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Essential Principles of Nanotechnology

Essential Principles of Nanotechnology

USD $59.00 USD $249.00Price range: USD $59.00 through USD $249.00

This program introduces the core principles and applications of nanotechnology, emphasizing its impact across industries such as healthcare, electronics, and energy.

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Aim

Essential Principles of Nanotechnology introduces core nanoscale concepts, key nanomaterials, synthesis and characterization methods, safety basics, and application pathways across medicine, energy, environment, and industry.

Program Objectives

  • Nanoscale Concepts: size effects, surface area, quantum effects (overview).
  • Nanomaterials: nanoparticles, nanowires, nanotubes, 2D materials (overview).
  • Synthesis: top-down vs bottom-up routes.
  • Characterization: structure, size, surface, and properties.
  • Applications: medicine, energy, environment, electronics (overview).
  • Safety: handling, exposure routes, basic risk control.
  • Scale-Up: reproducibility, quality, cost drivers.
  • Capstone: basic nanotech application proposal.

Program Structure

Module 1: What is Nanotechnology?

  • Definitions and nanoscale range.
  • Why nanoscale changes properties.
  • Surface-to-volume ratio and interface dominance.
  • Examples of nano-enabled products (overview).

Module 2: Fundamental Nanoscale Phenomena

  • Quantum confinement concepts.
  • Optical and electronic property changes.
  • Mechanical strength and size effects.
  • Surface energy and reactivity basics.

Module 3: Classes of Nanomaterials

  • 0D, 1D, 2D, 3D nanostructures.
  • Carbon nanomaterials: graphene, CNT, fullerenes (overview).
  • Metal/oxide nanoparticles (overview).
  • Polymer and biomolecule-based nanomaterials (overview).

Module 4: Synthesis Approaches

  • Top-down: milling, lithography (overview).
  • Bottom-up: sol-gel, hydrothermal, CVD (overview).
  • Green synthesis concepts.
  • Controlling size, shape, and dispersity.

Module 5: Characterization Tools

  • Size and dispersion: DLS concepts.
  • Morphology: SEM/TEM concepts.
  • Structure: XRD basics.
  • Surface chemistry: FTIR/Raman concepts.

Module 6: Properties and Performance

  • Optical properties and plasmonics (intro).
  • Electrical conductivity and percolation concepts.
  • Magnetic properties basics.
  • Thermal properties and heat transfer (overview).

Module 7: Applications Across Sectors

  • Nanomedicine: drug delivery and diagnostics (overview).
  • Energy: batteries, solar, catalysis (overview).
  • Environment: water treatment, sensors (overview).
  • Industry: coatings, composites, electronics (overview).

Module 8: Safety, Ethics, and Scale-Up

  • Nanotoxicology basics and exposure routes.
  • Safe handling: PPE, storage, waste disposal.
  • Reproducibility, standards, and quality control concepts.
  • Lifecycle thinking and sustainability.

Final Project

  • Choose an application (medicine/energy/environment/industry).
  • Deliverables: material choice + synthesis route + characterization plan + safety notes.
  • Submit: short proposal and learning summary.

Participant Eligibility

  • Students/professionals in Science, Engineering, Biotechnology, Pharmacy
  • Beginners interested in nanotechnology
  • Basic chemistry and physics helpful

Program Outcomes

  • Explain nanoscale effects and nanomaterial classes.
  • Understand common synthesis and characterization methods.
  • Connect properties to real applications.
  • Create a basic nanotechnology proposal for a chosen use case.

Program Deliverables

  • e-LMS Access: lessons, readings, quizzes.
  • Toolkit: nanomaterial glossary, lab safety checklist, project template.
  • Assessment: certification after project submission.
  • e-Certification and e-Marksheet: digital credentials.

Future Career Prospects

  • Nanotechnology Trainee
  • Materials/Quality Control Assistant
  • Research Intern (Nanoscience)
  • Nanomaterials Lab Assistant

Job Opportunities

  • R&D Labs: nanomaterials synthesis and characterization teams.
  • Industry: coatings, composites, electronics, and energy materials companies.
  • Universities: nanoscience research groups.
  • Startups: nanotech product development and testing roles.
MODE

Online/ e-LMS
TYPE

Self Paced
LEVEL

Moderate
DURATION

1 Month
CATEGORY

E – LMS, E – LMS + VIDEO, E – LMS + VIDEO + LIVE

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