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Po?\'edzka P, Holub D, Kizovsk\'fd M, Samek O, Kaiser J, Kal?\'edkov\'e1 G. Chapter 26 - Hyphenated Raman and laser spectroscopy for the characterization of microplastics in tissues. Applied Raman Spectroscopy. (Singh VKumared.), Elsevier, s.441-451 (2025).\par \par Parobkov\'e1 V, Holub D, Kizovsk\'fd M, Kal?\'edkov\'e1 G, Rozman U, Ur\'edk M, Novotn\'fd K, Samek O, Zikmund T, Po?\'edzka P, Kaiser J. Raman microspectroscopy and laser-induced breakdown spectroscopy for the analysis of polyethylene microplastics in human soft tissues. Heliyon, 10, e37844 (2024).\par \par Pr?cha L, Lejeune M, Kizovsk\'fd M, Materna-Mikmekov\'e1 E. In-situ thermal Raman spectroscopy of single-layer graphene on different substrates. Materials Today Communications, 35, 105921 (2023).\par \par Po?\'edzka P, Brunnbauer L, Porkert M, Rozman U, Marolt G, Holub D, Kizovsk\'fd M, Bene?ov\'e1 M, Samek O, Limbeck A, Kaiser J, Kal?\'edkov\'e1 G. Laser-based techniques: Novel tools for the identification and characterization of aged microplastics with developed biofilm. Chemosphere, 313, 137373 (2023).\par \par Rebro?ov\'e1 K, Bernatov\'e1 S, ?iler M, Ma?ek J, Samek O, Je?ek J, Kizovsk\'fd M, Hol\'e1 V, Zem\'e1nek P, R??i?ka F. Rapid Identification of Pathogens Causing Bloodstream Infections by Raman Spectroscopy and Raman Tweezers. Microbiology Spectrum, 11, e00028-23 (2023).\par \par Holub D, Po?\'edzka P, Kizovsk\'fd M, Prochazka D, Samek O, Kaiser J. The potential of combining laser-induced breakdown spectroscopy and Raman spectroscopy data for the analysis of wood samples. Spectrochimica Acta Part B: Atomic Spectroscopy, 195, 106487 (2022).\par \par }