<resource xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance" xmlns="http://datacite.org/schema/kernel-4" xsi:schemaLocation="http://datacite.org/schema/kernel-4 http://schema.datacite.org/meta/kernel-4.1/metadata.xsd"><identifier identifierType="DOI">10.26165/JUELICH-DATA/1XFQBW</identifier><creators><creator><creatorName nameType="Personal">Steinhoff, Michael</creatorName><givenName>Michael</givenName><familyName>Steinhoff</familyName><nameIdentifier nameIdentifierScheme="ORCID">0009-0008-9136-151X</nameIdentifier><affiliation>IET-1 Forschungszentrum Jülich GmbH</affiliation></creator><creator><creatorName nameType="Personal">Domgans, Anna</creatorName><givenName>Anna</givenName><familyName>Domgans</familyName><nameIdentifier nameIdentifierScheme="ORCID">0009-0004-9879-2700</nameIdentifier><affiliation>IET-1 Forschungszentrum Jülich GmbH</affiliation></creator><creator><creatorName nameType="Personal">Ahmed, Jehad</creatorName><givenName>Jehad</givenName><familyName>Ahmed</familyName><nameIdentifier nameIdentifierScheme="ORCID">0009-0003-0462-9332</nameIdentifier><affiliation>IET-1 Forschungszentrum Jülich GmbH</affiliation></creator><creator><creatorName nameType="Personal">Schierholz, Roland</creatorName><givenName>Roland</givenName><familyName>Schierholz</familyName><nameIdentifier nameIdentifierScheme="ORCID">0000-0002-2298-4405</nameIdentifier><affiliation>IET-1 Forschungszentrum Jülich GmbH</affiliation></creator><creator><creatorName nameType="Personal">Daniel, Davis Thomas</creatorName><givenName>Davis Thomas</givenName><familyName>Daniel</familyName><nameIdentifier nameIdentifierScheme="ORCID">0000-0001-7035-3416</nameIdentifier><affiliation>IET-1 Forschungszentrum Jülich GmbH</affiliation></creator><creator><creatorName nameType="Personal">Aghdassi, Nabi</creatorName><givenName>Nabi</givenName><familyName>Aghdassi</familyName><nameIdentifier nameIdentifierScheme="ORCID">0000-0002-0175-4096</nameIdentifier><affiliation>IET-1 Forschungszentrum Jülich GmbH</affiliation></creator><creator><creatorName nameType="Personal">Yu, Shicheng</creatorName><givenName>Shicheng</givenName><familyName>Yu</familyName><nameIdentifier nameIdentifierScheme="ORCID">0000-0002-6619-3330</nameIdentifier><affiliation>IET-1 Forschungszentrum Jülich GmbH</affiliation></creator><creator><creatorName nameType="Personal">Tempel, Hermann</creatorName><givenName>Hermann</givenName><familyName>Tempel</familyName><nameIdentifier nameIdentifierScheme="ORCID">0000-0002-9794-6403</nameIdentifier><affiliation>IET-1 Forschungszentrum Jülich GmbH</affiliation></creator><creator><creatorName nameType="Personal">Eichel, Rüdiger-A.</creatorName><givenName>Rüdiger-A.</givenName><familyName>Eichel</familyName><nameIdentifier nameIdentifierScheme="ORCID">0000-0002-0013-6325</nameIdentifier><affiliation>IET-1 Forschungszentrum Jülich GmbH, Faculty of Mechanical Engineering RWTH Aachen University</affiliation></creator></creators><titles><title>Replication Data for: Tailoring Li-Al-O Interphases in Garnet-Type Solid-State Electrolytes via Powder Atomic Layer Deposition</title></titles><publisher>Jülich DATA</publisher><publicationYear>2026</publicationYear><subjects><subject>Chemistry</subject></subjects><contributors><contributor contributorType="ContactPerson"><contributorName nameType="Personal">Steinhoff, Michael</contributorName><givenName>Michael</givenName><familyName>Steinhoff</familyName><affiliation>IET-1 Forschungszentrum Jülich GmbH</affiliation></contributor><contributor contributorType="ContactPerson"><contributorName nameType="Personal">Tempel, Hermann</contributorName><givenName>Hermann</givenName><familyName>Tempel</familyName><affiliation>IET-1 Forschungszentrum Jülich GmbH</affiliation></contributor><contributor contributorType="DataCollector"><contributorName nameType="Personal">Steinhoff, Michael</contributorName><givenName>Michael</givenName><familyName>Steinhoff</familyName></contributor><contributor contributorType="DataCollector"><contributorName nameType="Personal">Domgans, Anna</contributorName><givenName>Anna</givenName><familyName>Domgans</familyName></contributor><contributor contributorType="DataCollector"><contributorName nameType="Personal">Ahmed, Jehad</contributorName><givenName>Jehad</givenName><familyName>Ahmed</familyName></contributor><contributor contributorType="DataCollector"><contributorName nameType="Personal">Schierholz, Roland</contributorName><givenName>Roland</givenName><familyName>Schierholz</familyName></contributor><contributor contributorType="DataCollector"><contributorName nameType="Personal">Daniel, Davis Thomas</contributorName><givenName>Davis Thomas</givenName><familyName>Daniel</familyName></contributor><contributor contributorType="DataCollector"><contributorName>Agdhassi, Nabi</contributorName></contributor><contributor contributorType="Supervisor"><contributorName>Yu, Shicheng</contributorName></contributor><contributor contributorType="Supervisor"><contributorName nameType="Personal">Tempel, Hermann</contributorName><givenName>Hermann</givenName><familyName>Tempel</familyName></contributor><contributor contributorType="Supervisor"><contributorName>Eichel, Rüdiger-A.</contributorName></contributor></contributors><dates><date dateType="Submitted">2025-09-18</date><date dateType="Updated">2026-03-09</date></dates><resourceType 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rightsURI="info:eu-repo/semantics/openAccess"/><rights/></rightsList><descriptions><description descriptionType="Abstract">&lt;h2>Study Overview&lt;/h2>&#xd;
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&lt;p>&#xd;
In this study, the influence of atomic layer deposition (ALD) derived Li-Al-O interphases in garnet-type Li&lt;sub>6.4&lt;/sub>La&lt;sub>3&lt;/sub>Zr&lt;sub>1.4&lt;/sub>Ta&lt;sub>0.6&lt;/sub>O&lt;sub>12&lt;/sub> (LLZTO) solid-state electrolyte (SSE) was investigated. Garnet-type SSE are prone to lithium dendrite growth along interfaces, which causes short-circuits, significantly reducing cell performance. ALD offers high control over coating chemistry and morphology to precisly modify these interfaces in SSEs. Here, Al&lt;sub>2&lt;/sub>O&lt;sub>3&lt;/sub> ALD coatings were applied on LLZTO powder. MAS NMR, XPS and STEM analysis reveal the formation of a compositionally graded Li-Al-O interphase upon deposition due to proton-exchange-induced lithium diffusion. During high-temperature sintering, the ALD coating induces densification and considerable interdiffusion with LLZTO, resulting in a multi-phase microstructure which can be directly controlled via the ALD process, as confirmed by XRD, SEM and EDS measurments. Electrochemical testing reveals that medium-thickness coatings (~ 6.8 nm,  25 ALD cycles) yield optimal performance, exhibiting ionic conductivity at room temperature of 0.39 mS/cm with good Li-dendrite resitance and long-term cycling stability.&#xd;
&lt;/p>&#xd;
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&lt;hr>&#xd;
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&lt;h2>Dataset Description&lt;/h2>&#xd;
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&lt;p>&#xd;
This dataset contains NMR, XPS, XRD, Ellipsometry, EDS line scans, and electrochemical measurements to investigate Li-Al-O interphases in LLZTO.&#xd;
&lt;/p>&#xd;
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&lt;p>&#xd;
The dataset is organized into the following folders:&#xd;
&lt;/p>&#xd;
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&lt;dl>&#xd;
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&lt;dt>&lt;strong>NMR&lt;/strong>&lt;/dt>&#xd;
&lt;dd>&#xd;
&lt;sup>27&lt;/sup>Al Solid-state magic angle spinning nuclear magnetic resonance (MAS NMR) spectroscopy experiments were performed using an AvanceNEO spectrometer (Bruker). Data are stored in the folder &lt;code>NMR&lt;/code>.&#xd;
&lt;/dd>&#xd;
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&lt;dt>&lt;strong>XPS&lt;/strong>&lt;/dt>&#xd;
&lt;dd>&#xd;
X-ray photoelectron spectroscopy (XPS) measurements of the Al 2p and C 1s region were conducted using a NEXSA G2 spectrometer (Thermo Fisher Scientific). Data are stored in the folder &lt;code>XPS&lt;/code>.&#xd;
&lt;/dd>&#xd;
&#xd;
&lt;dt>&lt;strong>XRD&lt;/strong>&lt;/dt>&#xd;
&lt;dd>&#xd;
X-ray diffraction (XRD) experiments were recorded using an Empyrean diffractometer (Pananalytical). Quantitative phase analysis (QPA) on the XRD diffractograms were conducted using the software package Diffrac.Topas version 7 (Bruker). The corresponding diffractograms and fitting data are stored in the folder &lt;code>XRD&lt;/code>.&#xd;
&lt;/dd>&#xd;
&#xd;
&lt;dt>&lt;strong>Ellipsometry&lt;/strong>&lt;/dt>&#xd;
&lt;dd>&#xd;
Ellipsometry data were recorded using a FS-8 spectroscopic ellipsometer (Film Sense LLC). Data are stored in the folder &lt;code>Ellipsometry&lt;/code>.&#xd;
&lt;/dd>&#xd;
&#xd;
&lt;dt>&lt;strong>Electrochemistry&lt;/strong>&lt;/dt>&#xd;
&lt;dd>&#xd;
Electrochemical impedance spectroscopy (EIS), critical current density (CCD) measurements, long-term plating/stripping experiments and chronoamperometry (CA) measurements were performed. Data are stored in the folder &lt;code>Electrochemistry&lt;/code>.&#xd;
&lt;/dd>&#xd;
&#xd;
&lt;dt>&lt;strong>EDS line profile&lt;/strong>&lt;/dt>&#xd;
&lt;dd>&#xd;
EDS line profiles were recorded using a FEI Titan G2 80-200 CREWLEY system. Data are stored in the folder &lt;code>EDS_line_profile&lt;/code>.&#xd;
&lt;/dd>&#xd;
&#xd;
&lt;/dl></description><description descriptionType="TechnicalInfo">TopSpin, 4.1.0</description><description descriptionType="TechnicalInfo">Diffrac.Topas, 7</description></descriptions><geoLocations/><fundingReferences><fundingReference><funderName>“High Performance Solid-State Batteries” (HIPSTER) from Ministerium für Kultur und Wissenschaft des Landes Nordrhein-Westfalen</funderName></fundingReference><fundingReference><funderName>"Forschungsinfrastruktur für zukünftige Batteriengenerationen" (NextGenBat) from Bundesministerium für Forschung, Technologie und Raumfahrt</funderName><awardNumber>1703FI12</awardNumber></fundingReference><fundingReference><funderName>"Interfaces and Interphases in Rechargeable Li Based Batteries: Cathode/Solid Electrolyte – Phase 2" (CatSE2) from Bundesministerium für Forschung, Technologie und Raumfahrt</funderName><awardNumber>13XPO510A</awardNumber></fundingReference></fundingReferences></resource>