Nanometrology: Advances in Measurement and Characterization at the Nanoscale

In situ electron microscopy-Learn how electron microscopy enables realtime observation of nanomaterials under different conditions, providing key insights into their structure and behavior

Atomic force microscopy-Discover how atomic force microscopy (AFM) provides highly detailed, threedimensional images at the nanoscale, critical for the study of material surfaces

Nanotechnology-A deep dive into the broader implications of nanotechnology, exploring its role in industries like medicine, energy, and manufacturing, and its transformative potential

Probe tip-This chapter delves into the technology behind scanning probe microscopy, emphasizing the significance of probe tips for nanoscale imaging and manipulation

Molecular Foundry-Gain an understanding of the Molecular Foundry, a hub for creating and characterizing advanced nanostructures, highlighting its role in innovation

Featureoriented scanning-Learn about techniques used to analyze specific features of nanomaterials, enhancing the accuracy of measurements and structural characterizations

Productive nanosystems-Understand the production processes behind nanosystems, focusing on their scalability and applicability in creating highperformance materials

Nanomaterials-This chapter explores various types of nanomaterials, their synthesis, and applications in fields ranging from electronics to biomedicine

Characterization of nanoparticles-Learn the key methods used to characterize nanoparticles, essential for understanding their unique properties and interactions

Multitip scanning tunneling microscopy-A specialized form of microscopy that allows for simultaneous, highresolution imaging and manipulation of nanoscale structures

Vibrational analysis with scanning probe microscopy-Explore how vibrational analysis via scanning probe microscopy helps in identifying material properties and behaviors at the atomic level

Molecular nanotechnology-This chapter examines how molecular nanotechnology enables the creation of molecular machines, opening new doors in medicine, computing, and manufacturing

Scanning probe microscopy-Gain insight into scanning probe microscopy, a cornerstone of nanometrology, offering unprecedented precision in imaging and material analysis

TSOM-Explore the advancements in TipEnhanced Spectroscopy (TSOM), focusing on its ability to enhance resolution and provide deeper insights into nanostructures

Electron beaminduced deposition-Learn how electron beaminduced deposition is used to construct nanoscale materials with high precision, essential for device fabrication

Nanoruler-This chapter focuses on the development and application of nanorulers, which are crucial tools for measuring nanoscale objects with extreme accuracy

Profilometer-Understand how profilometers are employed to measure the surface topography of nanomaterials, aiding in quality control and research

Nanomechanics-Explore the mechanical properties of nanoscale materials, essential for the development of nanodevices and understanding their behavior under stress

Nanoengineering-This chapter covers the engineering principles used to design and build nanodevices, highlighting key applications and challenges in the field

Nanoelectrochemistry-Delve into the field of nanoelectrochemistry, which studies the electrochemical behavior of nanoscale materials and their use in energy storage and sensors