Synthesis of rare earth hydroxycarbonate (LaOHCO3) nanocrystals with tuneable morphology and luminescence properties

[Display omitted] •LaOHCO3 product was synthesized by using homogenous precipitation method.•Before LaOHCO3 formation, intermediate product was observed due to capping agent.•PL emission intensity was high for sphere as compare to flower shape LaOHCO3. Lanthanum hydroxycarbonate (LaOHCO3) spheres we...

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Bibliographic Details
Published in:Advanced powder technology : the international journal of the Society of Powder Technology, Japan Japan, 2020-06, Vol.31 (6), p.2366-2378
Main Authors: Tamil selvi, Gopal, Nirmala Grace, Andrews, Jeong, Soon Kwan
Format: Article
Language:English
Subjects:
Citric acid
LaOHCO3
PL intensity
Williamson-Hall and Stoke Wilson
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Summary:[Display omitted] •LaOHCO3 product was synthesized by using homogenous precipitation method.•Before LaOHCO3 formation, intermediate product was observed due to capping agent.•PL emission intensity was high for sphere as compare to flower shape LaOHCO3. Lanthanum hydroxycarbonate (LaOHCO3) spheres were synthesized with an experimental investigation on the role of capping agent by using homogeneous precipitation method. The prepared LaOHCO3 was analyzed using XRD, FT-IR, SEM, TGA and photoluminescence (PL) to understand its formation. From the XRD spectrum, variation in the crystallite size, strain distributions, dislocation density and the number of unit cells in the crystal were obtained by using Debye Scherer’s relation, Williamson-hall and Stoke Wilson formula. From the results, various intermediate products and morphology were observed before the formation of LaOHCO3 sphere if citric acid (CA) was used as a capping agent. In contrast, there is no intermediate product formation in the absence of CA. By using fluorescence spectrophotometry, the PL spectrum of LaOHCO3 and the relation between crystalline size and emission intensity of the PL spectrum was studied in the presence and absence of CA with time. For both the cases, the emission was observed at the wavelengths of 420, 438 and 465 nm at excitation wavelength of 365 nm but the only variation in the emission intensity was observed due to change in the morphology and crystalline size of LaOHCO3. In the absence of CA, the relation between emission intensity and crystalline size was directly proportional to each other with time. In contrast, the relationship of the prepared LaOHCO3 with CA was contrary due to the variation in the morphology and crystalline size.
ISSN:0921-8831
1568-5527
DOI:10.1016/j.apt.2020.04.002