Module #1 Introduction to Nanoengineering Overview of nanoengineering, its importance, and applications
Module #2 Nanoscale Physics and Chemistry Fundamentals of nanoscale physics and chemistry, including quantum mechanics and surface chemistry
Module #3 Nanocharacterization Techniques Introduction to techniques for characterizing nanostructures, including SEM, TEM, and AFM
Module #4 Lithography Techniques Overview of lithography techniques, including photolithography, e-beam lithography, and nanoimprint lithography
Module #5 Top-Down Fabrication Techniques Top-down fabrication techniques, including etching, deposition, and patterning
Module #6 Bottom-Up Fabrication Techniques Bottom-up fabrication techniques, including self-assembly, chemical synthesis, and biomimetics
Module #7 Nanomaterials Synthesis Synthesis of nanomaterials, including nanoparticles, nanotubes, and graphene
Module #8 Nanoparticle Characterization Characterization of nanoparticles, including size, shape, and surface chemistry
Module #9 Nanofabrication for Electronics Nanofabrication techniques for electronics, including transistors, interconnects, and memory devices
Module #10 Nanofabrication for Energy Applications Nanofabrication techniques for energy applications, including solar cells, batteries, and fuel cells
Module #11 Nanofabrication for Biomedical Applications Nanofabrication techniques for biomedical applications, including biosensors, drug delivery, and tissue engineering
Module #12 Soft Lithography Soft lithography techniques, including microcontact printing and nanoimprint lithography
Module #13 Scanning Probe Microscopy Scanning probe microscopy techniques, including AFM and STM
Module #14 Electron Beam Lithography Electron beam lithography techniques, including high-resolution patterning and grayscale lithography
Module #15 Nanoimprint Lithography Nanoimprint lithography techniques, including thermoplastic and photocurable resists
Module #16 -directed Assembly Directed assembly techniques, including DNA-directed assembly and template-based assembly
Module #17 Microfluidics and Nanofluidics Microfluidics and nanofluidics techniques, including lab-on-a-chip and droplet-based microfluidics
Module #18 Nanoscale Simulation and Modeling Nanoscale simulation and modeling techniques, including molecular dynamics and finite element analysis
Module #19 Nanotoxicology and Safety Nanotoxicology and safety considerations, including environmental and health impacts
Module #20 Nanomanufacturing and Scaling Nanomanufacturing and scaling techniques, including roll-to-roll processing and batch fabrication
Module #21 Nanocharacterization for Energy Applications Nanocharacterization techniques for energy applications, including electron microscopy and X-ray spectroscopy
Module #22 Nanocharacterization for Biomedical Applications Nanocharacterization techniques for biomedical applications, including fluorescence microscopy and Raman spectroscopy
Module #23 Nanofabrication for Optoelectronics Nanofabrication techniques for optoelectronics, including nanophotonics and metamaterials
Module #24 Nanofabrication for Quantum Computing Nanofabrication techniques for quantum computing, including superconducting qubits and topological quantum computing
Module #25 Course Wrap-Up & Conclusion Planning next steps in Nanoengineering Techniques career