Ministry of Education
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Dr JAYARAMA A

vidwan id: 514285
Male

Associate Professor, Physics
Alva's Institute of Engineering and Technology, MOODBIDRI

Expertise

  • Applied Physics

Publications

Total Articles 478
Books 0
Proceedings 0

Publications

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Professional Recognition

2020

Award for Research Publications

VGST-ARP

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Bio

Fuel cells, Nonlinear optical materials, gas sensors

Personal Details

  • Male
  • Associate Professor , Alva's Institute of Engineering and Technology, MOODBIDRI
  • Sanidhya House, Kadja Main Road, Near Mahakali Daivasthana, Derebail-Konchady
PhD
Mangalore University 2000
Associate Professor Dec 2017 – Present
Alva's Institute of Engineering and Technology, MOODBIDRI | Physics

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JAYARAMA

Dr JAYARAMA A

Associate Professor

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Co-Authors (0)

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Scholarly Work

Formation of nanostructured aluminum surfaces for realising superhydrophobicity using Nd:YAG Laser

Funding Agency: VGST-RGS

Principal Investigtor

500,000

2021 - 2023

Completed
Novel nano-structured photo catalyst assisted in-situ hydrogen generation in hydrogen fuel cells with laser micro-machined anode plate

Funding Agency: Ongoing

Dr. Richard Pinto (

-0001 - Ongoing

Ongoing
Electrochemical discharge machined serpentine micro-channels in fused quartz for photo-catalytic in-situ hydrogen evolution in hydrogen fuel cells

Funding Agency: Dr. Jayarama A (AIET-Co-PI)

Dr. Pradeep (IITB-

-0001 - Ongoing

Ongoing
Photocatalytic Generation of Green Hydrogen and Development of Novel Low Cost

Funding Agency: Dr. M G Ananda Kumar (CPRI-Co-PI)

Dr. Satyanarayan (AI

-0001 - Ongoing

Ongoing
Optimization of u-DMFC voltage output with respect to methanol crossover through modified nafion membrane

Funding Agency: Completed

Dr. Arjun Rao

-0001 - Ongoing

Ongoing
Development of prototype chemical sensors for environmental/industrial/agricultural applications

Funding Agency: Completed

Dr. Richard Pinto (

-0001 - Ongoing

Ongoing
Ongoing

Funding Agency:

DST-SERB-CRG

N/A

Ongoing
Completed

Funding Agency:

CPRI

N/A

Ongoing

Fabrication and Characterization of ZnO Based Nano-Devices

University CEC-Mangalore
Year 2020

Synthesis & Characterization of D-π-A type Nonlinear Optical Chalcones

University MVSIT, Moodabidri
Year 2020

IGZO based thin film transistors for flexible display applications

University MITE-Moodabidri
Year 2023

Design and development of mems based piezoelectric P(VDF-TrFE) cantilevers and beams as vibration sensors

University Alva’s Institute of Engineering and Technology, Moodbidri
Year 2024

Studies on optical properties of metal doped cadmium based semiconductor thin films

University NMAMIT, Nitte
Year 2020

Novel Proton Exchange Membranes for Fuel Cells

University ALVA S INSTITUTE OF ENGINEERING AND TECHNOLOGY. MOODBIDRI
Year 2024

Growth and Characterization of π-Conjugated Novel Organic Nonlinear Optical Materials

University MITE-Moodabidri
Year 2017

A Process of Synthesizing Novel Methyl Substituted Chalcone Molecules-The Potential Cancer Inhibitors

Alva's Education Foundation
Biological Sciences Patent No. : 529879 Filed : 14-11-2019
Published : 29-11-2019 Granted

A process for enhancing hydrogen fuel cells performance with nafion proton exchange membrane optimally exposed to ultraviolet rays

Alva's Education Foundation
Engineering and Technology Patent No. : 487817 Filed : 03-09-2019
Published : 13-09-2020 Granted

SMART SHOCKWAVE VELOCITY MEASUREMENT SYSTEM BASED ON P(VDF-TRFE)PIEZOSENSORS AND ARDUINO

Alva's Education Foundation
Physical Sciences Application No. : 201941024087 Filed : 19-06-2019
Published : 25-12-2020 Filed

A process for fabrication of P(VDF-TrFE) piezoelectric beams and cantilevers as vibration sensors and energy harvesters

Alva's Education Foundation
Engineering and Technology Patent No. : 525988 Filed : 10-08-2018
Published : 14-12-2018 Granted

Scholarly Publications

LLC." Chalcones; characterization; crystal structure; nonlinear optical materials C (programming language); Characterization; Harmonic generation; Nonlinear optics; Optical materials; Single crystals; Thermoanalysis; Urea; Chalcones; High quality single crystals; Non-linear optical material; Noncentrosymmetric space groups; Nonlinear optical; Orthorhombic crystals; Single crystal XRD; Slow evaporation techniques; Crystal structure

Open Access
Year: 0000.
Authors: nd to be 1.17 times that of urea. Thermal analysis reveals that the crystal has better thermal stability. Copyright

LLC." Chalcones; characterization; crystal structure; nonlinear optical materials C (programming language); Characterization; Harmonic generation; Nonlinear optics; Optical materials; Single crystals; Thermoanalysis; Urea; Chalcones; High quality single crystals; Non-linear optical material; Noncentrosymmetric space groups; Nonlinear optical; Orthorhombic crystals; Single crystal XRD; Slow evaporation techniques; Crystal structure

Open Access
Year: 0000.
Authors: nd to be 1.17 times that of urea. Thermal analysis reveals that the crystal has better thermal stability. Copyright

crystal growth and characterization of a D-?-A type novel organic nonlinear optical single crystal" 2014 Journal of Crystal Growth 402 130 137 10.1016/j.jcrysgro.2014.04.026 https://www.scopus.com/inward/record.uri?eid=2-s2.0-84944867854&doi=10.1016%2fj.jcrysgro.2014.04.026&partnerID=40&md5=b582d538d19179e2768138c8db644c51 "A new organic nonlinear optical material 3-(4-chlorophenyl)-1-(pyridin-3-yl) prop-2-en-1-one (CPP) having high second harmonic generation efficiency has been synthesized by a Claisen-Schmidt condensation reaction method. Single crystals of CPP were grown by a slow evaporation solution growth technique. The details about the various functional groups present are obtained by FTIR

Open Access
Year: 0000.
Authors: Praveen Menezes A., Jayarama A., Weng Ng S. "Synthesis

crystal growth and characterization of a D-?-A type novel organic nonlinear optical single crystal" 2014 Journal of Crystal Growth 402 130 137 10.1016/j.jcrysgro.2014.04.026 https://www.scopus.com/inward/record.uri?eid=2-s2.0-84944867854&doi=10.1016%2fj.jcrysgro.2014.04.026&partnerID=40&md5=b582d538d19179e2768138c8db644c51 "A new organic nonlinear optical material 3-(4-chlorophenyl)-1-(pyridin-3-yl) prop-2-en-1-one (CPP) having high second harmonic generation efficiency has been synthesized by a Claisen-Schmidt condensation reaction method. Single crystals of CPP were grown by a slow evaporation solution growth technique. The details about the various functional groups present are obtained by FTIR

Open Access
Year: 0000.
Authors: Praveen Menezes A., Jayarama A., Weng Ng S. "Synthesis

c=19.7804(8) A? and V=568.21(4) A?3. The second harmonic generation (SHG) efficiency of the crystal is 3.67 times that of Urea. The molecular dipoles aligned in zig-zag head to tail fashion along the crystallographic b-axis result in a net polarization and hence large SHG conversion efficiency. From UV-visible study it is found that the crystal is transparent in the entire visible region. The energy band gap of the material is found using Taucs plot and by a direct method. The molecular origin of SHG efficiency is discussed in detail based on the experimental results. The position of nitrogen atom in the pyridine ring has considerable effect on the NLO response of the chalcone derivatives. The crystal is thermally stable up to 133

Open Access
Year: 0000.
Authors: .8881(2) A?

c=19.7804(8) A? and V=568.21(4) A?3. The second harmonic generation (SHG) efficiency of the crystal is 3.67 times that of Urea. The molecular dipoles aligned in zig-zag head to tail fashion along the crystallographic b-axis result in a net polarization and hence large SHG conversion efficiency. From UV-visible study it is found that the crystal is transparent in the entire visible region. The energy band gap of the material is found using Taucs plot and by a direct method. The molecular origin of SHG efficiency is discussed in detail based on the experimental results. The position of nitrogen atom in the pyridine ring has considerable effect on the NLO response of the chalcone derivatives. The crystal is thermally stable up to 133

Open Access
Year: 0000.
Authors: .8881(2) A?

Open Access
Year: 0000.
Authors: near optic materials; Non-linear optical

Open Access
Year: 0000.
Authors: near optic materials; Non-linear optical