An Alternative Strategy to Polymorph Recognition at Work: The Emblematic Case of Coronene

Tommaso Salzillo; Andrea Giunchi; Matteo Masino; Natalia Bedoya-Martĺnez; Raffaele G. Della Valle; Aldo Brillante; Alberto Girlando; Elisabetta Venuti

doi:10.1021/acs.cgd.8b00934

An Alternative Strategy to Polymorph Recognition at Work: The Emblematic Case of Coronene

Tommaso Salzillo^*, Andrea Giunchi, Matteo Masino, Natalia Bedoya-Martĺnez, Raffaele G. Della Valle, Aldo Brillante, Alberto Girlando, Elisabetta Venuti

^*Korrespondierende/r Autor/-in für diese Arbeit

Institut für Festkörperphysik (5130)

Publikation: Beitrag in einer Fachzeitschrift › Artikel › Begutachtung

Abstract

We show that the development of highly accurate density functional theory calculations coupled to low-frequency Raman spectroscopy constitutes a valid method for polymorph characterization alternative/complementary to X-ray. The method is applied here to the temperature-induced, first-order phase transition of coronene, known for a long time, but has remained structurally uncharacterized due to crystal breaking during the process. The astonishing fidelity of the Raman calculated spectra to the experiments allows us to unambiguously identify the low-temperature phase with the β-coronene polymorph, recently reported as new and obtained in the presence of a magnetic field. We also suggest that additional measurements are needed to confirm that a magnetic field can actually drive the growth of a β-polymorph surviving indefinitely at ambient temperature.

Originalsprache	englisch
Seiten (von - bis)	4869-4873
Seitenumfang	5
Fachzeitschrift	Crystal Growth & Design
Jahrgang	18
Ausgabenummer	9
DOIs	https://doi.org/10.1021/acs.cgd.8b00934
Publikationsstatus	Veröffentlicht - 5 Sept. 2018

ASJC Scopus subject areas

Chemie (insg.)
Werkstoffwissenschaften (insg.)
Physik der kondensierten Materie

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10.1021/acs.cgd.8b00934

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abstract = "We show that the development of highly accurate density functional theory calculations coupled to low-frequency Raman spectroscopy constitutes a valid method for polymorph characterization alternative/complementary to X-ray. The method is applied here to the temperature-induced, first-order phase transition of coronene, known for a long time, but has remained structurally uncharacterized due to crystal breaking during the process. The astonishing fidelity of the Raman calculated spectra to the experiments allows us to unambiguously identify the low-temperature phase with the β-coronene polymorph, recently reported as new and obtained in the presence of a magnetic field. We also suggest that additional measurements are needed to confirm that a magnetic field can actually drive the growth of a β-polymorph surviving indefinitely at ambient temperature.",

author = "Tommaso Salzillo and Andrea Giunchi and Matteo Masino and Natalia Bedoya-Mart{\'l}nez and {Della Valle}, {Raffaele G.} and Aldo Brillante and Alberto Girlando and Elisabetta Venuti",

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doi = "10.1021/acs.cgd.8b00934",

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T2 - The Emblematic Case of Coronene

AU - Salzillo, Tommaso

AU - Giunchi, Andrea

AU - Masino, Matteo

AU - Bedoya-Martĺnez, Natalia

AU - Della Valle, Raffaele G.

AU - Brillante, Aldo

AU - Girlando, Alberto

AU - Venuti, Elisabetta

PY - 2018/9/5

Y1 - 2018/9/5

N2 - We show that the development of highly accurate density functional theory calculations coupled to low-frequency Raman spectroscopy constitutes a valid method for polymorph characterization alternative/complementary to X-ray. The method is applied here to the temperature-induced, first-order phase transition of coronene, known for a long time, but has remained structurally uncharacterized due to crystal breaking during the process. The astonishing fidelity of the Raman calculated spectra to the experiments allows us to unambiguously identify the low-temperature phase with the β-coronene polymorph, recently reported as new and obtained in the presence of a magnetic field. We also suggest that additional measurements are needed to confirm that a magnetic field can actually drive the growth of a β-polymorph surviving indefinitely at ambient temperature.

AB - We show that the development of highly accurate density functional theory calculations coupled to low-frequency Raman spectroscopy constitutes a valid method for polymorph characterization alternative/complementary to X-ray. The method is applied here to the temperature-induced, first-order phase transition of coronene, known for a long time, but has remained structurally uncharacterized due to crystal breaking during the process. The astonishing fidelity of the Raman calculated spectra to the experiments allows us to unambiguously identify the low-temperature phase with the β-coronene polymorph, recently reported as new and obtained in the presence of a magnetic field. We also suggest that additional measurements are needed to confirm that a magnetic field can actually drive the growth of a β-polymorph surviving indefinitely at ambient temperature.

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An Alternative Strategy to Polymorph Recognition at Work: The Emblematic Case of Coronene

Abstract

ASJC Scopus subject areas

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