lead-Free CsEuCl3 Perovskite Nanocrystals and Thin Films

Magnetic Amplification at Yb3+“Designer Defects” in the van der Waals Ferromagnet CrI3

Magnetic Amplification at Yb3+ "Designer Defects" in the van der Waals Ferromagnet, CrI3

Contact Info

Product

Resources

About

Design Principles for Trap-Free CsPbX₃ Nanocrystals: Enumerating and Eliminating Surface Halide Vacancies with Softer Lewis Bases

Ferromagnetism and Spin-Polarized Luminescence in Lead-Free CsEuCl₃ Perovskite Nanocrystals and Thin Films

Magnetic Amplification at Yb³⁺“Designer Defects” in the van der Waals Ferromagnet CrI₃