DSpace Collection:http://localhost:8080/xmlui/handle/123456789/66452026-04-22T21:49:59Z2026-04-22T21:49:59ZEffect of annealing temperature on SnS thin films for photodetector applicationsS.S. Hegdehttp://localhost:8080/xmlui/handle/123456789/66742022-10-15T08:12:43Z2022-01-01T00:00:00ZTitle: Effect of annealing temperature on SnS thin films for photodetector applications
Authors: S.S. Hegde
Abstract: Tin sulfide (SnS) thin films were deposited at room temperature (RT) by thermal
evaporation method and subsequently annealed at 150–350 CinN
atmosphere.
The influence of annealing temperature on composition, structural,
morphological and optical properties of the thin films has been investigated.
X-ray diffraction (XRD) analysis and Raman studies confirmed the formation of
single phase SnS films at RT and annealed up to 300 C. The crystallite size
increased from 24 nm for as-deposited film to 37 nm for the 300 C annealed
film and further reduced to 18 nm for the 350 C annealed film. The film
annealed at 200 C was found to have better morphological features with (111)
preferred oriented crystallites. The absorption coefficient, optical band gap (E
)
of the deposited films were estimated from the optical transmittance measurements.
Photodetectors are fabricated by depositing Ag contacts on SnS thin films
using a metal mask and photo response was tested under dark and illumination
conditions using 532 nm laser of varying power intensities. The photodetectors
performance is evaluated using responsivity (R), external quantum efficiency
(EQE), and specific detectivity (D*). The specific detectivity of 6.8 9 10
Jones
obtained in the present study is nearly two orders of magnitude greater than
that reported earlier.2022-01-01T00:00:00ZCu-Al OXIDE NANOCOMPOSITE-BASED EXTERNAL FILTERS FOR GAS PURIFICATION FROM PETROL AUTOMOBILE EXHAUSTPrashant S. Hattihttp://localhost:8080/xmlui/handle/123456789/66732022-10-15T08:04:02Z2022-01-01T00:00:00ZTitle: Cu-Al OXIDE NANOCOMPOSITE-BASED EXTERNAL FILTERS FOR GAS PURIFICATION FROM PETROL AUTOMOBILE EXHAUST
Authors: Prashant S. Hatti
Abstract: Currently existing exhaust gas catalytic converters in automobiles are expensive because they use
precious metals, such as Pt, Pd, and Rh, as active components in conversion catalysts. However,
they are unable to convert all toxic gases (e.g., CO, NO
, and hydrocarbons) into less harmful
pollutants before emission to the atmosphere. This is more so in case of automobiles with
old petrol engines and fuel types (standard unleaded petrol) causing air pollution. In this work,
equimolar copper–aluminium oxide-based nanocomposites devoid of precious metals were prepared
using
cost-effective
wet
chemical
methods
rendering
a
nano
crystalline-amorphous
catalyst
matrix
and
tested
for
NO
x
x
reduction. An external filter with the proposed catalyst was developed
and used at the tailpipe of a 350 cc petrol engine to assess the impact on exhaust gas emissions.
We also studied the growth and composition of chemically stable composite and analyzed their
functional properties using X-ray diffraction, adsorption, and gas chromatography. Nanocomposite
was dip coated on ceramic honeycomb substrates and mounted inside welded casings to
fabricate an external filter. Emission tests were carried out with and without the exhaust filter.
A reduction in NO
along with that of CO and hydrocarbons from the flue gas by about 45,
12, and 32%, respectively, was obtained when the tailpipe emissions were treated at ambient
conditions. To the best of our knowledge, this is one of the primary studies on a simple and
well-designed Cu-Al oxide nanocomposite matrix for three-way catalysis during exhaust flue gas
treatment.2022-01-01T00:00:00ZConcomitant structural and ferroelectric properties of Sr2Bi4Ti5O18 ceramics sintered with perovskiteS.S. Hegdehttp://localhost:8080/xmlui/handle/123456789/66722022-10-15T08:01:19Z2022-02-01T00:00:00ZTitle: Concomitant structural and ferroelectric properties of Sr2Bi4Ti5O18 ceramics sintered with perovskite
Authors: S.S. Hegde
Abstract: Lead free piezoelectric ceramics with the composition(1-x)Sr
☆
e
þ x
[(K
0.41
Na
0.53
Li
0.06
)(Nb
0.89
Sb
0.06
Ta
0.05
)O
] (where x ¼ 0, 0.05, 0.10, 0.15 and 0.20) were synthesized using the
pre-reacted Sr
2
Bi
4
Ti
5
O
18
(SBT) and [(K
3
0.41
Na
0.53
Li
0.06
)(Nb
0.89
Sb
0.06
Ta
0.05
)O
](KNLNST) powders via solid-state
reaction carried out at 1130
3
C. Based on X-ray diffraction studies it was confirmed that only less than 0.15
mol of KNLST was soluble in the SBT phase. Raman spectra analyses for these samples revealed that A and B site
cations from KNLNST perovskite phase were found to occupy A and B site cations of SBT. There was an increase in
the grain size with the increase in x and grains with plate-like morphology were seen in these samples when
observed through a scanning electron microscope (SEM). The measured values of relative permittivity (rational
electric permittivity) (300 at 1 MHz), dielectric loss (0.013 at 1 MHz), and maximum polarization (5.95
μC/cm
)
for the samples with the composition x ¼ 0.2 were found to be superior to that of undoped SBT. The decrease in
Curie temperature with the increase in x for all the samples under study was confirmed through temperaturedependent
dielectric measurements.2022-02-01T00:00:00ZBiosensing of Catechol via amperometry using laccase immobilized nickel oxide graphite modified screen-printed electodesB. Narasimhamurthyhttp://localhost:8080/xmlui/handle/123456789/66712022-10-15T07:39:25Z2022-04-01T00:00:00ZTitle: Biosensing of Catechol via amperometry using laccase immobilized nickel oxide graphite modified screen-printed electodes
Authors: B. Narasimhamurthy
Abstract: Biosensing of Catechol via amperometry using laccase immobilized nickel oxide graphite modified screen-printed electodes B. Narasimhamurthy2022-04-01T00:00:00Z