nanostructures
Research Topic
Language: English
This is a research topic created to provide authors with a place to attach new problem publications.
Research problems linked to this topic
- One of the greatest challenges in the manufacturing and development of nanotechnologies is the requirement for robust, reliable, and accurate characterization data.
- Conventional annealing techniques face tremendous challenges in nanoscale fabrication.
- Atom probe tomography (APT) is emerging as a key nanogeochemistry technique for diverse geoscience applications.
- In modern industries, nano-finishing of a part with high precision and dimensional accuracy is a crucial requirement.
- The existing synthesis methods to hollow nanostructures of inorganic materials often demand the assistance of extra templates, catalysts, surfactants, etc.
- Multimodal imaging based on nanostructures has become a subject of interest for numerous biomedical laboratories.
- Manipulating electromagnetic waves with artificial nanostructures has garnered great interest for their properties and potential applications.
- Porous gold nanostructures have attracted significant interest as conduits for catalysis in fuel cell applications.
- Nowadays nanostructured materials have become widely used in applications of concentrating solar power (CSP) system.
- Due to its large scale applications in the real field, the study of bi-metallic nano-alloy clusters is an active field of research.
- Micrometer- and nanometer-scale aluminum (nAl) particles are often considered attractive choices for fuels in energetic materials.
- Nanotechnology is a multidisciplinary science that is focused on characterization, production, and manipulation of materials at nanoscale, while nanoagriculture does to reference to three main fields: water, energy, and agro-food production, where the nanotechnology can be applied.
- There is great potential in nanoscale science and technology, and construction of macrosized materials and systems possessing nanoscale structural features is a crucial factor in the everyday application of nanoscience and nanotechnology.
- The Si(111)-5×2-Au surface is increasingly of interest because it is one of the rare atomic chain systems with quasi-one-dimensional properties.
- Recently there has been tremendous interest about the dynamical sequence of fabrication of the solid state nanopore due to its capability of the nanosize solid state biosensor as a single molecule sensor.
- The self-assembled supramolecular structures have recently attracted rising interest in view of their potential application in artificial photosynthesis, supramolecular electronics and many other scientific disciplines.
- The production of micrometer and sub-micrometer features over large areas for use in electronic and optical structures remains challenging, particularly as requirements extend beyond traditional electronic materials to ceramics and polymers.
- The preparation of ultrathin ruthenium metal nanosheets is important because these materials have unique properties originated from the unique two-dimensional (2D) structure, and yet, it remains a synthetic challenge.
- clear understanding of the mechanical behavior of nanometer thick films on nanostructures, as well as developing versatile approaches to characterize their mechanical properties, are of great importance and may serve as the foundation for understanding and controlling molecular interactions at the interface of nanostructures.
- recent decades, electrospinning of nanofibers has progressed very rapidly in both scientific and technological aspects, and electrospun nanofibers have shown enormous potential for various applications.
- Since the invention of atomic force microscopy (AFM) by Binning and colleagues in 1986, there has been tremendous growth in the use of AFM and related spin-off techniques.
- High aspect ratio three-dimensional nanostructures are of tremendous interest to a wide range of fields such as photonics, plasmonics, fluid mechanics, and biology.