Nanoruler

Explore the cuttingedge world of DNA nanotechnology with “Nanoruler,” a compelling guide that delves into the intersection of nanotechnology, plasmonics, and molecular engineering. Designed for professionals, students, and enthusiasts alike, this book offers a profound insight into how DNAbased structures and techniques are revolutionizing modern science and technology. Whether you're a graduate student or a seasoned researcher, this book provides the tools to understand and apply the principles of DNA nanotechnology in realworld scenarios

Nanoruler-This chapter introduces the concept of the nanoruler, a groundbreaking DNAbased tool with unprecedented precision at the molecular level

Surface plasmon-Examines the behavior of surface plasmon resonances and their significance in advancing nanotechnology applications

Nanoscale plasmonic motor-Explores the development of nanoscale motors powered by plasmonic phenomena, enhancing the movement of molecules at the smallest scales

Surface plasmon resonance-Delves into the technique of surface plasmon resonance and its utility in various biosensing and nanotechnology applications

Productive nanosystems-Investigates the creation of selfassembling nanosystems that harness the power of DNA for more efficient molecular tasks

Atomicterrace lowangle shadowing-Discusses the role of lowangle shadowing in atomicscale patterning, contributing to the fabrication of advanced nanostructures

Plasmonic nanolithography-Provides insight into the method of using plasmonics to create highly detailed nanostructures with applications in nanofabrication

Nanochemistry-Focuses on the chemical processes that occur within the nanoscale world and their applications in nanotechnology innovations

Nanotechnology-Offers a broad overview of the field, touching on the vital contributions of nanotechnology to various scientific disciplines, including biology and electronics

Surface plasmon resonance microscopy-Details the integration of surface plasmon resonance with microscopy, enhancing imaging techniques at the nanoscale

Nanolaser-Examines the development and application of nanolasers, pivotal devices in nanophotonics that operate at the quantum level

Nanometrology-Discusses the importance of precise measurements at the nanoscale, which is crucial for the advancement of nanotechnology

Localized surface plasmon-Explores the phenomenon of localized surface plasmon resonances and their role in enhancing the properties of nanomaterials

Dippen nanolithography-Describes a powerful technique for writing at the nanoscale using an atomic force microscope, essential for creating complex nanostructures

Molecular nanotechnology-Introduces the concept of molecular nanotechnology, which is reshaping industries by enabling the design and manipulation of molecules for various applications

Nanolithography-Delivers insights into the process of nanolithography, a key technique for producing tiny patterns on substrates at the molecular scale

Nanophotonics-Explores how nanotechnology is used to manipulate light on the nanoscale, creating new opportunities in fields like communications and imaging

Plasmon-Defines plasmonic phenomena and their essential role in the manipulation of light and the development of advanced nanomaterials

Nanosensor-Introduces nanosensors and their applications in detecting molecular events at the nanoscale, with immense potential for health and environmental monitoring

Plasmonic solar cell-Discusses the advancements in solar cell technology by utilizing plasmonic materials, potentially revolutionizing energy production

Surfaceenhanced Raman spectroscopy-Explains how surfaceenhanced Raman spectroscopy (SERS) is used for molecular detection and analysis at the nanoscale