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Force microscopyNanotechnologyParticlesMaterialsNanomaterialsFabricationSpectroscopyBiophysicalComputationalAnalyzeElemental analysisMagnetic2023Transmission electron mSpatial resolutionDepositionMetrologyNanoscienceSpectroscopicQuantum phenomenaCrystalsQuantitativeResearchersElectron microscopeSynthesisNanostructuresGrapheneMicroscopy toolsGeometrySpectroscopiesMoleculesChemistryParticleLength scalesInteractionsSensitivityEngineersBiologicalSystemsResearchConventionalScienceTechniquesInteractionUndergraduateHighEnvironmentsSemiconductorDesignApproachesDimensionsInnovationVolumesFundamentalSurfaceConcentrationsStructureChemicalApplications

Force microscopy9

• d) Four paved digits of "2017" imaged using atomic force microscopy (AFM). (phys.org)
• B.Zapotoczny, F.Braet, E.Wisse, M.Lekka, M.Szymonski - Biophysical nanocharacterization of liver sinusoidal endothelial cells through atomic force microscopy - Biophysical Review 12 (2020) 625. (edu.pl)
• Other options include atomic force microscopy, nuclear magnetic resonance, and various forms of spectroscopy. (rdworldonline.com)
• Park Systems, a leading manufacturer of atomic force microscopy (AFM) and nano metrology systems, has introduced its newest product, the Park NX-IR R300, a nanoscale infrared spectroscopy (IR) system for industrial applications. (parksystems.com)
• Park NX-IR R300 is an infrared spectroscopy and atomic force microscopy integrated into one, for up to 300 mm semiconductor wafers. (parksystems.com)
• Park Systems is a world-leading manufacturer of atomic force microscopy (AFM) and nano metrology systems with a complete range of products for researchers and engineers in the chemistry, materials, physics, life sciences, semiconductor, and data storage industries. (parksystems.com)
• Atomic force microscopy image of immobilised antibodies on the biosensor surface. (atlasofscience.org)
• Novel characterisation techniques such as atomic force microscopy (AFM) helped us to understand, which density of antibody on the biosensor surface is optimal to built-up an ultrasensitive biosensor device (Fig. 2). (atlasofscience.org)
• The techniques of scanning tunneling microscopy (STM) and atomic force microscopy (AFM) are given particular attention. (lu.se)

Nanotechnology5

• They will understand current frontier developments in nanotechnology, and recognise and develop novel and innovative ideas using a range of laboratory methods, specifically the fabrication and characterisation tools used in nanotechnology such as various microscopies, surface modifications and molecular level construction methods. (nanowerk.com)
• Dr. Gomes also shares some of the emerging challenges in the field of nanotechnology and highlights the crucial role played by advanced microscopy tools in guiding nanomaterial synthesis and device optimization. (selectscience.net)
• He serves as the JSNN's site PI for the National Nanotechnology Coordinated Infrastructure's (NNCI) Southeastern Nanotechnology Infrastructure Corridor (SENIC) cluster, a National Science Foundation (NSF) funded program with the Georgia Institute of Technology (GA Tech). SENIC provides academic, industrial and government researchers access to university nanoscale science and nanoengineering expertise and user facilities, with leading edge fabrication and characterization tools that help to drive the realization of the Internet of Things. (cqc2t.org)
• The Nanoscale Engineering program offers students a world-renowned nanotechnology education in microchip technology and the semiconductor industry. (albany.edu)
• We will run nanoHUB simulation tools for visualizing crystal structures and biological molecules and learn how to find and bookmark self-paced lessons in nanoHUB on a wide range of topics, from nanotechnology labs to data science and machine learning. (micronanoeducation.org)

Particles7

• Helios NanoLab provides rapid and detailed morphological analysis of micro to nanoscale particles and is equipped with Oxford multi-tasking software (AZtecLive and AZtecFeature) that enable real-time sample navigation based on sample chemistry and/or advanced particle analysis platform. (pnnl.gov)
• A new photonic effect in semiconducting helical particles with nanoscale dimensions has been discovered by an international team of scientists from the University of Bath, UK and the University of Michigan, US. (drugtargetreview.com)
• In light of this strategy, researchers integrated quantum technology and microscopy to study the particles and molecules at the atomic level, which is unattainable using a conventional microscope. (azooptics.com)
• Quantum microscopy based on quantum phenomena, such as a photon or electron entanglement, measures particles and their properties at the atomic scale. (azooptics.com)
• It combines a quantum source that produces hyper-entangled space-polarized photons, a lens-less interference microscope with a wide field of vision, and a single photon avalanche diode array camera, to realize particles at the atomic level. (azooptics.com)
• these microscopes can detect electric currents, magnetic field fluctuations, and even atomic particles on a surface. (azooptics.com)
• TiO(2) and SiO(2) nanoscale particles (NPs) were collected on MCE filter media and were imaged and analyzed via EDFM-HSI. (cdc.gov)

Materials36

• Research is done in the broad fields of structural and nuclear materials, device materials, polymers and biomaterials, nanomaterials, processing and manufacturing, characterization, and computational materials modelling. (wikipedia.org)
• The department host different types of mechanical testing labs, e.g., nano-indentation lab, Digital image correlation lab, fatigue testing lab, computed tomography machines, the David Cockayne Centre for Electron Microscopy, Oxford Materials Characterisation, Atom probe tomography, etc. (wikipedia.org)
• Oxford Materials Characterisation Service (OMCS) offers a service for the investigation of materials and materials-related problems to research groups and the industry. (wikipedia.org)
• They also research the nanoscale modification of bulk materials such as nanocrystals within semiconductors induced by ion irradiation. (nanowerk.com)
• Students will develop the capacity to understand the basic scientific concepts underpinning nanoscience and the properties of materials and biomaterials at the atomic/molecular level and the scaling laws governing these properties. (nanowerk.com)
• Nano-characterisation: the full range of optical, electron, ion and scan-probe based technologies required to image and understand nanostructures in both the biological and non-biological materials including silicon, III-V, organics and diamond, and unconventional substrates such as plastic and metal foils. (london-nano.com)
• A wide range of nanoscale characterization tools (TEM, SEM, AFM, FIB) are also used to probe materials across all dimension scales. (utexas.edu)
• New types of nanoscale opto-electronic devices are produced in clean-room nanofabrication facilities, utilizing materials ranging from 2D Crystals (graphene, BN, MoS2, WS2 etc), 1D wires and nanotubes, to 0D quantum dots. (utexas.edu)
• We aim to address the aforementioned challenge facing zeolite chemistry by going beyond conventional "nanoscale" engineering of active sites and venturing into new frontiers in materials design - manipulating active sites in zeolites with atomic precision . (cuni.cz)
• preparation of ultrathin samples and materials for other analysis-e.g, preparation of selected regions for transmission electron microscopy (TEM) and atomic probe tomography (APT). (pnnl.gov)
• Fundamental chemical principles for nanoscale materials and systems. (sunypoly.edu)
• Basic chemical concepts of energy, enthalpy, thermodynamics, and quantum atomic theory are introduced with a focus on application to nanoscale materials and application architectures. (sunypoly.edu)
• Fundamentals of chemical bonding in nanoscale materials (covalent, ionic) are covered. (sunypoly.edu)
• Laboratory experiences focus on the fundamental chemical principles for nanoscale materials and systems. (sunypoly.edu)
• The approach is now published in Nature Materials , detailing the realization of molecular materials with embedded biomolecular computational functions to operate at the level of the single-molecule with potential to engineer intelligent nanorobots for future applications in industry and medicine. (phys.org)
• When the size of metal oxide materials is reduced to the nanoscale level, high surface-to-volume ratios and surface reaction activities offer further benefits, making them attractive for applications ranging from energy conversion and storage to electronic devices, self-cleaning surfaces, and photocatalysis. (selectscience.net)
• The PIF, which houses some of the most advanced imaging instruments in the world, will give researchers the ability to dissect, create, and catalog technologically important materials and devices at the atomic level, and will fill researchers' microscopy and microanalysis needs for years to come. (nist.gov)
• The PIF's technological capabilities - the most sophisticated available outside certain Department of Energy facilities - will particularly benefit programs which rely on the complicated interworking of nanoscale materials and microfabrication technology that can only be probed by advanced imaging tools. (nist.gov)
• The TEM opens the door to sub-angstrom (1 Å = 10-10 m) resolution imaging necessary for the characterization of crystalline materials used for single photon emitters, nanoscale light sources, and advanced quantum information circuits. (nist.gov)
• He also serves as Adjunct Associate Professor in Materials Science and Engineering at North Carolina State University, where he coteaches a graduate level course on The Materials Science of Nanoelectronics. (cqc2t.org)
• Our curriculum brings together foundational knowledge of physics, chemistry, biology, and materials science with a focus on how these converge at the atomic scale in order to help our students understand the origins of nanoscale phenomena and learn to design engineering solutions. (albany.edu)
• PFIB-SEM is an ideally suited technique for the characterization of advanced battery materials, as it provides nanometer-scale imaging of 3D electrodes across large (hundred micrometer scale) volumes. (techbriefs.com)
• The Soft Matter Characterization Facility offers specialized instrumentation and training for researchers to study the structure, properties, and dynamics of soft materials. (uchicago.edu)
• Nanoparticles occupy an important middle ground between bulk materials and atomic or molecular structures. (rdworldonline.com)
• The need for pharmaceutical research to be accelerated has never been more pressing and it would benefit hugely from the help of new and improved drug discovery platforms taking advantage of nanoscale materials and related new optical effects. (drugtargetreview.com)
• We are confident that Park NX-IR R300 will become an essential tool for industrial customers who need to analyze the chemical composition of their materials at the highest level of accuracy. (parksystems.com)
• Quantum microscopy's ability to provide numerous characterization and imaging modalities offers promising new insights into the behavior and structure of materials at the nano to the quantum scale. (azooptics.com)
• The quest for new properties and more efficient devices stimulates the development of new tools and processes to design and synthesize innovative materials with tailored structures and/or architectures at multi-scales, from the nano- up to the macro-scale. (universite-lyon.fr)
• Nano-electronics is an emergent interdisciplinary area covering a diverse range of advanced electronic materials and devices, with the common characteristic that they are so small that dimensional effects, inter-atomic interactions and quantum phenomena need to be studied extensively. (royalholloway.ac.uk)
• The experimental side of the research today has marched to a historical point where the paramount urgency is to use materials of the highest perfection and homogeneity and detection tools with atomic sensitivity. (royalholloway.ac.uk)
• Reducing the size of magnetic materials down to the nanoscale enables the magnetization configuration to be controlled. (royalholloway.ac.uk)
• X-ray diffraction (XRD) is a primary technique for the study of advanced materials at the atomic and molecular level. (rigaku.com)
• XRD and XRF instrumentation for materials characterization at every stage of the exploration, production and distribution process. (rigaku.com)
• The nanoscale refers to materials with dimensions on the scale of nanometers (a thousandth of a thousandth of a thousandth of a meter). (beloit.edu)
• What tools can be used to study such materials? (beloit.edu)
• The hybrid combination of two-dimensional (2D) transition metal dichalcogenides (TMDs) and plasmonic materials open up novel means of (ultrafast) optoelectronic applications and manipulation of nanoscale light-matter interaction. (lu.se)

Nanomaterials4

• The core foundation of his research is on the atomic level structure and dynamics of nanomaterials realized through state-of-the-art aberration-corrected transmission electron microscopy and spectroscopy. (utexas.edu)
• Her research is focused on the production and structural characterization of metal oxide nanomaterials, primarily for sensor and photocatalysis applications. (selectscience.net)
• Several chemical and physical methods have been reported for the synthesis of metal oxide nanomaterials, including sol-gel, atomic layer deposition, electrospinning, anodization, and sputtering. (selectscience.net)
• In particular, they will impact projects that create advanced quantum sensors, conduct nanowire-based renewable energy metrology, devise chip-scale atomic clocks and nanoscale magnetic devices, and investigate the reliability of nanomaterials. (nist.gov)

Fabrication3

• Discussion of emergent nanoscale properties, atomic and molecular self-assembly and concepts of bottom-up and top-down processing and fabrication. (sunypoly.edu)
• At the Pritzker Nanofabrication Facility , researchers and engineers pursue nanoscale fabrication in a 10,000-square-foot ultra-modern cleanroom. (uchicago.edu)
• This EPSRC funded project (EP/S010246/1) focuses on the experimental studies (nano-fabrication and characterisation) of magnetic topological insulators that are expected to give rise to Quantum Anomalous Hall effect and further coherent spin transport phenomena. (royalholloway.ac.uk)

Spectroscopy3

• The FEI Helios Nanolab DualBeam Focused Ion Beam/Scanning Electron Microscope (SEM), equipped with an energy dispersive X-ray spectroscopy detector (EDX), combines important high-resolution microscopy tools. (pnnl.gov)
• In this work, a series of Nd3+ and Ti4+ co-doped BFO compositions have been studied using a combination of atomic resolution imaging and electron energy loss spectroscopy in STEM, especially concentrating on nanostructures within the Bi0.85Nd0.15Fe0.9Ti0.1O3 composition, as nanostructures can play an important role in the properties of a crystal. (gla.ac.uk)
• NMR spectroscopy is a technique that detects the atomic nuclei inside molecules. (au.dk)

Biophysical1

• An investigation into the potential toxicological effects of fracking sand dust (FSD), collected from unconventional gas drilling sites, has been undertaken, along with characterization of their chemical and biophysical properties. (cdc.gov)

Computational1

• To overcome this problem we develop a method that combines a computational structural modeling (which delivers atomic-resolution structures) with experimental data (which provides information about the population of different states). (lu.se)

Analyze3

• This group uses advanced characterization techniques to analyze the microstructure of AHSS at various length scales, from the atomic and nanoscale to the macroscale. (oulu.fi)
• Although certain samples can withstand high radiation levels, others are very delicate and are destroyed by high intensity of light, making it difficult to analyze them. (azooptics.com)
• Analyze nanoscale crystals using MicroED with a fully integrated diffractometer. (rigaku.com)

Elemental analysis1

• Typical approaches for electrode characterization utilize some combination of multi-scale imaging and elemental analysis techniques. (techbriefs.com)

Magnetic4

• First, it will be demonstrated how well defined 1D atomic chains of magnetic adatoms on superconducting substrates with high spin-orbit coupling can be artificially fabricated using STM-based atom-manipulation techniques. (mrs.org)
• At the microscopic level, atoms and molecules produce electrical and magnetic fields. (cea.fr)
• At our level, in most crystals, the electrical and magnetic properties of the atoms are balanced and cancel each other. (cea.fr)
• The magnetic domain walls determine the level of noise in electronic devices. (cea.fr)

20231

• The 2023 Boyer Lecture series is called 'The Atomic Revolution' and is presented by Professor Michelle Simmons AO, a pioneer in atomic electronics and global leader in quantum computing. (cqc2t.org)

Transmission electron m1

• The combination can reveal internal structure in exquisite detail, and provides an indispensable tool for the preparation of samples for the other analytical techniques such as atom probe and transmission electron microscopy. (nist.gov)

Spatial resolution2

• Local-Electrode Atom Probe (LEAP) devices produce the highest spatial resolution currently available for analyzing specimens at the nanoscale. (nist.gov)
• The atom probe is the only microscope that can achieve 1 part per million resolution in chemistry and effectively single atomic spatial resolution. (nist.gov)

Deposition1

• We will focus on the foundations of vacuum technology used in advance manufacturing and some areas of material characterization, including the definition of vacuum, defining "how much" vacuum is needed, and how concepts, such as "mean free path", have a direct consequence on the nanoscale material deposition. (micronanoeducation.org)

Metrology1

• This program equips students with access to leading edge tools in metrology, lithography - including EUV lithography - and front-end-of-line and back-end-of-line processing, as well as 200mm/300mm wafer facilities and bio-laboratories equipped for areas including molecular biology, biochemistry, toxicology and stem cell technology. (albany.edu)

Nanoscience1

• NMR is a routine technique in chemistry, and is an increasingly important tool in health research, nanoscience and drug design. (au.dk)

Spectroscopic1

• Nanoscale spectroscopic resolution (down to 10 nm) through Tip Enhanced Optical Spectroscopies (Raman and PhotoLuminescence). (horiba.com)

Quantum phenomena1

• Nanoscale Science & Engineering is the application of nanoscale and quantum phenomena in developing solutions to address some of society's most pressing challenges. (albany.edu)

Crystals1

• A new technique can 'sew' two patches of crystals seamlessly together at the atomic level to create atomically-thin fabrics for use in electronic devices. (materialstoday.com)

Quantitative1

• In recent years, focused ion beam scanning electron microscope (FIB-SEM) has been widely adopted in battery research, from interfacial analysis via 2D cross-sectioning to 3D tomography for quantitative characterization and modeling. (techbriefs.com)

Researchers1

• A measurement that is becoming highly prized among researchers involved in nanoscale research, zeta potential is determined through electrophoretic light scattering, or ELS. (rdworldonline.com)

Electron microscope2

• By observing atomic vibrations with a new electron microscope, scientists have been able to measure the nanoscale temperature of hexagonal boron nitride. (materialstoday.com)
• The resulting complex plasmonic interference patterns are recorded with nanoscale resolution in a photoemission electron microscope. (lu.se)

Synthesis1

• In this regard, "the rational design of targeted catalytic functionalities that do not interfere with other functionalities" is one of our priorities to achieve a high level of predictability of catalytic reactions for the synthesis of fine chemicals. (cuni.cz)

Nanostructures1

• Such DNA origami structures are information-bearing nanostructures by nature with well-defined nanoscale geometry. (phys.org)

Graphene1

• S. Sinha, T. Zhu, A. France-Lanord, Y. Sheng, J. C. Grossman, K. Porfyrakis, J. H. Warner, Atomic Structure and Defect Dynamics of Monolayer Lead Iodide Nanodisks with Epitaxial Alignment on Graphene, Nature Communications , Accepted in press (2020). (utexas.edu)

Microscopy tools1

• It represents our continued expansion into new areas of innovation for nanometric microscopy tools for engineers and scientists in industry and research labs. (parksystems.com)

Geometry1

• Knowledge of one aspect inevitably compromises the knowledge of the other, but, by encapsulating a particle within a confined geometry, or space, the energy-level separations within the system naturally react. (upenn.edu)

Spectroscopies1

• Rice University is at the very forefront of research into unconventional superconductors, with a multi-disciplinary team engaged in crystal growth, physical property characterization, optical and neutron spectroscopies, and theoretical analysis. (rice.edu)

Molecules2

• Nanoscale wrinkled patterns reduce the surface roughness and increase the contact area between the membrane surface and water molecules, expanding the steric hindrance between the oil molecules and membrane surface. (nature.com)
• The most important questions in many-body physics can now be addressed with powerful new tools developed to control and characterize gasses of ultracold atoms and molecules. (rice.edu)

Chemistry2

• The focus of this course is on the reasons for doing science, the intellectual and instrumental tools used, the models developed to solve new problems, and the assertion that chemistry has a tremendous effect on your personal life and on the decisions made by society. (beloit.edu)
• Scanning probe methods are used in a wide range of research areas, such as advanced physics, chemistry at the atomic level and applications in biology, studying single cells and viruses. (lu.se)

Particle2

• Horiba Instruments , Irvine, Calif., manufactures a wide range of scientific instruments geared for particle characterization, including those based on laser diffraction. (rdworldonline.com)
• According to Ian Treviranus, the product line manager for Horiba's particle characterization instrument business, the increased capability and popularity of the technique eventually convinced the company to develop their own approach to DLS with zeta potential, which debuted in 2011 in the nanoPartica SZ-100 desktop nanoparticle analyzer. (rdworldonline.com)

Length scales2

• It also addresses engineering challenges that arise from designing and manufacturing systems where the length-scales involved approach atomic dimensions. (albany.edu)
• Examining acoustic behavior at the nano-scale using quantum microscopy reveals details on stress and strain for objects with length scales as small as a few nanometers that are difficult or impossible to obtain using physical and mechanical characterization techniques. (azooptics.com)

Interactions2

• Because of the nature of helium ion-sample interactions , this tool also provides the ability to pattern samples without the limitations of imposed by electron beam techniques thus opening the path to devices of sub-10 nm sizes with sub-15 nm spacing. (nist.gov)
• The density functional theory and physicochemical characterizations demonstrate that the main chains of the microparticles are bent towards Fe 3+ through coordination interactions to create nanoscale wrinkled patterns on smooth microparticle surfaces. (nature.com)

Sensitivity1

• In particular it has a sensitivity to atomic species and location that is unmatched in other analytic instruments. (nist.gov)

Engineers1

• Its mission is to enable nanoscale advances for scientists and engineers solving the world's most pressing problems and pushing the boundaries of scientific discoveries and engineering innovations. (parksystems.com)

Biological4

• It generates images of each atomic ion, even in a liquid solvent, and characterizes the biological reaction without interfering with it. (azooptics.com)
• Nanoclusters of receptors can be further organized hierarchically in the cell membrane at the meso- and micro-levels to exert different biological functions. (ibecbarcelona.eu)
• The integrative understanding of these fundamental biomolecular properties is essential to achieve a comprehensive understanding of biological processes at the nanoscale. (au.dk)
• The association pathway from monomer to oligomer is critical in a range of biological processes and thus it is of a vital importance to elucidate both atomic-resolution structures of intermediates along the pathway as well as the structure of the final state. (lu.se)

Systems4

• Majorana states in atomic-scale magnet-superconductor hybrid systems have recently become of great interest because they can encode topological qubits and ultimately provide a new direction in topological quantum computation [1,2]. (mrs.org)
• Traditional gallium (Ga) FIB-SEM is an effective tool for Li-ion battery research, but its capabilities are limited when evaluating certain advanced battery systems. (techbriefs.com)
• As such, they are seen as a bridge and a potential tool for manipulating systems at a variety of size levels. (rdworldonline.com)
• On the next level carefully selected model systems are studied experimentally. (lu.se)

Research4

• He also serves as Lead-PI on a NIH 'Maximizing Access to Research Careers (MARC) U-STAR award, which provides support for undergraduate students, who are underrepresented in the biomedical sciences to improve their preparation for high-caliber graduate training at the Ph.D. level. (cqc2t.org)
• Information extraction (IE) processes raw texts to produce machine understandable structured information, thus dramatically increasing the accessibility of knowledge through search engines, interactive AI agents, and medical research tools. (usc.edu)
• It provides chemical property information as well as mechanical and topographical data for semiconductor research, failure analysis and defect characterization at an unprecedent high nano resolution. (parksystems.com)
• For all tasks in polymer research, product development, and production quality control, X-ray techniques are core analytical tools. (rigaku.com)

Conventional1

• Computer Aided Desing is a tool of Conventional Machine Design and it is nowadays one of a most visible part of Machine Design because allmost every Machine Design companies have changed their pens and papers for a computers. (oulu.fi)

Science1

• The Department of Nanoscale Science & Engineering (NSE) offers two undergraduate majors, Nanoscale Science and Nanoscale Engineering. (albany.edu)

Techniques4

• Scientists used advanced electron microscopy techniques to study the atomic structure of the surface and interior of a lithium-ion battery electrode. (materialstoday.com)
• Using state-of-the-art microscopy techniques, scientists have discovered that a prototypical 'relaxor' material has an unexpected atomic structure. (materialstoday.com)
• Using techniques of laser and evaporative cooling developed in the atomic physics community, temperatures as low as a billionth of a degree above absolute zero are accessible. (rice.edu)
• Our lines of benchtop products were designed to allow our X-ray techniques to become a routine laboratory methods and teaching tools. (rigaku.com)

Interaction2

• Interaction with extracellular ligands induces receptor clustering at the nanoscale, assembly of the signaling complexes in the cytosol and activation of downstream signaling pathways, regulating cell response. (ibecbarcelona.eu)
• A scheme showing detection of PSA level and glycan identity by the lectin either on PSA from healthy donor (no or weak interaction with lectin) or PCa patient (strong interaction with lectin). (atlasofscience.org)

Undergraduate1

• Though targeted for undergraduate studies, off-line discussions may include ways to adapt to a variety of academic levels. (micronanoeducation.org)

High1

• This size variation affects the gap between its high-energy-level conduction band and low-energy-level valance band. (upenn.edu)

Environments1

• Here we report on initial efforts to evaluate enhanced darkfield microscopy (EDFM) and light scattering Vis-NIR hyperspectral imaging (HSI) as a rapid screening tool for the offline analysis of mixed cellulose ester (MCE) filter media used to collect airborne nanoparticulate from work environments. (cdc.gov)

Semiconductor2

• Photoinduced Charge Transfer from a Semiconductor to a Metal Probed at the Single-Nanoparticle Level. (acs.org)
• Rigaku is a pioneer and leader in designing and manufacturing X-ray based measurement tools for semiconductor manufacturing. (rigaku.com)

Design1

• We are examining how this control can be extended through nanoscale design of a structure in three dimensions. (royalholloway.ac.uk)

Approaches1

• Although traditional synthetic approaches are excellent tools for tuning the chemical composition of zeolite catalysts, they are still unable to control sub-nm characteristics of their active sites. (cuni.cz)

Dimensions1

• A new technique can pinpoint the location of chemical reactions happening inside lithium-ion battery electrodes in three dimensions at the nanoscale level. (materialstoday.com)

Innovation2

• Nanoscale technological innovation as central to the economic growth process will be examined within a historical context leading to an understanding of nanoscale technology evolution in industrial revolution. (sunypoly.edu)
• Emerging new models of innovation by firms and by regions will be explored as well as related measurement tools to better understand the economic and business environment of disruptive nanotechnologies. (sunypoly.edu)

Volumes1

• Thick electrodes have emerged as a practical way to meet the demand for increased battery energy density, but their characterization requires large representative volumes, which are difficult to access with Ga FIB-SEM. (techbriefs.com)

Fundamental1

• Obtaining insight into living organisms at the nanoscale is important to understand the wonders of life at a fundamental level. (au.dk)

Surface2

• Thus, analysis of PSA and glycan identity present on PSA could be performed on the same surface using PSA level indicating PCa (i.e. 10 ng/mL). (atlasofscience.org)
• Here, we show that the ultrathin 2D WSe2 crystallites permit nanoscale spatially controlled coherent excitation of surface plasmon polaritons (SPPs) on smooth Au films. (lu.se)

Concentrations2

• We then tested whether presence or absence of thiaminase could be predicted by evolutionary relationships, trophic level, omega-3 fatty acid concentrations, habitat, climate, invasive potential, and body size. (bvsalud.org)
• Underground miners are exposed to the highest levels of diesel particulate matter (DPM)--with an estimated 34,000 exposed to concentrations 20 to 40 times the threshold limit value proposed by the American Conference of Governmental Industrial Hygienists. (cdc.gov)

Structure2

• The atomic scale structure of the active sites in heterogeneous catalysts is central to their reactivity and selectivity. (nature.com)
• Together, these findings illustrate that the atomic-scale structure of the active sites in bimetallic catalysts has a critical effect on their chemical reactivity and selectivity. (nature.com)

Chemical1

• Sophisticated molecular tools were used in the past to create molecular machines that convert chemical, photonic or electric energy into rotary or linear movements at the nanoscale. (phys.org)

Applications1

• This workshop will also prepare you for upcoming workshops that explore specific applications and nanoHUB simulation tools in more depth. (micronanoeducation.org)