The use of non-destructive techniques, such as photothermal techniques, can be used for characterization of non-homogeneous materials with different components and thermophysical properties. Among the photothermal techniques, the photoacoustic microscopy (PAM) has been used to obtain thermal images of different samples, ranging from semiconductors to biological materials. In the present study, the thermal imaging of six different creole corn varieties was obtained by using PAM. According to the color, these varieties were nominated as M1 (orange–yellow), M2 (blue), M3 (blue), M4 (light yellow), M5 (yellow), and M6 (red). Thermal images allowed us visualize corn characteristic features and structures, with higher values of photoacoustic signal amplitude in floury regions and pedicel. The highest values of photoacoustic signal amplitude corresponded to M1 (0.39), M6 (0.35), and M5 (0.34) corn samples, followed by M4 sample. Also, colorimetric parameters L*a* and b* of the creole corn samples were evaluated, and they showed significant statistical differences (p < 0.5). The colorimetric results were analyzed by the statistical method of Kernel density estimation, showing a higher density of data in the B component, followed by R and G. The non-destructive techniques allow characterizing non-homogeneous materials with different components. Thermal images, obtained by using PAM, can be analyzed by several statistical methods.

1.
P.
González-García
,
Renew. Sustain. Energy Rev.
82
,
1393
(
2018
).
3.
N. A.
Ngo-Thi
,
C.
Kirschner
, and
D.
Naumann
,
J. Mol. Struct.
661–662
,
371
(
2003
).
4.
D. K.
Bowen
and
M.
Wormington
,
Adv. X-Ray Anal.
36
,
171
(
1992
).
5.
Z.
Xu
,
Z.
He
,
Y.
Song
,
X.
Fu
,
M.
Rommel
,
X.
Luo
,
A.
Hartmaier
,
J.
Zhang
, and
F.
Fang
,
Micromachines
9
,
361
(
2018
).
6.
V.
Uvarov
and
I.
Popov
,
Mater. Charact.
58
,
883
(
2007
).
7.
S.
Lenaerts
,
J.
Roggen
, and
G.
Maes
,
Spectrochim. Acta Part A
51
,
883
(
1995
).
8.
R.
Muzyka
,
S.
Drewniak
,
T.
Pustelny
,
M.
Chrubasik
, and
G.
Gryglewicz
,
Materials
11
,
1050
(
2018
).
9.
C.
Xing
,
W.
Huang
,
Z.
Xie
,
J.
Zhao
,
D.
Ma
,
T.
Fan
,
W.
Liang
,
Y.
Ge
,
B.
Dong
,
J.
Li
, and
H.
Zhang
,
ACS Photonics
5
,
621
(
2018
).
10.
A.
Truppi
,
F.
Petronella
,
T.
Placido
,
V.
Margiotta
,
G.
Lasorella
,
L.
Giotta
,
C.
Giannini
,
T.
Sibillano
,
S.
Murgolo
,
A.
Agostiano
,
M. L.
Curri
, and
R.
Comparelli
,
Appl. Catal. B
243
,
604
(
2019
).
11.
N.
Brodusch
,
H.
Demers
, and
R.
Gauvin
, Field Emission Scanning Electron Microscopy: New Perspectives for Materials Characterization (
Springer
,
Singapore
,
2018
).
12.
C.
Hernández-Aguilar
,
A.
Domínguez-Pacheco
,
A.
Cruz-Orea
, and
R.
Ivanov
,
J. Spectrosc.
2019
,
1
34
.
13.
D. L.
de Faria
,
M. S.
Maier
,
S. D.
Parera
,
M. C.
Afonso
,
S. C.
Lima
, and
H. G. M.
Edwards
,
J. Raman Spectrosc.
52
,
2262
(
2021
).
14.
M.
Vadrucci
,
A.
Mazzinghi
,
B.
Sorrentino
,
S.
Falzone
,
C.
Gioia
,
P.
Gioia
,
E. M.
Loreti
, and
M.
Chiari
,
X-Ray Spectrom.
49
,
668
(
2020
).
15.
K.
Janssens
,
G.
Van der Snickt
,
F.
Vanmeert
,
S.
Legrand
,
G.
Nuyts
,
M.
Alfeld
,
L.
Monico
,
W.
Anaf
,
W.
De Nolf
,
M.
Vermeulen
,
J.
Verbeeck
, and
K.
De Wael
,
Analytical Chemistry for Cultural Heritage
(Department of Chemistry, University of Bologna, Bologna, Italy,
2017
), p. 77.
16.
S. N.
Jha
,
K.
Narsaiah
,
A. L.
Basediya
,
R.
Sharma
,
P.
Jaiswal
,
R.
Kumar
, and
R.
Bhardwaj
,
J. Food Sci. Technol.
48
,
387
(
2011
).
17.
M.
Wang
,
A.
Mandelis
,
A.
Melnikov
, and
C.
Wang
,
J. Appl. Phys.
124
,
205106
(
2018
).
18.
H.
Meier
,
Angew. Chem., Int. Ed. Engl.
31
,
1399
(
1992
).
19.
K.
Ariga
,
H.
Ito
,
J. P.
Hill
, and
H.
Tsukube
,
Chem. Soc. Rev.
41
,
5800
(
2012
).
20.
K.
Ozawa
, Lithium Ion Rechargeable Batteries: Materials, Technology, and New Applications (
John Wiley & Sons
,
2012
).
21.
M.
Sunar
and
S. S.
Rao
,
Appl. Mech. Rev.
52
,
1
(
1999
).
22.
M. T. M.
Pendergast
,
J. M.
Nygaard
,
A. K.
Ghosh
, and
E. M. V.
Hoek
,
Desalination
261
,
255
(
2010
).
23.
A. G.
Bell
,
J. Soc. Telegr. Eng.
9
,
404
(
1880
).
25.
A.
Rosencwaig
and
A.
Gersho
,
J. Appl. Phys.
47
,
64
(
1976
).
26.
A.
Mandelis
, in
Handbook of Optical Constants of Solids
(
Academic Press
,
1997
), pp.
59
97
.
27.
D.
Bicanic
,
M.
Chirtoc
,
I.
Chirtoc
,
B. V.
Veldhuizen
,
J. P.
Favier
, and
P.
Helander
,
Spectrosc. Lett.
28
,
101
(
1995
).
28.
M.
Marinelli
,
F.
Murtas
,
M. G.
Mecozzi
,
U.
Zammit
,
R.
Pizzoferrato
,
F.
Scudieri
,
S.
Martellucci
, and
M.
Marinelli
,
Appl. Phys. A
51
,
387
(
1990
).
29.
N.
Orazi
,
F.
Mercuri
,
U.
Zammit
,
S.
Paoloni
,
M.
Marinelli
,
A.
Giuffredi
, and
C. S.
Salerno
,
Stud. Conserv.
61
,
236
(
2016
).
31.
G.
Busse
and
A.
Rosencwaig
,
Appl. Phys. Lett.
36
,
815
(
1980
).
32.
A. D.
Pacheco
,
C. H.
Aguilar
,
A. C.
Orea
,
B. R.
Briseño-Tepepa
,
F. S.
Sinéncio
,
E. M.
Ortíz
, and
J. P.
Valcarcel
,
Int. J. Thermophys.
30
,
2036
(
2009
).
33.
A. D.
Pacheco
,
C. H.
Aguilar
,
A.
Cruz-Orea
,
E. M.
Ortiz
, and
E.
Ayala-Maycotte
,
J. Phys. Conf. Ser.
214
,
012060
(
2010
).
34.
T. T.
Soong
, Fundamentals of Probability and Statistics for Engineers (
John Wiley & Sons
,
2004
).
35.
J. E.
Rojas-Lima
,
A.
Domínguez-Pacheco
,
C.
Hernández-Aguilar
, and
A.
Cruz-Orea
,
Int. J. Thermophys.
37
(
9
),
98
(
2016
).
36.
C.
Hernández-Aguilar
,
A.
Cruz-Orea
,
R.
Ivanov
,
A.
Dominguez
,
A.
Carballo
,
I.
Moreno
, and
R.
Rico
,
Good Biophys.
6
,
481
(
2011
).
37.
M. E.
Antohe
,
D.
Forna Agop
,
C. G.
Dascalu
, and
N. C.
Forna
,
Rev. Chim.
69
,
521
524
(
2018
).
38.
M. J.
Aschwanden
,
Sol. Phys.
262
,
235
(
2010
).
39.
J. R.
Díaz
,
J. J. M.
Paya
, and
M. E.
del Baño Aledo
,
Cultura_Ciencia_Deporte
4
,
91
(
2009
).
40.
B.
Jahne
,
Practical Handbook on Image Processing for Scientific and Technical Applications
(
CRC Press
,
2004
).
41.
C. O.
Egesel
,
J. C.
Wong
,
R. J.
Lambert
, and
T. R.
Rocheford
,
Crop Sci.
43
,
818
(
2003
).
42.
C.
Hernandez Aguilar
,
F. A.
Dominguez Pacheco
,
A.
Cruz Orea
, and
R.
Ivanov Tsonchev
,
Int. Agrophys.
29
,
147
(
2015
).
43.
R. R.
Molina
,
C. H.
Aguilar
,
A. D.
Pacheco
,
A.
Cruz-Orea
, and
M. A.
Canseco
,
Int. J. Thermophys.
34
,
1540
(
2013
).
44.
Y.
Salinas Moreno
,
F. J.
Cruz Chávez
,
S. A.
Díaz Ortiz
, and
F.
Castillo González
,
Rev. Fitotec. Mex.
35
,
33
(
2012
).
45.
K.
Kljak
,
D.
Grbeša
, and
D.
Karolyi
,
J. Cereal Sci.
59
,
109
(
2014
).
46.
R. A.
Itle
and
E. A.
Kabelka
,
HortScience
44
,
633
(
2009
).
47.
A.
Dominguez-Pacheco
,
C.
Hernández Aguilar
,
R.
Zepeda Bautista
,
E.
Martínez Ortiz
, and
A.
Cruz-Orea
,
Superficies y vacío
25
,
92
(
2012
).
48.
A.
Medina-Perez
,
A.
Dominguez-Pacheco
,
C.
Hernandez-Aguilar
, and
A.
Cruz-Orea
,
Int. J. Thermophys.
40
,
1
(
2019
).
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