Nanostructured titanium dioxide average size from alternative analysis of Scherrer's Equation

Lima, Francisco Marcone; Martins, Felipe Mota; Maia Júnior, Paulo Herbert França; Almeida, Ana Fabíola Leite; Freire, Francisco Nivaldo Aguiar

doi:10.1590/S1517-707620170001.0301

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Artigo • Matéria (Rio J.) 23 (1) • 2018 • https://doi.org/10.1590/S1517-707620170001.0301 copy

Nanostructured titanium dioxide average size from alternative analysis of Scherrer's Equation

Tamanho médio das nanopartículas de dióxido de titânio a partir de uma nova abordagem na Equação de Scherrer

Authorship SCIMAGO INSTITUTIONS RANKINGS

ABSTRACT

The materials sizing in nano-scale is a challenge to be overcome, because the size determined by various methods differ. In order to shed light about the nanomaterials sizing, a modified Scherrer's equation was applied to estimate more accurately the nanostructured titanium dioxide crystal size. The manufactured titanium dioxide-nanostructured powder with nominal average size about 21nm was used as the reference standard to determine the accurate of modified equation. From X-ray diffraction data, an average crystal size about 20.63 nm was achieved for unheated sample. To establish a relation between the result obtained with modified Scherrer's equation and the nominal average crystal size, a statistical treatment and a comparative assessment were performed. The average absolute divergence does not exceed 0.70 nm. The value of crystal size determined from X-ray data was in good agreement with that informed by the supplier. Additionally, the behavior of sample was studied as a function of temperature.

Keywords:
Nanomaterials; Scherrer's equation; Titanium dioxide

ANGLE 2θ (degree)	WIDTH β_O (radians)	D (nm)		ANGLE 2θ (degree)	WIDTH β_O (radians)	D (nm)
ANGLE 2θ (degree)	WIDTH β_O (radians)	Scherrer's equation	Modified Scherrer's equation	ANGLE 2θ (degree)	WIDTH β_O (radians)	Scherrer's equation	Modified Scherrer's equation
25.37	0.00279	56.54	18.85	76.09	0.00311	62.96	20.99
37.01	0.00279	58.18	19.39	78.71	0.00316	63.06	21.02
37.86	0.00279	58.32	19.44	80.79	0.00319	63.33	21.11
38.63	0.00279	58.45	19.48	82.21	0.00323	63.31	21.10
48.10	0.002827	59.66	19.89	82.72	0,00325	63.22	21.07
53.95	0.00284	60.76	20.25	83.20	0.00325	63.46	21.15
55.12	0.00286	60.71	20.24	92.23	0.00349	63.66	21.22
62.16	0.00291	61.71	20.57	93.29	0.00352	63.65	21.21
62.74	0.00293	61.53	20.51	94.25	0.00356	63.59	21.20
68.81	0.00300	62.20	20.73	95.21	0.00358	63.85	21.28
70.34	0.00301	62.41	20.80	98.37	0.00370	63.69	21.23
74.11	0.00307	62.84	20.95	99.85	0.00375	63.77	21.26
75.10	0.00309	62.90	20.96	-	-	-	-

TEMPERATURE (°C)	PHASE	SCHERRER'S EQUATION D (nm)	MODIFIED SCHERRER'S EQUATION D (nm)
unannealed	anatase -TiO₂	61.91 (± 2.11)	20.63 (± 0.70)
100	anatase -TiO₂	54.12 (± 4.80)	18.04 (± 1.60)
200	anatase -TiO₂	54.46 (± 3.50)	18.15 (± 1.17)
300	anatase -TiO₂	55.73 (± 5.22)	18.58 (± 1.74)
400	anatase -TiO₂	49.27 (± 4.29)	16.42 (± 1.43)
500	anatase -TiO₂ rutile -TiO₂	52.30 (± 5.93) 69.52 (± 6.25)	17.43 (± 1.98) 23.17 (± 2.08)
600	anatase-TiO₂	54.08 (± 3.00)	18.02 (± 1.00)

Laboratório de Hidrogênio, Coppe - Universidade Federal do Rio de Janeiro, em cooperação com a Associação Brasileira do Hidrogênio, ABH2 Av. Moniz Aragão, 207, 21941-594, Rio de Janeiro, RJ, Brasil, Tel: +55 (21) 3938-8791 - Rio de Janeiro - RJ - Brazil
E-mail: revmateria@gmail.com

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[1] Autor Responsável: Francisco Marcone Lima