Mechanochemical synthesis of α-Al2O3-Cr3+ (Ruby) and χ-Al2O3

Fernando D. Cortes-Vega; Wenli Yang; Juan Zarate-Medina; Stanko R. Brankovic; Hector A. Calderon; Francisco C. Robles Hernandez

doi:10.1111/jace.16171

Mechanochemical synthesis of α-Al₂O₃-Cr³⁺ (Ruby) and χ-Al₂O₃

Fernando D. Cortes-Vega, Wenli Yang, Juan Zarate-Medina, Stanko R. Brankovic, Hector A. Calderon, Francisco C. Robles Hernandez

Escuela Superior de Física y Matemáticas (ESFM)

Research output: Contribution to journal › Article › peer-review

5 Scopus citations

Abstract

In this work we present a unique method to synthesize χ-Al₂O₃ and α-Al₂O₃ doped with Cr³⁺ (ruby). The ruby is synthesized by mechanical milling of pseudoboehmite that is doped in-situ with chromium. The doping is carried by adding chromium sulfate hydrate to an aqueous solution rich in aluminum sulfate hydrate. The pH in the solution is controlled to be between 9 and 10 by using ammonia, which induces the pseudoboehmite precipitation. The Cr³⁺ is added for its remarkable effects on the detectability of ruby emitting luminescent R₁ and R₂ bands that are traceable in Raman spectroscopy. The formation of ruby is detected at milling times as short as 5 hours and increased with the milling time. Ruby phase is further confirmed by means of true atomic resolution Transmission Electron Microscopy (TEM).

Original language	English
Pages (from-to)	976-980
Number of pages	5
Journal	Journal of the American Ceramic Society
Volume	102
Issue number	3
DOIs	https://doi.org/10.1111/jace.16171
State	Published - Mar 2019

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title = "Mechanochemical synthesis of α-Al2O3-Cr3+ (Ruby) and χ-Al2O3 ",

abstract = "In this work we present a unique method to synthesize χ-Al2O3 and α-Al2O3 doped with Cr3+ (ruby). The ruby is synthesized by mechanical milling of pseudoboehmite that is doped in-situ with chromium. The doping is carried by adding chromium sulfate hydrate to an aqueous solution rich in aluminum sulfate hydrate. The pH in the solution is controlled to be between 9 and 10 by using ammonia, which induces the pseudoboehmite precipitation. The Cr3+ is added for its remarkable effects on the detectability of ruby emitting luminescent R1 and R2 bands that are traceable in Raman spectroscopy. The formation of ruby is detected at milling times as short as 5 hours and increased with the milling time. Ruby phase is further confirmed by means of true atomic resolution Transmission Electron Microscopy (TEM).",

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T1 - Mechanochemical synthesis of α-Al2O3-Cr3+ (Ruby) and χ-Al2O3

AU - Cortes-Vega, Fernando D.

AU - Yang, Wenli

AU - Zarate-Medina, Juan

AU - Brankovic, Stanko R.

AU - Calderon, Hector A.

AU - Robles Hernandez, Francisco C.

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N2 - In this work we present a unique method to synthesize χ-Al2O3 and α-Al2O3 doped with Cr3+ (ruby). The ruby is synthesized by mechanical milling of pseudoboehmite that is doped in-situ with chromium. The doping is carried by adding chromium sulfate hydrate to an aqueous solution rich in aluminum sulfate hydrate. The pH in the solution is controlled to be between 9 and 10 by using ammonia, which induces the pseudoboehmite precipitation. The Cr3+ is added for its remarkable effects on the detectability of ruby emitting luminescent R1 and R2 bands that are traceable in Raman spectroscopy. The formation of ruby is detected at milling times as short as 5 hours and increased with the milling time. Ruby phase is further confirmed by means of true atomic resolution Transmission Electron Microscopy (TEM).

AB - In this work we present a unique method to synthesize χ-Al2O3 and α-Al2O3 doped with Cr3+ (ruby). The ruby is synthesized by mechanical milling of pseudoboehmite that is doped in-situ with chromium. The doping is carried by adding chromium sulfate hydrate to an aqueous solution rich in aluminum sulfate hydrate. The pH in the solution is controlled to be between 9 and 10 by using ammonia, which induces the pseudoboehmite precipitation. The Cr3+ is added for its remarkable effects on the detectability of ruby emitting luminescent R1 and R2 bands that are traceable in Raman spectroscopy. The formation of ruby is detected at milling times as short as 5 hours and increased with the milling time. Ruby phase is further confirmed by means of true atomic resolution Transmission Electron Microscopy (TEM).

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Mechanochemical synthesis of α-Al₂O₃-Cr³⁺ (Ruby) and χ-Al₂O₃

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