about
Magnetite morphology and life on MarsPrecession electron diffraction - a topical reviewStructural and Optical Properties of Discrete Dendritic Pt Nanoparticles on Colloidal Au Nanoprisms.Resonances of nanoparticles with poor plasmonic metal tips.Large-scale ordering of nanoparticles using viscoelastic shear processing.Vacuum template synthesis of multifunctional nanotubes with tailored nanostructured wallsElectron tomography and holography in materials scienceElectron tomography provides a direct link between the Payne effect and the inter-particle spacing of rubber compositesNanotomography in the chemical, biological and materials sciences3D imaging of nanomaterials by discrete tomographyLearning from nature to improve the heat generation of iron-oxide nanoparticles for magnetic hyperthermia applications.Scanning precession electron tomography for three-dimensional nanoscale orientation imaging and crystallographic analysis.Off-axis electron holography of electrostatic potentials in unbiased and reverse biased focused ion beam milled semiconductor devices.Conventional and back-side focused ion beam milling for off-axis electron holography of electrostatic potentials in transistors.High-resolution three-dimensional imaging of dislocations.Reducing the missing wedge: High-resolution dual axis tomography of inorganic materials.Fabrication and characterization of TiN-Ag nano-dice.Electron tomography of III-V quantum dots using dark field 002 imaging conditions.Using highly accurate 3D nanometrology to model the optical properties of highly irregular nanoparticles: a powerful tool for rational design of plasmonic devices.Extended ptychography in the transmission electron microscope: possibilities and limitations.Three-dimensional morphology of iron oxide nanoparticles with reactive concave surfaces. A compressed sensing-electron tomography (CS-ET) approach.Low voltage STEM imaging of multi-walled carbon nanotubes.Measurement of molecular motion in organic semiconductors by thermal diffuse electron scattering.A new approach to the investigation of nanoparticles: electron tomography with compressed sensing.Finite element simulations of electrostatic dopant potentials in thin semiconductor specimens for electron holography.Enhanced quantification for 3D SEM-EDS: using the full set of available X-ray linesAn endogenous nanomineral chaperones luminal antigen and peptidoglycan to intestinal immune cells.Laser treatment of Ag@ZnO nanorods as long-life-span SERS surfaces.Multicomponent signal unmixing from nanoheterostructures: overcoming the traditional challenges of nanoscale X-ray analysis via machine learning.The Dark Side of EDX Tomography: Modeling Detector Shadowing to Aid 3D Elemental Signal Analysis.High-resolution scanning precession electron diffraction: Alignment and spatial resolution.Progress and opportunities in EELS and EDS tomography.Mapping the electrical properties of semiconductor junctions--the electron holographic approach.Recent advances in the application of electron tomography to materials chemistry.Gold and iodine diffusion in large area perovskite solar cells under illumination.Denoising time-resolved microscopy image sequences with singular value thresholding.Compressed sensing electron tomography of needle-shaped biological specimens--Potential for improved reconstruction fidelity with reduced dose.Sub-nanometer surface chemistry and orbital hybridization in lanthanum-doped ceria nano-catalysts revealed by 3D electron microscopy.Crystal Face Distributions and Surface Site Densities of Two Synthetic Goethites: Implications for Adsorption Capacities as a Function of Particle Size.Synthetic mimetics of the endogenous gastrointestinal nanomineral: Silent constructs that trap macromolecules for intracellular delivery.
P50
Q24555094-87F1AD34-3DF1-4E8D-9939-102269AE5DEDQ27003515-13DB5E56-F074-4C8E-A4DB-0F604C2B7364Q27301263-9788498A-B9A2-4B0F-BC80-56160007D388Q27304766-D485C4E4-BD74-445D-99E2-64868DC32E6EQ27316067-611CF74B-32A7-4DC0-9AB4-E68B80E7D5E5Q27350216-EA2FC6D8-2E32-408C-8EB8-F9A7B314AE2FQ28239048-542E4E64-5265-41EE-AC3C-2092DA3F0D78Q28650203-9DE88569-97D5-46AE-AB20-055E6FC0F47DQ29542179-AFEE3A3D-4266-49DF-A4AC-3276F273E4BEQ29543166-73C8A071-E2F6-4980-A114-BD0CC671DEE8Q30538690-58787D3E-7D1A-4B4B-88F0-A0CC82B89C1AQ30653566-2C6DD580-9CD3-4D4B-9224-97D65F4BBE20Q31064667-B438ACF7-B7A2-4050-8660-FD64B470F5CEQ33213028-96C162F1-70E3-4EAA-80DB-06D00893D3FAQ33251277-E18406EE-1B58-4221-A671-2D10BDDF6AD4Q33252975-6139E0AD-718B-4DAB-BCB3-34C0EC072A37Q33397645-D7E2BED9-67AF-45F8-8B06-192648666A0FQ33526027-5D71B4E5-8040-4939-AC37-AAE38930BA5AQ33570884-DA5C5555-BEA8-43E6-96BE-B1079FC13A0FQ33956206-4AAFEE36-B551-4496-B121-5D314DDF0FD6Q34032223-1ECE288B-DFC4-40F2-AD6C-8210944B1586Q34088829-2C0E4865-0F80-4D19-A510-E2C32292E0F2Q34360260-048168DA-7A6D-4B8D-82B0-3DAFE09963FEQ34471289-EFD76C1A-4646-4738-BDA1-C3B1400EBD4AQ34953759-61F10E71-24C7-4FB4-8701-A575067461D0Q35475940-A8E8F6B2-9B6D-40AF-A637-98C544A4F5A1Q35505771-0036D3F1-4DF9-48AE-9894-8E4D7B3E05AAQ35540876-EA93B4F0-F748-46A4-824E-312CCEE27CABQ35575061-030C4FA7-3654-4E8D-AD4A-7349176F8293Q35581690-2A110105-C646-44DD-9405-5A59D8BE6793Q36237405-6705EE95-1085-4D5E-87B3-79D3E9CE2822Q36297174-B64F32AA-1290-4D8A-9FC7-C0584FCCD9C3Q37222439-390D23E2-C661-4CB0-B12E-086667029AC3Q38035018-587E1DE4-27ED-49DF-8A5D-C6D9ADFC9B75Q38874471-862F582C-D19F-42CA-8C56-B1E20EDEAF5BQ39709353-62390175-F95A-457F-8201-9D60AB273C42Q40336866-4844D87F-5403-4CA4-8FF0-6CF4C721441DQ41020122-9A064E47-7AC0-4E6D-B37E-FBAA425A243BQ41596808-D7BC4E88-97AB-4FC9-8329-FAD631CD0FAAQ41963438-4AED942B-17B9-4E38-BDEC-FD26C53BF8D1
P50
description
researcher ORCID ID = 0000-0002-6817-458X
@en
name
Paul A Midgley
@ast
Paul A Midgley
@en
Paul A Midgley
@es
Paul A Midgley
@nl
type
label
Paul A Midgley
@ast
Paul A Midgley
@en
Paul A Midgley
@es
Paul A Midgley
@nl
prefLabel
Paul A Midgley
@ast
Paul A Midgley
@en
Paul A Midgley
@es
Paul A Midgley
@nl
P1153
7006353722
P31
P496
0000-0002-6817-458X