Nome |
# |
From 2-D to 0-D Boron Nitride Materials, The Next Challenge, file e1dc1a2c-46e1-1507-e053-3a05fe0ac7a3
|
55
|
Modulating the Optical Properties of Citrazinic Acid through the Monomer-To-dimer Transformation, file e1dc1a2d-d56c-1507-e053-3a05fe0ac7a3
|
22
|
Design of Carbon Dots Photoluminescence through Organo-Functional Silane Grafting for Solid-State Emitting Devices, file e1dc1a2c-cda7-1507-e053-3a05fe0ac7a3
|
16
|
Selective detection of organophosphate through molecularly imprinted GERS-active hybrid organic–inorganic materials, file e1dc1a2d-d4ca-1507-e053-3a05fe0ac7a3
|
11
|
Cerium dioxide nanoparticles did not alter the functional and morphologic characteristics of ram sperm during short-term exposure, file e1dc1a2a-3f12-1507-e053-3a05fe0ac7a3
|
9
|
Exfoliated Graphene into Highly Ordered Mesoporous Titania Films: Highly Performing Nanocomposites from Integrated Processing, file e1dc1a2a-3bb2-1507-e053-3a05fe0ac7a3
|
8
|
IKNO, a user facility for coherent terahertz and UV synchrotron radiation, file e1dc1a2d-0586-1507-e053-3a05fe0ac7a3
|
7
|
The Birth of Fluorescence from Thermally Polymerized Glycine, file e1dc1a2d-9387-1507-e053-3a05fe0ac7a3
|
7
|
Exfoliated Graphene into Highly Ordered Mesoporous Titania Films: Highly Performing Nanocomposites from Integrated Processing, file e1dc1a2a-3bb1-1507-e053-3a05fe0ac7a3
|
6
|
Effect of exposure to CeO2 nanoparticles on ram spermatozoa during storage at 4 °C for 96 hours, file e1dc1a2b-797b-1507-e053-3a05fe0ac7a3
|
6
|
Tuning the phase transition of ZnO thin films through lithography: an integrated bottom-up and top-down processing, file e1dc1a2a-46d3-1507-e053-3a05fe0ac7a3
|
5
|
Thermal-induced phase transitions in self-assembled
mesostructured films studied by small-angle X-ray
scattering, file e1dc1a2d-066b-1507-e053-3a05fe0ac7a3
|
4
|
Carbon dots from citric acid and its intermediates formed by thermal decomposition, file e1dc1a2c-a0bf-1507-e053-3a05fe0ac7a3
|
3
|
Cerium oxide nanoparticles (CeO2 NPs) improve the developmental competence of in vitro-matured prepubertal ovine oocytes, file e1dc1a2c-b0d9-1507-e053-3a05fe0ac7a3
|
3
|
Ceria nanoparticles for the treatment of Parkinsonlike
diseases induced by chronic manganese intoxication, file e1dc1a2a-3f55-1507-e053-3a05fe0ac7a3
|
2
|
Mesoporous Thin Films: Properties and Applications, file e1dc1a2a-681e-1507-e053-3a05fe0ac7a3
|
2
|
Highly durable Graphene-mediated Surface Enhanced Raman Scattering (G-SERS) nanocomposites for molecular detection, file e1dc1a2c-cb7e-1507-e053-3a05fe0ac7a3
|
2
|
Boron Nitride-Titania Mesoporous Film Heterostructures, file e1dc1a2c-cfbd-1507-e053-3a05fe0ac7a3
|
2
|
Mesoporous ordered films via self-assembly: trends and perspectives, file 04996dd2-3f85-4bcc-bc56-a1ee1039dd70
|
1
|
Highly ordered “defect-free” self-assembled hybrid films with a tetragonal mesostructure, file e1dc1a2a-3ad0-1507-e053-3a05fe0ac7a3
|
1
|
3D spatially controlled chemical functionalization on alumina membranes, file e1dc1a2a-3b8a-1507-e053-3a05fe0ac7a3
|
1
|
Nanostructured thin films as surface-enhanced Raman scattering substrates, file e1dc1a2a-3c19-1507-e053-3a05fe0ac7a3
|
1
|
Raman microspectroscopy as a non-invasive tool to assess the vitrification-induced changes of ovine oocyte zona pellucida, file e1dc1a2a-3c68-1507-e053-3a05fe0ac7a3
|
1
|
Hybrid Organic−Inorganic Mesostructured Membranes: Interfaces and Organization at Different Length Scales, file e1dc1a2a-3d28-1507-e053-3a05fe0ac7a3
|
1
|
Self-Organized Nanocrystalline Organosilicates in Organic-Inorganic Hybrid Films, file e1dc1a2a-3d85-1507-e053-3a05fe0ac7a3
|
1
|
Fabrication of mesoporous functionalized arrays by integrating deep X-ray lithography with dip-pen writing, file e1dc1a2a-3da3-1507-e053-3a05fe0ac7a3
|
1
|
Hydrophobic, Antireflective, Self-Cleaning, and Antifogging Sol-Gel Coatings: An Example of Multifunctional Nanostructured Materials for Photovoltaic Cells, file e1dc1a2a-3dc5-1507-e053-3a05fe0ac7a3
|
1
|
Graphene-mediated surface enhanced Raman scattering in silica mesoporous nanocomposite films, file e1dc1a2a-3f6b-1507-e053-3a05fe0ac7a3
|
1
|
FTIR nanobiosensors for Escherichia coli detection, file e1dc1a2a-40fb-1507-e053-3a05fe0ac7a3
|
1
|
Thermal-induced phase transitions in self-assembled mesostructured films studied by small-angle X-ray scattering, file e1dc1a2a-42d1-1507-e053-3a05fe0ac7a3
|
1
|
Writing Self-Assembled Mesostructured Films with In situ Formation of Gold Nanoparticles, file e1dc1a2a-42e0-1507-e053-3a05fe0ac7a3
|
1
|
Sol-Gel Processing of Bi(2)Ti(2)O(7) and Bi(2)Ti(4)O(11) Films with Photocatalytic Activity, file e1dc1a2a-4307-1507-e053-3a05fe0ac7a3
|
1
|
Time resolved IR and X-ray simultaneous spectroscopy: new opportunities for the analysis of fast chemical-physical phenomena in materials science, file e1dc1a2a-435e-1507-e053-3a05fe0ac7a3
|
1
|
Controlling the processing of mesoporous titania films by in-situ FTIR spectroscopy: getting Crystalline Micelles into the Mesopores, file e1dc1a2a-4d60-1507-e053-3a05fe0ac7a3
|
1
|
An Alternative Sol–gel Route for the Preparation of Thin Films in CeO2–TiO2 Binary System, file e1dc1a2a-4ee7-1507-e053-3a05fe0ac7a3
|
1
|
Innovative Composite Films of Chitosan,
Methylcellulose, and Nanoparticles, file e1dc1a2a-585a-1507-e053-3a05fe0ac7a3
|
1
|
Aggregation States of Rhodamine 6G in Mesostructured Silica Films, file e1dc1a2a-5860-1507-e053-3a05fe0ac7a3
|
1
|
Nanocomposite mesoporous ordered films for lab-on-chip intrinsic surface enhanced Raman scattering detection, file e1dc1a2a-609c-1507-e053-3a05fe0ac7a3
|
1
|
Nanocomposite mesoporous ordered films for lab-on-chip intrinsic surface enhanced Raman scattering detection, file e1dc1a2a-609d-1507-e053-3a05fe0ac7a3
|
1
|
IR and X-ray time resolved simultaneous experiments: an opportunity to investigate the dynamics of complex systems and non-equilibrium phenomena using 3rd generation synchrotron radiation sources, file e1dc1a2a-60d1-1507-e053-3a05fe0ac7a3
|
1
|
Pore-confined synthesis of mesoporous nanocrystalline La–Ce phosphate films
for sensing applications, file e1dc1a2a-6138-1507-e053-3a05fe0ac7a3
|
1
|
Hard X-rays meet soft matter: when bottom-up and top-down get along well, file e1dc1a2a-6139-1507-e053-3a05fe0ac7a3
|
1
|
Strain-driven self-rolling of hybrid organic–inorganic
microrolls: interfaces with self-assembled particles, file e1dc1a2a-6199-1507-e053-3a05fe0ac7a3
|
1
|
Simultaneous in situ and Time-Resolved Study of Hierarchical Porous Films Templated by Salt Nanocrystals and Self-Assembled Micelles, file e1dc1a2a-62ad-1507-e053-3a05fe0ac7a3
|
1
|
Top-down patterning of Zeolitic Imidazolate Framework composite thin films by deep X-ray lithography, file e1dc1a2a-6698-1507-e053-3a05fe0ac7a3
|
1
|
Top-down patterning of Zeolitic Imidazolate Framework composite thin films by deep X-ray lithography, file e1dc1a2a-6699-1507-e053-3a05fe0ac7a3
|
1
|
Top-down patterning of Zeolitic Imidazolate Framework composite thin films by deep X-ray lithography, file e1dc1a2a-669a-1507-e053-3a05fe0ac7a3
|
1
|
Hybrid materials with an increased resistance to hard X-rays using fullerenes as radical sponges, file e1dc1a2a-67fc-1507-e053-3a05fe0ac7a3
|
1
|
Release of ceria nanoparticles grafted on organic-inorganic hybrid films for biomedical application, file e1dc1a2a-67fd-1507-e053-3a05fe0ac7a3
|
1
|
Release of ceria nanoparticles grafted on organic-inorganic hybrid films for biomedical application, file e1dc1a2a-67fe-1507-e053-3a05fe0ac7a3
|
1
|
Release of ceria nanoparticles grafted on organic-inorganic hybrid films for biomedical application, file e1dc1a2a-67ff-1507-e053-3a05fe0ac7a3
|
1
|
Hard X-rays and soft-matter: processing of sol-gel films from a top down route, file e1dc1a2a-6e22-1507-e053-3a05fe0ac7a3
|
1
|
Evaporation-Induced Crystallization of Pluronic F127 Studied in Situ by Time-Resolved Infrared Spectroscopy, file e1dc1a2a-9ebc-1507-e053-3a05fe0ac7a3
|
1
|
Anomalous Optical Properties of Citrazinic Acid under Extreme pH Conditions, file e1dc1a2c-5307-1507-e053-3a05fe0ac7a3
|
1
|
Fluorescent carbon dots in solid-state: From nanostructures to functional devices, file e1dc1a2c-8639-1507-e053-3a05fe0ac7a3
|
1
|
Fluorescence-based selective nitrite ion sensing by amino-capped carbon dots, file e1dc1a2c-cc9e-1507-e053-3a05fe0ac7a3
|
1
|
Totale |
208 |