Nathan Z. Koocher scite author profile

Organometal halide perovskites have been intensely studied in the past 5 years, inspired by their certified high photovoltaic power conversion efficiency. Some of these materials are room-temperature ferroelectrics. The presence of switchable ferroelectric domains in methylammonium lead triiodide, CH3NH3PbI3, has recently been observed via piezoresponse force microscopy. Here, we focus on the structural and electronic properties of ferroelectric domain walls in CH3NH3PbX3 (X = Cl, Br, I). We find that organometal halide perovskites can form both charged and uncharged domain walls due to the flexible orientational order of the organic molecules. The electronic band gaps for domain structures possessing 180 and 90° walls are estimated with density functional theory. It is found that the presence of charged domain walls will significantly reduce the band gap by 20-40%, while the presence of uncharged domain walls has no substantial impact on the band gap. We demonstrate that charged domain walls can serve as segregated channels for the motions of charge carriers. These results highlight the importance of ferroelectric domain walls in hybrid perovskites for photovoltaic applications and suggest a possible avenue for device optimization through domain patterning.

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Polarization Dependence of Water Adsorption to CH₃NH₃PbI₃ (001) Surfaces

Koocher

Saldana-Greco

Wang

et al. 2015

J. Phys. Chem. Lett.

116

124

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The instability of organometal halide perovskites when in contact with water is a serious challenge to their feasibility as solar cell materials. Although studies of moisture exposure have been conducted, an atomistic understanding of the degradation mechanism is required. Toward this goal, we study the interaction of water with the (001) surfaces of CH3NH3PbI3 under low and high water concentrations using density functional theory. We find that water adsorption is heavily influenced by the orientation of the methylammonium cations close to the surface. We demonstrate that, depending on methylammonium orientation, the water molecule can infiltrate into the hollow site of the surface and get trapped. Controlling dipole orientation via poling or interfacial engineering could thus enhance its moisture stability. No direct reaction between the water and methylammonium molecules is seen. Furthermore, calculations with an implicit solvation model indicate that a higher water concentration may facilitate degradation through increased lattice distortion.

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First-Principles Calculation of the Bulk Photovoltaic Effect in CH₃NH₃PbI₃ and CH₃NH₃PbI_3–xCl_x

Zheng

Takenaka

Wang

et al. 2014

J. Phys. Chem. Lett.

180

102

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Hybrid halide perovskites exhibit nearly 20% power conversion efficiency, but the origin of their high efficiency is still unknown. Here, we compute the shift current, a dominant mechanism of the bulk photovoltaic (PV) effect for ferroelectric photovoltaics, in CH₃NH₃PbI₃ and CH₃NH₃PbI(3-x)Cl(x) from first-principles. We find that these materials give approximately three times larger shift current PV response to near-IR and visible light than the prototypical ferroelectric photovoltaic BiFeO₃. The molecular orientations of CH₃NH₃⁺ can strongly affect the corresponding PbI₃ inorganic frame so as to alter the magnitude of the shift current response. Specifically, configurations with dipole moments aligned in parallel distort the inorganic PbI₃ frame more significantly than configurations with near-net-zero dipole, yielding a larger shift current response. Furthermore, we explore the effect of Cl substitution on shift current and find that Cl substitution at the equatorial site induces a larger response than does substitution at the apical site.

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Beryllium‐Free β‐Rb₂Al₂B₂O₇ as a Possible Deep‐Ultraviolet Nonlinear Optical Material Replacement for KBe₂BO₃F₂

et al. 2017

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A new beryllium-free deep-ultraviolet (DUV) nonlinear optical (NLO) material, β-Rb Al B O (β-RABO), has been synthesized and characterized. The chiral nonpolar acentric material shows second-harmonic generation (SHG) activity at both 1064 and 532 nm with efficiencies of 2×KH PO and 0.4×β-BaB O , respectively, and exhibits a short absorption edge below 200 nm. β-Rb Al B O has a three-dimensional structure of corner-shared Al(BO ) O polyhedra. The discovery of β-RABO shows that through careful synthesis and characterization, replacement of KBe BO F (KBBF) by a Be-free DUV NLO material is possible.

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Evidence for the weakly coupled electron mechanism in an Anderson-Blount polar metal

et al. 2019

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Over 50 years ago, Anderson and Blount proposed that ferroelectric-like structural phase transitions may occur in metals, despite the expected screening of the Coulomb interactions that often drive polar transitions. Recently, theoretical treatments have suggested that such transitions require the itinerant electrons be decoupled from the soft transverse optical phonons responsible for polar order. However, this decoupled electron mechanism (DEM) has yet to be experimentally observed. Here we utilize ultrafast spectroscopy to uncover evidence of the DEM in LiOsO 3, the first known band metal to undergo a thermally driven polar phase transition ( T c ≈ 140 K). We demonstrate that intra-band photo-carriers relax by selectively coupling to only a subset of the phonon spectrum, leaving as much as 60% of the lattice heat capacity decoupled. This decoupled heat capacity is shown to be consistent with a previously undetected and partially displacive TO polar mode, indicating the DEM in LiOsO 3 .

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Pb₂BO₃I: A Borate Iodide with the Largest Second‐Harmonic Generation (SHG) Response in the KBe₂BO₃F₂ (KBBF) Family of Nonlinear Optical (NLO) Materials

et al. 2018

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Borate halides are an ideal materials class from which to design high-performance nonlinear optical (NLO) materials. Currently, borate fluorides, chlorides, and bromides are extensively investigated while borate iodide materials discovery remains rare because of the perceived synthetic challenges. We report a new borate iodide, Pb BO I, synthesized by a straightforward hydrothermal method. The Pb BO I chemical formula conceals that the compound exhibits a structure similar to the well-established KBe BO F (KBBF), which we show supports the highest second-harmonic generation (SHG) at 1064 nm in the KBBF family, 10 × KH PO (KDP), arising from the inclusion of Pb and I and the crystal chemistry. Our work shows that KBBF-related compounds can be synthesized incorporating iodide and exhibit superior NLO responses.

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Theoretical Model of Oxidative Adsorption of Water on a Highly Reduced Reconstructed Oxide Surface

Koocher

Martirez

Rappe

2014

J. Phys. Chem. Lett.

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Highly reduced surface reconstructions of BaTiO3 (001) have been found to be composed of a TiO2 surface covered with Ti adatoms occupying surface interstitial sites. We predict the reactivity of these highly oxophilic and reduced surface Ti species through density functional theory, where we calculate the adsorption of H2O on the (√5 × √5)R26.6° TiO2-Ti3/5 reconstruction. H2O serves as the primary O source and oxidizing agent. We demonstrate that H2O oxidizes some of the Ti adatoms, shifting their occupied 3d states to the surface conduction band edge. We find that, due to the high concentration of reduced Ti species on the surface, a dissociative adsorption of water on the reconstructed surface can also lead to the formation of surface hydrides, which serve as a precursor for H2 evolution. This suggests that the reconstructed surface may be an attractive single-phase hydrogen evolution catalyst.

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Discovery of highly polarizable semiconductors BaZrS3 and Ba3Zr2S
Filippone
¹
,
Zhao
²
,
Niu
³

et al. 2020
Phys. Rev. Materials
17
1
18
1
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There are few known semiconductors exhibiting both strong optical response and large dielectric polarizability. Inorganic materials with large dielectric polarizability tend to be wide-band gap complex oxides. Semiconductors with a strong photoresponse to visible and infrared light tend to be weakly polarizable. Interesting exceptions to these trends are halide perovskites and phase-change chalcogenides. Here we introduce complex chalcogenides in the Ba-Zr-S system in perovskite and Ruddlesden-Popper structures as a family of highly polarizable semiconductors. We report the results of impedance spectroscopy on single crystals that establish BaZrS 3 and Ba 3 Zr 2 S 7 as semiconductors with a low-frequency relative dielectric constant ε 0 in the range 50-100 and band gap in the range 1.3-1.8 eV. Our electronic structure calculations indicate that the enhanced dielectric response in perovskite BaZrS 3 versus Ruddlesden-Popper Ba 3 Zr 2 S 7 is primarily due to enhanced IR mode-effective charges and variations in phonon frequencies along 001 ; differences in the Born effective charges and the lattice stiffness are of secondary importance. This combination of covalent bonding in crystal structures more common to complex oxides, but comprising sulfur, results in a sizable Fröhlich coupling constant, which suggests that charge carriers are large polarons.

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Nathan Z. Koocher

Ferroelectric Domain Wall Induced Band Gap Reduction and Charge Separation in Organometal Halide Perovskites

Polarization Dependence of Water Adsorption to CH₃NH₃PbI₃ (001) Surfaces

First-Principles Calculation of the Bulk Photovoltaic Effect in CH₃NH₃PbI₃ and CH₃NH₃PbI_3–xCl_x

Beryllium‐Free β‐Rb₂Al₂B₂O₇ as a Possible Deep‐Ultraviolet Nonlinear Optical Material Replacement for KBe₂BO₃F₂

Evidence for the weakly coupled electron mechanism in an Anderson-Blount polar metal

Pb₂BO₃I: A Borate Iodide with the Largest Second‐Harmonic Generation (SHG) Response in the KBe₂BO₃F₂ (KBBF) Family of Nonlinear Optical (NLO) Materials

Theoretical Model of Oxidative Adsorption of Water on a Highly Reduced Reconstructed Oxide Surface

Discovery of highly polarizable semiconductors BaZrS3 and Ba3Zr2S
Filippone
¹
,
Zhao
²
,
Niu
³

et al. 2020
Phys. Rev. Materials
17
1
18
1
View full text Add to dashboard Cite

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Nathan Z. Koocher

Ferroelectric Domain Wall Induced Band Gap Reduction and Charge Separation in Organometal Halide Perovskites

Polarization Dependence of Water Adsorption to CH3NH3PbI3 (001) Surfaces

First-Principles Calculation of the Bulk Photovoltaic Effect in CH3NH3PbI3 and CH3NH3PbI3–xClx

Beryllium‐Free β‐Rb2Al2B2O7 as a Possible Deep‐Ultraviolet Nonlinear Optical Material Replacement for KBe2BO3F2

Evidence for the weakly coupled electron mechanism in an Anderson-Blount polar metal

Pb2BO3I: A Borate Iodide with the Largest Second‐Harmonic Generation (SHG) Response in the KBe2BO3F2 (KBBF) Family of Nonlinear Optical (NLO) Materials

Theoretical Model of Oxidative Adsorption of Water on a Highly Reduced Reconstructed Oxide Surface

Discovery of highly polarizable semiconductors BaZrS3 and Ba3Zr2SFilippone1, Zhao2, Niu3 et al. 2020Phys. Rev. Materials171181View full textAdd to dashboardCite

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Polarization Dependence of Water Adsorption to CH₃NH₃PbI₃ (001) Surfaces

First-Principles Calculation of the Bulk Photovoltaic Effect in CH₃NH₃PbI₃ and CH₃NH₃PbI_3–xCl_x

Beryllium‐Free β‐Rb₂Al₂B₂O₇ as a Possible Deep‐Ultraviolet Nonlinear Optical Material Replacement for KBe₂BO₃F₂

Pb₂BO₃I: A Borate Iodide with the Largest Second‐Harmonic Generation (SHG) Response in the KBe₂BO₃F₂ (KBBF) Family of Nonlinear Optical (NLO) Materials

Discovery of highly polarizable semiconductors BaZrS3 and Ba3Zr2S
Filippone
¹
,
Zhao
²
,
Niu
³

et al. 2020
Phys. Rev. Materials
17
1
18
1
View full text Add to dashboard Cite