Deutsch Intern
  • Aufnahme des LCTM-Gebäudes am Röntgenring
Lehrstuhl für Chemische Technologie der Materialsynthese

Publikationen

Hier findest du eine Übersicht über Coverpages und Publikationen des AK Unterlass.

Artikel

Publikationen AK Unterlass 2025

  • Drpic, D., Amaya-García, F. A., & Unterlass, M. M. (2025). Lophine analogues as fluorophores for selective bioimaging of the endoplasmic reticulum. Chem. Commun., 61(28), Article 28. https://doi.org/10.1039/D4CC06552B
  • Gabirondo, E., Maiz-Iginitz, A., Ximenis, M., Świderek, K., Andrés-Sanz, D., Moliner, V., Cabedo, L., Westlie, A. H., Chen, E. Y.-X., Cerrón-Infantes, D. A., Unterlass, M. M., López-Gallego, F., Etxeberria, A., & Sardon, H. (2025). Selective chemical recycling of polyhydroxybutyrate into high-value hydroxy acid using the taurine organocatalyst. Chem. Sci., 16(32), Article 32. https://doi.org/10.1039/D5SC02196K

  • Geppert, M., Jellinek, K., Linseis, M., Bodensteiner, M., Geppert, J., Unterlass, M. M., & Winter, R. F. (2024). Dual Fluorescence and Phosphorescence Emissions from Dye-Modified (NCN)-Bismuth Pincer Thiolate Complexes. Inorganic Chemistry, 63(32), Article 32. https://doi.org/10.1021/acs.inorgchem.4c01023
  • Sailer, F., Moura, H. M., Purkait, T., Vogelsang, L., Sauer, M., Foelske, A., Winter, R. F., Ponrouch, A., & Unterlass, M. M. (2024). Covalently Linked Pigment@TiO2 Hybrid Materials by One‐Pot Solvothermal Synthesis. Small Structures, 5(9), Article 9. https://doi.org/10.1002/sstr.202400074
  • Gazil, O., Alonso Cerrón-Infantes, D., Virgilio, N., & Unterlass, M. M. (2024). Hydrothermal synthesis of metal nanoparticles@hydrogels and statistical evaluation of reaction conditions’ effects on nanoparticle morphologies. Nanoscale, 16(38), Article 38. https://doi.org/10.1039/D4NR00581C
  • Augustyn, V., Cussen, S. A., Kundu, S., Osterloh, F. E., & Unterlass, M. M. (2024). Promoting your work to the materials community: editor top tips for writing an effective research paper. J. Mater. Chem. A, 12(29), Article 29. https://doi.org/10.1039/D4TA90097A
  • Amaya-García, F., Schittenhelm, L., & Unterlass, M. M. (2024). High-temperature water unlocks urea as nitrogen-source towards imidazoles. Green Chem., 26(20), Article 20. https://doi.org/10.1039/D4GC01705F

  • Gogesch, F. S., Laininger, L. S., Sokov, N., Schupp, S. M., Senft, L., Moura, H. M., Linseis, M., Schmidt-Mende, L., Ivanović-Burmazović, I., Unterlass, M. M., & Winter, R. F. (2023). A Dibenzotetrathiafulvalene-Bridged Bis(alkenylruthenium) Complex and Its One- and Two-Electron-Oxidized Forms. Inorganic Chemistry, 62(46), Article 46. https://doi.org/10.1021/acs.inorgchem.3c03184
  • Gazil, O., Bernardi, J., Lassus, A., Virgilio, N., & Unterlass, M. M. (2023). Urethane functions can reduce metal salts under hydrothermal conditions: synthesis of noble metal nanoparticles on flexible sponges applied in semi-automated organic reduction. J. Mater. Chem. A, 11(24), Article 24. https://doi.org/10.1039/D2TA09405C
  • Goujon, N., Lahnsteiner, M., Cerrón-Infantes, D. A., Moura, H. M., Mantione, D., Unterlass, M. M., & Mecerreyes, D. (2023). Dual redox-active porous polyimides as high performance and versatile electrode material for next-generation batteries. Mater. Horiz., 10(3), Article 3. https://doi.org/10.1039/D2MH01335E

  • Amaya-García, F. U. (2022). Synthesis of 2,3-Diarylquinoxaline Carboxylic Acids in High-Temperature Water. Synthesis, 54(15), Article 15. https://doi.org/10.1055/s-0040-1719922
  • Moura, H. M., Peterlik, H., & Unterlass, M. M. (2022). Green hydrothermal synthesis yields perylenebisimide–SiO2 hybrid materials with solution-like fluorescence and photoredox activity. J. Mater. Chem. A, 10(24), Article 24. https://doi.org/10.1039/D1TA03214C

  • Reiter, M., Khorsand Kheirabad, A., Unterlass, M. M., & Yuan, J. (2021). Siloxane-Based Main-Chain Poly(ionic liquid)s via a Debus–Radziszewski Reaction. ACS Polymers Au, 2(2), Article 2. https://doi.org/10.1021/acspolymersau.1c00029
  • Fujiwara, E., Ishige, R., Cerrón-Infantes, D. A., Taublaender, M. J., Unterlass, M. M., & Ando, S. (2021). Compression and Thermal Expansion Behaviors of Highly Crystalline Polyimide Particles Prepared from Poly(amic acid) and Monomer Salts. Macromolecules, 54(18), Article 18. https://doi.org/10.1021/acs.macromol.1c00779
  • Sulzgruber, V., Unterlass, M., Cavalli, T., & Walter, H. (2021). Micro Encapsulated Phase Change Material for the Application in Thermal Energy Storage. Journal of Energy Resources Technology, 144(5), Article 5. https://doi.org/10.1115/1.4051734
  • Reiter, M., Anton, A. M., Chang, J., Kremer, F., Unterlass, M. M., & Yuan, J. (2021). Tuning the glass transition of siloxane‐based poly(ionic liquid)s towards high ion conductivity. Journal of Polymer Science, 59(14), Article 14. https://doi.org/10.1002/pol.20210200
  • Amaya‐García, F., Caldera, M., Koren, A., Kubicek, S., Menche, J., & Unterlass, M. M. (2021). Green Hydrothermal Synthesis of Fluorescent 2,3‐Diarylquinoxalines and Large‐Scale Computational Comparison to Existing Alternatives. ChemSusChem, 14(8), Article 8. https://doi.org/10.1002/cssc.202100433
  • Unterlass, M. M. (2021). Journal of Materials Chemistry A and Materials Advances Editor’s choice web collection: “Recent advances in hydrothermal materials synthesis”. J. Mater. Chem. A, 9(2), Article 2. https://doi.org/10.1039/D0TA90284E
  • Essmeister, J., Taublaender, M. J., Koch, T., Cerrón-Infantes, D. A., Unterlass, M. M., & Konegger, T. (2021). High modulus polyimide particle-reinforcement of epoxy composites. Mater. Adv., 2(7), Article 7. https://doi.org/10.1039/D0MA00980F
  • Lahnsteiner, M., Caldera, M., Moura, H. M., Cerrón-Infantes, D. A., Roeser, J., Konegger, T., Thomas, A., Menche, J., & Unterlass, M. M. (2021). Hydrothermal polymerization of porous aromatic polyimide networks and machine learning-assisted computational morphology evolution interpretation. J. Mater. Chem. A, 9(35), Article 35. https://doi.org/10.1039/D1TA01253C
  • Unterlass, M. M. (2021). Journal of Materials Chemistry A and Materials Advances Editor’s choice web collection: “Recent advances in hydrothermal materials synthesis”. Mater. Adv., 2(2), Article 2. https://doi.org/10.1039/D0MA90053B

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