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Advanced Energy Materials

ISSNs: 1614-6832

Additional searchable ISSN (electronic): 1614-6840

John Wiley and Sons Inc.

Scopus rating (2023): CiteScore 41.9 SJR 8.748 SNIP 3.289

Journal

Titles
  • Advanced Energy Materials
  • Advanced energy materials
ISSNs1614-6832
Additional searchable ISSN (electronic)1614-6840
PublisherJohn Wiley and Sons Inc.
ZDB-ID2555492-X
ZDB-ID2594556-7

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ASJC Scopus subject areas

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Related content

Toward Higher Energy Density All-Solid-State Batteries by Production of Freestanding Thin Solid Sulfidic Electrolyte Membranes in a Roll-to-Roll Process

Rosner, M., Cangaz, S., Dupuy, A., Hippauf, F., Dörfler, S., Abendroth, T. & Schumm, B. & 2 others, Althues, H. & Kaskel, S., 10 Jan 2025, (E-pub ahead of print) In: Advanced energy materials. 2404790.

Research output: Contribution to journalResearch articleContributedpeer-review

Multimodal Operando Analysis of Lithium Sulfur Multilayer Pouch Cells: An In-Depth Investigation on Cell Component Design and Performance

Müller, R., Boenke, T., Dörfler, S., Abendroth, T., Härtel, P., Althues, H. & Kaskel, S. & 6 others, Kardjilov, N., Markötter, H., Sintschuk, M., Hilger, A., Manke, I. & Risse, S., 7 Jan 2025, (E-pub ahead of print) In: Advanced energy materials. 2404256.

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Novel Green Solvent for Sustainable Fabrication of Quasi-2D Perovskite Solar Cells

Guerrero-León, L. A., Bautista-Quijano, J. R., Heffner, H., Shilovskikh, V., Campos, R., Rivkin, B. & Vaynzof, Y., 6 Dec 2024, In: Advanced energy materials. 14, 45, 8 p., 2402916.

Research output: Contribution to journalResearch articleContributedpeer-review

Enabling Optoelectronics in Harsh Environments: Laser-Printed Perovskite Films with Exceptional Stability Under Extreme Radiation, Thermal Stress, and Humidity

Yuce-Cakir, H., Dremann, D., Morel, J. L., Khan, S., Deconinck, M., Shilovskikh, V. V. & Nie, W. & 2 others, Vaynzof, Y. & Jurchescu, O. D., Dec 2024, (E-pub ahead of print) In: Advanced energy materials. 2405370.

Research output: Contribution to journalResearch articleContributedpeer-review

A Small Electrolyte Drop Enables a Disruptive Semisolid High-Energy Sulfur Battery Cell Design via an Argyrodite-Based Sulfur Cathode in Combination with a Metallic Lithium Anode

Kirchhoff, S., Fiedler, M., Dupuy, A., Härtel, P., Semmler, M., Hippauf, F. & Dörfler, S. & 4 others, Schumm, B., Abendroth, T., Althues, H. & Kaskel, S., 15 Nov 2024, In: Advanced energy materials. 14, 43, 11 p., 2402204.

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