College Name: Karpagam Academy of Higher Education
College Profile: Karpagam Academy of Higher Education (KAHE) established under Section 3 of the UGC Act 1956 is approved by the Ministry of Human Resource and Development, Government of India. Dr. R.Vasanthakumar, the president of the trust, a philanthropist, industrialist, entrepreneur and culture promoter.
Contemporary infrastructure, modern teaching methodologies, career-oriented training, excellent placements and the finest faculty have always been Karpagam’s hallmark. Besides technical expertise, the University has made a mark for itself since its inception by developing communication and soft skills, ensuring enlightening knowledge, extending holistic education and creating a strong value system, Today, with a strength of 6000 students and over 750 teaching & non-teaching staff, the Karpagam Academy of Higher Education (KAHE) is setting new benchmarks in the educational sphere.
We are seeking applications for the position of Junior Research Fellow (JRF) in the field of “Hydrogen Storage in 2D materials: Density Functional Theory Simulations”. The primary objectives of this position include publishing research articles in peer-reviewed scientific journals.
ELIGIBILITY AND EXPERIENCE
- M.Sc. in Chemistry/Physics/Materials Science/ Nanotechnology or a relevant discipline
- Candidates must have obtained their degrees with a first-class.
- Candidates with a computational background or a track record of quality publications will be given preference
- Preference will be given to candidates who have qualified CSIR-UGC NET (JRFILS) or GATE
- Ability to work closely and collaborate with colleagues is essential.
SALARY
The stipend will be as per the norms of the Institute. The salary and appointment terms are consistent with the current rules for PhD degree students.
DURATION
Initial appointment for one year. with the possibility of an extension of up to 2 years based on performance.
AREA OF RESEARCH
The work involves Density Functional Theory simulation to design 2D Nanomaterials promising for hydrogen storage. The adsorption energy of hydrogen molecules. gravimetric weight percentage interactions of H molecules. stability of the systems needs to be computed through sophisticated quantum simulations. Dispersion corrections need to be implemented in DFT simulations. Charge transfer, orbital interactions, and other electronic properties need to be investigated.
HOW TO APPLY
Interested candidates should submit a detailed resume. including two references (along with a recent photograph. contact details email, and postal address). and photocopies of relevant educational and professional qualifications
Completed applications should be malted to The Dean of R&D and Industry Relations, at [email protected] no later than July 07′ 2023
Email address to apply: [email protected]
Last Date: 7th July 2023
