IAESTE Internships

Location

India

Internship type

ON-SITE

Reference number

IN-2025-B1410-KU

Students Requirements

General discipline

Agriculture
Biology
Biomedical Sciences

Completed Years of Study

3

Fields of Study

Languages

English Excellent (C1, C2)

Required Knowledge and Experience

-

Other Requirements

-

Work Details

Duration

16 - 18 Weeks

Within These Dates

21.07.2025 - 28.11.2025

Holidays

NONE

Work Environment

-

Gross pay

10000 INR / month

Working Hours

40.0 per week / 8.0 per day

Living Lodging

Type of Accommoditation

IAESTE- LC KARUNYA

Cost of lodging

5000 INR / month

Cost of living

8000 INR / month

Work Offered

Additional Info

This offer is from the Department of Biotechnology and the intern's field of research would be Antimicrobial Nanotechnology for Oral Health.

Work description

Antimicrobial Nanotechnology for Oral HealthOverview:Embark on an extraordinary journey at the forefront of nanotechnology, where you'll explore the transformative power of nanoparticles in combating resistant oral infections. Through hands-on research, you'll delve into the development, optimization, and evaluation of novel antimicrobial formulations designed to revolutionize oral healthcare.Objectives:1) Investigate the mechanisms by which nanoparticles penetrate biofilms and eradicate resistant oral microbes.2) Optimize the delivery and stability of nanoparticles within the complex oral environment.3) Assess the safety and biocompatibility of nanoparticle formulations on human oral cell lines.Outcomes:1) Gain expertise in nanoparticle synthesis, characterization, and antimicrobial testing techniques.2) Develop a deep understanding of biofilm formation, resistance mechanisms, and the molecular impact of nanoparticle treatment.3) Contribute to the advancement of nanomedicine by identifying promising therapeutic strategies for managing oral infections.Intern's Responsibilities:1) Conduct laboratory experiments to synthesize and characterize different types of nanoparticles.2) Utilize advanced microscopy and molecular biology techniques to analyze nanoparticle properties and microbial responses.3) Assist in the evaluation of nanoparticle efficacy against resistant oral microbes in biofilm models.

Deadline

30.04.2025