In this paper, we successfully synthesized Zn3(VO4)2 novel nanorods by hydrothermal method. As mixed phase of Zn3(VO4)2 structural and phase transformations were monitored in crystal lattice with different ionic strength by X-ray diffraction(XRD). The Zn3(VO4)2 thin film formation validated through qualitative and quantitative analysis by FESEM and it is clearly depicted the formation of the Zn3(VO4)2 nanorods varied from ∼100nm in lengths and ∼30 nm in widths. The Zn precursor’s anions directly influence the composition and shape of the resultant hydrated Zn3(VO4)2. Impedance analysis were closely studied with Impedance-Frequency characterization, which was then followed by a dielectric measurement. The analysis of GMI effect was carried out with the help of the model equivalent circuit at low frequencies, constant phase element (CPE). GMI effect and the sensitivity are calculated for the sample by appling magnetic field and driving frequency in order to analyze the giant magnetoimpedance resistance of grain boundaries for spintronics applications.

1.
Berkowitz
A. E.
,
Mitchell
R.
,
Carey
M.
,
Young
A. P.
,
Zhang
S.
,
Spada
F.E.
,
Parker
F. T.
,
Hutten
A.
, and
Thomas
G.
,
Physical Review Letters.
68
,
3745
3748
(
1992
).
2.
Machado
,
F. L. A.
,
da Silva
B. L.
,
Rezende
S. M.
, and
Martins
C. S.
,
Journal of Applied Physics.
75
,
6563
6565
(
1994
).
3.
Mohri
,
K
,
Kawashima
,
K
,
Kohzawa
,
T.
, and
Yoshida
,
Y. IEEE Transactions on Magnetics.
28
,
31503152
(
1992
).
4.
Beach
R S.
and
Berkowitz
A. E
,
Applied Physics Letters.
64
,
3652
3654
(
1994
).
5.
Miao
W.
,
Yujun
S.
,
Guoqing
,
J. Materials Research Bulletin.
1
,
1
3
(
2011
).
6.
Li
T.
,
Luo
,
J.
,
Honda
,
Z.
,
Fukuda
,
T.
and
Kamata
,
N.
Advances in Materials Physics and Chemistry.
2
,
173
177
(
2012
).
7.
Viswanath
NSM
,
Pandey
S
,
Kumar
D.
Adv Mater Sci Res.
1
(
1
),
14
19
(
2016
).
8.
T J B
Holland
and
SAT
Redfern
.,
Mineralogical Magazine.
61
,
65
77
(
1997
).
9.
Hongxu
Guo
,
Di
Guo
,
Zishan
Zheng
,
Weng
Wen
,
Jianhua Chen 29
,
24
(
28
),
2934
2941
(
2014
).
11.
Emtestam
L
,
Nicander
I
,
Stenström
M
, and
Ollmar
S.
,
Dermatology
,
197
(
4
),
313
316
, (
1998
).
12.
Harsha
Uppili
,
Bevin
Daglen
,
Adv. in Materials Physics and Chemistry.
3
,
249
254
(
2013
).
13.
T.
Nakaia
,
K.
Ishiyama
,
J.
Yamasaki
,
J. Appl. Phys.
101
,
09N106
(
2007
).
14.
L.
Kraus
,
J. Magn. Magn. Mater.
196
,
354
356
(
1999
).
15.
M.
Spano
,
K.
Hathaway
,
H.
Savage
,
J. Appl. Phys.
53
,
2667
2669
(
1982
).
16.
D.
Muraca
,
V.
Cremaschi
,
M.
Knobel
,
H.
Sirkin
,
J. Magn. Magn. Mater.
320
,
2068
2073
(
2008
).
17.
H.
Tran
,
J.
Devkota
,
T.
Eggers
,
J.
Wingo
,
W.
Cai
,
I.
Skorvanek
,
H.
Srikanth
,
M.
Phan
,
J. Electron. Mater.
45
2278
2285
(
2016
).
18.
M.
Knobel
,
M.
Vazquez
and
L.
Kraus
,
Handbook of magnetic materials: Giant Magnetoimpedance
(Elsevier
2003
), vol.
15
, p.
497
563
.
This content is only available via PDF.
You do not currently have access to this content.