Faculty of Sciencehttp://www.digital.lib.esn.ac.lk//handle/123456789/112026-04-06T12:23:45Z2026-04-06T12:23:45ZEXPLORING THE POTBNTIAL OF ARECA NUT (Areca cotechu) EXTRACTS AS SENSITIZER FOR DYE SENSITIZND SOLAR CELL: A SOLVENT.BASED STT]DYLIYANAGE, DARSHANI PRIYAI\GIKAhttp://www.digital.lib.esn.ac.lk//handle/1234/161212025-09-06T22:30:43Z2024-01-01T00:00:00ZEXPLORING THE POTBNTIAL OF ARECA NUT (Areca cotechu) EXTRACTS AS SENSITIZER FOR DYE SENSITIZND SOLAR CELL: A SOLVENT.BASED STT]DY
LIYANAGE, DARSHANI PRIYAI\GIKA
ye-sensitized solar cells (DSSCs) offer a promising avenue for sustainable and clean energy
generation due to their low-cost fabrication and potential for utilizing natural dyes. This study
investigates the influence of solvent selection on the performance of DSSCs sensitized with natural
dye extracted from Areca nut (Areca catechu). DSSCs made with TiOz nanoporous
semiconducting photoanode layer sensitized with natural dye extracted from areca nut using
various solvents. An iodine-based electrolyte system with a redox couple of iodide/triiodide
(HIa was used and Platinum (Pt) coated conductive glass substrate was used as a counter
electrode and TiOz nanoparticles were prepared and the X-ray diffraction (XRD) analysis
confirmed good crystallinity and an anatase phase. A critical film thickness of TiOz was identified
for effective adsorption of dye molecules. Various solvents were used for dye extraction, including
acetonitrile and tert-butanol, acetone, ethanol, deionized water, chloroform, and toluene. The UV Visible spectroscopy studies shown that only polar solvents (acetonitrile and tert-butanol, acetone,
ethanol, and deionized water) extract natural dyes with light absorption peaks observed between
the wavelength4l2 nm and 580 nm. The J-V characteristic studies showed a maximum conversion
efficiency of about 0.42% and 0.40oh obtained for the DSSC device prepared using acetone and
ethanol as solvents with the main contributor is the short circuit current. Enhancement in the
conversion efficiency and the performance can be owed to the critical thickness of the TiOz film
and the degree of polarity of the solvent that were used to make the DSSC devices in this study.
2024-01-01T00:00:00ZDEVELOPMENT OF A LOW-FREQUENCY PIEZOELECTRIC SOUND ENERGY HARVESTER USING A SINGLE-COILEI) ACOUSTIC METAMATERIAL CAVITYRATHNAYAKA, SHANAKA BANDARAhttp://www.digital.lib.esn.ac.lk//handle/1234/161022025-09-06T22:30:22Z2024-01-01T00:00:00ZDEVELOPMENT OF A LOW-FREQUENCY PIEZOELECTRIC SOUND ENERGY HARVESTER USING A SINGLE-COILEI) ACOUSTIC METAMATERIAL CAVITY
RATHNAYAKA, SHANAKA BANDARA
With urbanization, environmental pollution including noise pollution, and the demand for
energy sources increase rapidly. Instead of controlling noise pollution using sound
absorbers by converting it into wasted energy, the sound energy can be harvested to be
utilized in various applications through different transduction methods to overcome the
energy requirements of low-power instruments. While sound energy is a more abundant,
clean energy source from everywhere, the harvesting process should follow step by step
process as sound energy is a low energy density source. To optimally use the effect of low
sound energy density, the sound energy should be amplified, then converted into electricity,
and after manipulation of the harvested voltage, it can be utilized. With the aim of
amplifying sound energy, various approaches are researched, and acoustic metamaterials
trending as they allow manipulation of sound waves in different ways. From the beginning,
different types of resonators have been used for sound amplification, while Helmholtz
resonators playing a dominant role. Nowadays, the Helmholtz resonator is being modified
in several ways to achieve maximum sound amplification. Considering all these aspects, in
this work the Helmholtz resonator has been modified with acoustic metamaterial as a single
coiled acoustic metamaterial cavity. The design of the harvester was confirmed through
CoMSoL multiphysics simulation analysis and the sound pressure level variation was
obseled using a sound meter within the tested frequency range, 100 Hz-2000 Hz. Then
with the integration of the Lead Zirconate Titanat e (PZT) plate, the sound energy was
converted into electric energy. To evaluate the perfornance of the harvester, the voltage
was measured through a cathode ray oscilloscope, a programmed millivoltmeter, and using
a multimeter with a voltage doubler and rectifier circuits. Using a storage capacitor, the
storing voltages were experimented. With sound pressure level analysis, the fundamental
resonance frequency of the harvester was identified as 300 Hz while the fundamental peak
of all the voltage measrrements was aligned with the obtained fundamental frequency. The
huge discrepancy between theoretical resonance frequency and experimental resonance
frequency showed a path to modify the Helmholtz resonance frequency equation, with the
modification of acoustic compliance and inertance after identifying the unsuitability of the
Helmholtz resonator equation for the larger dimension apparafus. The Helmholtz resonator
equation was modified for a larger harvester with a quarter-wavelength cavity and a half wavelength zig-zag path (that can be considered as a nalrower neck) and the calculated
value through the modified equation was perfectly aligned with the experimental value.
The harvested voltage with the harvester was six times greater compared to the generated
voltage without the harvester and therefore obtained 16 dB gain with the maximum power
of 1.44 pW. Furthertnore, the proposed acoustic metamaterial can be modified in several
ways' such as integrating custom piezoelectric plates, rescaling to lower dimensions,
integrating multiple piezoelectric plate configurations, and multiple harvester
configurations in future studies.
2024-01-01T00:00:00ZPreliminary investigation of mangrove species and associated ichthyo diversity of Nasivanthivu prestine ecosystemPriyanka, Kandhasamyhttp://www.digital.lib.esn.ac.lk//handle/123456789/35762019-07-03T05:05:06Z2018-01-01T00:00:00ZPreliminary investigation of mangrove species and associated ichthyo diversity of Nasivanthivu prestine ecosystem
Priyanka, Kandhasamy
2018-01-01T00:00:00ZAnalysis of larvivorous potential of three fish species against aedes mosquito larvae (Diptera:culicidae)in laboratory conditionRajamanickam, Dhivyahttp://www.digital.lib.esn.ac.lk//handle/123456789/35752019-07-03T05:05:06Z2018-01-01T00:00:00ZAnalysis of larvivorous potential of three fish species against aedes mosquito larvae (Diptera:culicidae)in laboratory condition
Rajamanickam, Dhivya
2018-01-01T00:00:00Z