Table of Contents

Workshop Registration End Date :2025-05-16

Virtual Workshop

Chemical Synthesis of Nanomaterials: Fundamentals and Techniques

Shaping the Future with Nano: Discover, Synthesize, and Apply!

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MODE
Virtual (Google Meet)

TYPE
Mentor Based

LEVEL
Moderate

DURATION
1 Day (1.5 Hours)

Start Date
16 -May -2025

Time
10:00 AM IST

About

Nanomaterials are revolutionizing industries ranging from medicine to electronics due to their unique properties and vast applications. The workshop “Chemical Synthesis of Nanomaterials: Fundamentals and Techniques” is designed for participants with a foundational knowledge of chemistry and materials science. It delves into the principles of nanomaterial synthesis, exploring both top-down and bottom-up approaches, and provides insights into how these materials are tailored for specific applications.

The workshop also emphasizes the relevance of nanomaterials in real-world scenarios such as catalysis, electronics, environmental sustainability, and healthcare innovations. With a balanced mix of theory, demonstrations, and interactive discussions, participants will gain both the foundational knowledge and the confidence to pursue further studies or careers in the field of nanotechnology.

Aim

To provide a comprehensive understanding of the fundamental concepts and techniques involved in the chemical synthesis of nanomaterials, exploring their properties, synthesis methods, and diverse applications across industries. This workshop aims to equip participants with knowledge to apply these techniques in research and industrial settings.

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Workshop Objectives

To provide foundational knowledge of nanomaterial properties and synthesis principles.
To introduce top-down and bottom-up synthesis methods with examples.
To demonstrate the industrial applications of synthesized nanomaterials.
To encourage active participation and discussion on current and future trends.
To equip participants with skills for advanced research or industrial applications in nanotechnology.

Workshop Structure

Introduction to Nanomaterials

Definition and significance of nanomaterials.
Overview of properties and characteristics of nanomaterials.
Examples of commonly synthesized nanomaterials.

Chemical Synthesis Methods

Top-Down Approaches:
- Mechanical milling
- Lithography
Bottom-Up Approaches:
- Sol-Gel Process
- Hydrothermal Synthesis
- Chemical Vapor Deposition (CVD)
- Precipitation Method
Comparison of methods and selection criteria

Applications of Nanomaterials

Catalysis
Electronics
Medicine (e.g., drug delivery systems)
Environmental applications

Q&A and Discussion

Address questions from participants.
Open discussion on future trends and research opportunities in nanomaterial synthesis.

Conclusion

Recap of key points.
Suggestions for further reading and research.

Participant’s Eligibility

Undergraduate degree in Chemistry, Materials Science, Chemical Engineering, or related fields.
Researchers or professionals in nanotechnology, materials science, or related industries.
Individuals with a keen interest in nanomaterial synthesis and its applications.

Important Dates

Registration Ends

2025-05-16
Indian Standard Timing 9:00 AM

Workshop Dates

2025-05-16 to 2025-05-16
Indian Standard Timing 10:00 AM

Workshop Outcomes

Understand the fundamental principles and techniques of nanomaterial synthesis.
Learn to select appropriate synthesis methods for specific applications.
Recognize the industrial significance of nanomaterials in diverse fields.
Gain insights into current trends and future opportunities in nanotechnology.
Develop confidence to explore further research or career paths in nanotechnology.

Mentor Profile

Name: Ms. Sneh Lata
Designation: Senior Research Fellow
Affiliation: CSIR-Indian Institute of Toxicology Research

Sneh Lata is a Senior Research Fellow at the CSIR-Indian Institute of Toxicology Research, specialising in developing advanced analytical methods for environmental and biological samples. She holds a Master of Science in Forensic Science from the University of Delhi. She has extensive experience utilising sophisticated analytical instruments such as LC-MS/MS, GC-MS/MS, and ICP-OES. Her research focuses on wastewater remediation, heavy metals, and pesticide analysis, with a strong background in metabolomics and structure elucidation of plant molecules. She is a member of the Society of Toxicology (SOT) and the American Chemical Society (ACS). She has published several articles while actively participating in international conferences, sharing her nanotechnology and environmental science expertise.

Fee Structure

Student

INR. 599
USD. 20

Ph.D. Scholar / Researcher

INR. 999
USD. 30

Academician / Faculty

INR. 1399
USD. 40

Industry Professional

INR. 1999
USD. 65

We are excited to announce that we now accept payments in over 20 global currencies, in addition to USD. Check out our list to see if your preferred currency is supported. Enjoy the convenience and flexibility of paying in your local currency!
List of Currencies

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Key Takeaways

Access to Live Lectures
Access to Recorded Sessions
e-Certificate
Query Solving Post Workshop

Future Career Prospects

Nanotechnology Scientist or Engineer.
Research and Development Specialist in chemical industries.
Quality Control Analyst in nanomaterial production.
Material Design Specialist in electronics and semiconductors.
Environmental Consultant for nanomaterial-based solutions.
Academic roles in teaching and research.

Job Opportunities

Roles in industries such as pharmaceuticals, electronics, renewable energy, and environmental engineering.
Research positions in academic and industrial labs focusing on nanotechnology and materials science.
Consulting positions in sustainable materials and nanotechnology innovation.