Nanochemistry

Nanochemistry-This chapter introduces the concept of nanochemistry, exploring how molecular structures and materials behave at the nanoscale, setting the stage for advanced nanotechnology

Green nanotechnology-Focuses on sustainable approaches in nanotechnology, emphasizing ecofriendly methods that align with DNA origami principles and help tackle environmental challenges

Chemiresistor-Examines chemiresistors, sensors that detect chemical changes, and their pivotal role in nanotechnology applications, including their synergy with DNAbased structures

Carbon quantum dot-Discusses the properties and applications of carbon quantum dots, small nanomaterials crucial for lightemitting devices and their link to DNA origami advancements

Niveen Khashab-Highlights the work of Niveen Khashab in nanochemistry, offering insights into her contributions to the field, particularly in DNA nanotechnology

Nanotechnology-Provides a broader overview of nanotechnology, its impact on industries, and how it incorporates concepts of DNA origami to push the boundaries of innovation

Nanomedicine-Explores how nanotechnology intersects with medicine, from targeted drug delivery to diagnostic devices, showcasing the role of DNA origami in medical advancements

Nanoelectronics-Introduces nanoelectronics, focusing on how miniaturized components are revolutionizing the tech industry, and how DNA structures play a critical role in this transformation

Applications of nanotechnology-Discusses the various fields benefiting from nanotechnology, including electronics, healthcare, and energy, with an emphasis on DNA origami's role in practical applications

Polymer nanocomposite-Examines the integration of polymers and nanoparticles to create new materials with unique properties, highlighting the relevance to DNAbased technologies

Nanodiamond-Delves into the use of nanodiamonds in nanotechnology, their applications in various sectors, and how they connect to DNA origami through advanced materials research

Nanomaterials-Investigates the diverse range of nanomaterials, their synthesis, and how they interact with DNA to form the building blocks of complex nanostructures

Molecular nanotechnology-A deep dive into molecular nanotechnology, where molecular machines and DNAbased structures are engineered for specialized tasks in medicine, energy, and computing

Nanoparticle–biomolecule conjugate-Looks at the combination of nanoparticles with biomolecules for drug delivery and diagnostics, illustrating the practical side of DNA origami in biochemistry

Nanosensor-Covers nanosensors, including their design and use in detecting biological markers, and how DNA origami offers new paths in sensor technologies

Selfassembling peptide-Discusses the process of selfassembly in peptides, highlighting their relationship with DNA origami for creating nanoscale structures with precise functions

Nanobiotechnology-Focuses on the application of nanotechnology in biotechnology, showcasing how DNA origami is leveraged to create innovative tools in biological research

Ramakrishna Podila-Highlights the research contributions of Ramakrishna Podila in nanotechnology and how his work intersects with DNA origami to inspire new scientific pathways

Nanocomposite-Analyzes the combination of various materials into nanocomposites and their innovative uses, with a focus on how DNAbased technologies enhance these materials

Impact of nanotechnology-Explores the broader implications of nanotechnology on society, from environmental benefits to societal transformations, driven by DNA origami’s influence

Biointerface-Examines the interaction between biological systems and nanomaterials, focusing on DNA origami's potential to bridge the gap between technology and biology