Nanotechnology Research Laboratories

A national materials science research institute with capabilities spanning polymeric and organic materials, composite and structural materials, advanced characterisation and fabrication, electronic and energy materials, optics and quantum technologies.

The A.J. Drexel Nanomaterials Institute develops and studies MXenes and other nanomaterials, combining fundamental research, characterization, and industry collaboration to accelerate materials discovery toward practical commercial applications.

The Aachen Graphene & 2D-Materials Center is exploits the unique properties of graphene, two-dimensional (2D)-materials and 2D-heterostructures for different applications in the fields of electronics, sensors and photonics.

This programme focuses strongly on researching and building hardware for these technologies, paving the way for a fluent shift towards a career in the industry or an academic postgraduate path.

The vision of CDNA is exploring fundamental aspects of DNA as a programmable tool for directing the assembly of molecules and materials into nanoarchitectures and functional structures.

iNANO commands a variety of facilities for the synthesis of nanostructured/nanopatterned 0D (i.e. nanoparticle), 1D, 2D and 3D materials. These include: equipment for electrospinning, photo- and electron beam-lithography, nanoparticle synthesis (supercritical synthesis), solid-phase peptide synthesis, DNA modification, bioreactors for large-scale protein expression, isotope labelling, and procedures for synthesis of functionalized nanoparticles for targeted drug delivery and bioimaging, aptamers, etc.

Purpose of the program is to establish a national nanotechnology industry in Taiwan.

Acreo, a contract R&D lab, deals with several aspects of optical components and systems for various applications. The company develops and manufactures new components or materials with new properties based on semiconductor structures in the nanometer scale. Examples are new types of light sources, detectors or modulators.

The main goal of NBMC activity is to stimulate an interdisciplinary research and provide trainings on both master and doctoral level in the field of nanoscience and nanotechnology.

The main purpose of the Advanced Materials and Nanomaterials Spanish Technological Platform (MATERPLAT) is fostering and promoting innovation in the Advanced Materials and Nanomaterials R&D&I Spanish System, by building a framework of encounter and collaboration between the different agents of the Company, Science and Technology Spanish System.

The scientists at ARCNL conduct exciting fundamental physics at the highest possible level with a relevance to key technologies in nanolithography. They wish to contribute to the production of ever smarter and smaller electronics, while at the same time pushing the boundaries of our fundamental insight into the workings of nature.

Invests in basic research efforts for the Air Force in relevant scientific areas.

The AFRL ML develops materials, processes, and advanced manufacturing technologies for aircraft, spacecraft, missiles, rockets, and ground-based systems and their structural, electronic and optical components.

Promotes research and development on the cost-effective production and application of nanocarbon materials, nanoparticles and nanoscale thin films for industry.

ALD Center Finland is a national open-access platform for research and education in atomic-layer-level materials processing, especially Atomic Layer Deposition and Atomic Layer Etching. It provides ALD/ALEt reactors, in-situ and in-vacuo reaction-mechanism studies, process development and thin-film characterization services.

Research areas of the lab are: Nanomaterials Synthesis, Nano Composites for organic transformation, Nonmetallic Quantum Dots, Luminescent Nanomaterials for sensing Applications, Optoelectronics Devices.

The Society's Committee on Chemical safety provides guidelines and references for handling nanomaterials.

The American National Standards Institute's Nanotechnology Standards Panel serves as the cross-sector coordinating body for the purposes of facilitating the development of standards in the area of nanotechnology including, but not limited to, nomenclature/terminology; materials properties; and testing, measurement and characterization procedures.

The American Society for Precision Engineering (ASPE) focuses on many areas that are important in the research, design, development, manufacture and measurement of high accuracy components and systems such as precision controls, metrology, interferometry, materials, materials processing, nanotechnology, optical fabrication, precision optics, precision replication, scanning microscopes, semiconductor processing, standards and ultra-precision machining.

The programme at the Amity Institute of Nanotechnology comprises of conceptual knowledge of nanoscience and nanotechnology, including preparation of nanomaterials, their characterization and applications. Our eminent faculty takes care of teaching and training the students in the frontier areas of nanotechnology and they have drawn a noteworthy syllabus for the entire course.

The M.Sc. - Nanoscience by Research is a two year full-time degree program from Amity University

The programme at the Amity Institute of Nanotechnology comprises of conceptual knowledge of nanoscience and nanotechnology, including preparation of nanomaterials, their characterization and applications. Our eminent faculty takes care of teaching and training the students in the frontier areas of nanotechnology and they have drawn a noteworthy syllabus for the entire course.

The Amrita Nano Biomedical Engineering Centre, or ANBEC, has been established to conduct research and development work on devices and components at the interface between biology, medicine and engineering, where nanoscience and technology can provide a significant value added benefit over existing technologies.

This M.Sc. program will provide training in the field of Molecular Medicine. Molecular medicine is the study of molecular and cellular phenomena in biological systems that enhances our understanding of human diseases and facilitates discovery research in disease prevention, diagnosis and therapy. Molecular Medicine offers new scientific tools to address mechanistic aspects of different diseases, both in diagnostics and therapy.

The course is designed in such a way that students can explore in depth the application of nanotechnology to biomedical areas. The applications include new implant technologies, regenerative engineering, new nanomedicines to combat cancer and drug resistance, targeted medicines for treatment with reduced side effects, diagnostic technologies using nanomaterials etc.