ICE Issue 9

14 Scientific Article The Israel Chemist and Chemical Engineer Issue 9 · January 2023 · Tevet 5783 References 1. C. V. Raman, “A new radiation,” Indian J. Phys, 1928, 2, 387–398. 2. V. H. Damle, L. Gouda, S. Tirosh, and Y. R. Tischler, “Structural Characterization and Room Temperature Low-Frequency Raman Scattering from MAPbI3 Halide Perovskite Films Rigidized by Cesium Incorporation,” ACS Appl. Energy Mater., 2018, 1, 6707–6713. 3. T. ben Uliel, L. Gouda, H. Aviv, A. Itzhak, and Y. R. Tischler, “Microcavity enhancement of low-frequency Raman scattering from a CsPbI3 thin film,” J. Raman Spectrosc., 2019, 50, 1672– 1678. 4. V. H. Damle, M. Sinwani, H. Aviv, and Y. R. Tischler, “Microcavity Enhanced Raman Spectroscopy of Fullerene C60 Bucky Balls,” Sensors, 2020, 20, 1470. 5. V. Sereda, N. M. Ralbovsky, M. C. Vasudev, R. R. Naik, and I. K. Lednev, “Polarized Raman Spectroscopy for Determining the Orientation of di-D-phenylalanine Molecules in a Nanotube,” J. Raman Spectrosc., 2016, 47, 1056–1062. 6. L. Liang, J. Zhang, B. G. Sumpter, Q. H. Tan, P. H. Tan, and V. Meunier, “Low-Frequency Shear and Layer-Breathing Modes in Raman Scattering of Two-Dimensional Materials,” ACS Nano, 2017, 11, 11777–11802. 7. B. P. Dhamaniya, P. Chhillar, B. Roose, V. Dutta, and S. K. Pathak, “Unraveling the Effect of Crystal Structure on Degradation of Methylammonium Lead Halide Perovskite,” ACS Appl. Mater. Interfaces, 2019, 11, 22228–22239. 8. Q. Wang, M. Lyu, M. Zhang, J. H. Yun, H. Chen, and L. Wang, “Transition from the Tetragonal to Cubic Phase of Organohalide Perovskite: The Role of Chlorine in Crystal Formation of CH3NH3PbI3 on TiO2 Substrates,” J. Phys. Chem. Lett., 2015, 6, 4379–4384. 9. T. Ben-Uliel et al., “Raman scattering obtained from laser excitation of MAPbI3 single crystal,” Appl. Mater. Today, 2020, 19, 100571. 10. R. S. Czernuszewicz and M. B. Zaczek, “Resonance Raman Spectroscopy,” 2011, in Encyclopedia of Inorganic and Bioinorganic Chemistry (Wiley). 11. 11. R. C. Prince, R. R. Frontiera, and E. O. Potma, “Stimulated Raman Scattering: From Bulk to Nano,” Chem. Rev., 2017, 117, 5070–5094. 12. Xiaoli Li, Andrew J. Lee, Yujing Huo, Huaijin Zhang, Jiyang Wang, James A. Piper, Helen M. Pask, and David J. Spence, “Managing SRS competition in a miniature visible Nd:YVO4/ BaWO4 Raman laser” Opt. Exp., 2012, 17, 19305-19312. 13. N. M. Davies and X. W. Teng, “Importance of Chirality in Drug Therapy and Pharmacy Practice: Implications for Psychiatry,” Adv. Pharm., 2003, 1, 242–252. 14. T. B. Freedman, X. Cao, R. Dukor, and L. A. Nafie, “Absolute Configuration Determination of Chiral Molecules in the Solution State using Vibrational Circular Dichroism,” Chirality, 2003, 15, 743–758. 15. H. Aviv, I. Nemtsov, Y. Mastai, and Y. R. Tischler, “Characterization of Crystal Chirality in Amino Acids Using Low-Frequency Raman Spectroscopy,” J. Phys. Chem. A, 2017, 121, 7882–7888. 16. A. R. Kennedy, C. A. Morrison, N. E. B. Briggs, andW. Arbuckle, “Density and Stability Differences between Enantiopure and Racemic Salts: Construction and Structural Analysis of a Systematic Series of Crystalline Salt Forms of Methylephedrine,” Crystal Growth and Design, 2011, 11, 1821–1834. 17. O. Sichevych et al., “Crystal Structure and Physical Properties of the Cage Compound Hf2B2-2δIr5+δ,” Inorg. Chem., 2020, 59, 14280–14289. 18. K. Hasegawa, “Introduction to Single Crystal X-ray Analysis,” The Rigaku Journal, 2012, 28, 14–18. 19. I. Nemtsov, Y. Mastai, Y. R. Tischler, and H. Aviv, “Chiral Purity of Crystals Using Low-Frequency Raman Spectroscopy,” ChemPhysChem, 2018, 19, 3116–3121. 20. J. Kim, J. U. Lee, andH. Cheong, “Polarized Raman Spectroscopy for Studying Two-Dimensional Materials,” J. Phys: Condens. Matter, 2020, 32, 343001. 21. I. Nemtsov, H. Aviv, Y. Mastai, and Y. R. Tischler, “Polarization Dependence of Low-Frequency Vibrations fromMultiple Faces in an Organic Single Crystal,” Crystals, 2019, 9, 425. 22. A. Yachmenev and S. N. Yurchenko, “Detecting Chirality in Molecules by Linearly Polarized Laser Fields,” Phys. Rev. Lett., 2016, 117, 033001. 23. X. Ling et al., “Low-Frequency Interlayer Breathing Modes in Few-Layer Black Phosphorus,” Nano Lett., 2015, 15, 4080–4088. 24. J. Kiefer and K. Noack, “Universa l enant ioselect ive discrimination by Raman spectroscopy,” Analyst, 2015, 140, 1787–1790. 25. V. H. Damle, H. Aviv, and Y. R. Tischler, “Identification of Enantiomers Using Low-Frequency Raman Spectroscopy,” Anal. Chem. 2022, 94, 3188–3193.