CSIR – IMMT Recruitment 2019 Research Positions 16 vacancies Walk in interview on 21, 22 & 23 May 2019

CSIR – IMMT Recruitment 2019

Council of Scientific & Industrial Research- Council of Scientific & Industrial Research (CSIR-IMMT)

CSIR-IMMT: Institute of Minerals and Materials Technology (CSIR-IMMT) published a walk in interview notification for the recruitment of 16 vacant post of Research Positions (RA-I, P-JRF, PA-III, PA-II, PA-I). Candidates who are matching the required eligibility criteria by CSIR-IMMT and interested about the post can visit the detail notification & can attend the walk in interview.

Important dates:

  • Walk in interview date:  21,22 & 23.05.2019
  • Walk in interview date: CSIR-IMMR ACHARYA VIHAR, P.O. RRL, BHUBANESWAR-751013

Vacancies details of CSIR-IMMT: 16 vacancies


Name of Post vacancies Education Qualification Age limit

Pay (Emoluments)


Research Positions (RA-I, P-JRF, PA-III, PA-II, PA-I) 16 B.Sc./ M.Sc./ M.Tech./ B.Tech./ Diploma/ Ph.D. 28 – 35


Rs. 15,000 – 31,000

*Age Relaxation as per government rule.

Important links:

Selection Process of CSIR-IMMT Research Position:  Interested candidates fulfilling all the eligibility criteria may download the Application Form and step in for the Walk-in Interview along with the filled-in Application Form (with self-attested recent photograph and photocopies of certificates etc.) and original documents for verification.

Syllabus for CSIR-IMMT Research Position:

Title of Project :

  1. Development for polymetallic nodules (PMN).
  2. Development of Aluminum based materials for energy storage application super capacitor.
  3. Development of advanced tribological coating and environmental barrier coatings by electrophoretic deposition and thermal spraying for mining equipments, pipelines, industrial applications and processes.
  4. Development of CrAISiN based superhard nanocomposite coatings.
  5. Rapid and point care microfluidic kit for multiplex diagnosis of viral diseases in tomato and apple.
  6. In house development and fabrication of stirred mills for energy efficient processing of low grade ores.
  7. Self-assembled DNA nanostructures for switching gene expression.

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