Nome |
# |
Control of end-of-life oxygen-containing groups accumulation in biopolyesters through introduction of crosslinked polysaccharide particles, file e3ad8928-1deb-da0e-e053-3705fe0a2b96
|
1.587
|
Inherently fluorescent polyaniline nanoparticles in a dynamic landscape, file e3ad8916-16e9-da0e-e053-3705fe0a2b96
|
588
|
E-beam crosslinked, biocompatible functional hydrogels incorporating polyaniline nanoparticles, file e3ad8916-1795-da0e-e053-3705fe0a2b96
|
374
|
Studies of network organization and dynamics of e-beam crosslinked PVPs: From macro to nano, file e3ad8916-21a1-da0e-e053-3705fe0a2b96
|
340
|
SELF-ASSEMBLY OF DEGALACTOSYLATED XYLOGLUCAN FROM TAMARIND SEEDS, file e3ad8916-ce64-da0e-e053-3705fe0a2b96
|
338
|
Minimalism in Radiation Synthesis of Biomedical Functional Nanogels, file e3ad8916-219d-da0e-e053-3705fe0a2b96
|
310
|
Development and characterization of an amorphous solid dispersion of furosemide in the form of a sublingual bioadhesive film to enhance bioavailability, file e3ad891b-592e-da0e-e053-3705fe0a2b96
|
291
|
Glutathione-sensitive nanogels for drug release, file e3ad8916-c679-da0e-e053-3705fe0a2b96
|
248
|
A new route for the preparation of flexible skin–core poly(ethylene-co-acrylic
acid)/polyaniline functional hybrids, file e3ad8916-1b95-da0e-e053-3705fe0a2b96
|
238
|
E-beam crosslinked, biocompatible functional hydrogels incorporating polyaniline nanoparticles, file e3ad8916-18b2-da0e-e053-3705fe0a2b96
|
222
|
Agarose/κ-carrageenan-based hydrogel film enriched with natural plant extracts for the treatment of cutaneous wounds, file e3ad8923-e75f-da0e-e053-3705fe0a2b96
|
208
|
Development of injectable and durable kefiran hydro-alcoholic gels, file e3ad8921-4727-da0e-e053-3705fe0a2b96
|
183
|
On the origin of functionalization in one-pot radiation synthesis of nanogels from aqueous polymer solutions, file e3ad8918-b5ab-da0e-e053-3705fe0a2b96
|
156
|
Multi-functional nanogels for tumor targeting and redox-sensitive drug and siRNA delivery, file e3ad891a-3537-da0e-e053-3705fe0a2b96
|
151
|
Data concerning the protein absorption and retention properties of xyloglucan-based hydrogel film, file e3ad891e-306f-da0e-e053-3705fe0a2b96
|
147
|
Comparative studies of the Pschorr reaction in the pyrazole series. Access to the new dibenzo(e,g)pyrazolo(1,5-a)(1,3)diazocine system of pharmaceutical interest, file e3ad8918-0bcf-da0e-e053-3705fe0a2b96
|
144
|
Nanogel-antimiR-31 conjugates affect colon cancer cells behaviour, file e3ad891f-f913-da0e-e053-3705fe0a2b96
|
130
|
Studies of network structure and dynamics of e-beam crosslinked PVPs: From macro to nano, file e3ad8916-5adf-da0e-e053-3705fe0a2b96
|
124
|
In-situ gelling xyloglucan formulations as 3D artificial niche for adipose stem cell spheroids, file e3ad8923-2a93-da0e-e053-3705fe0a2b96
|
123
|
Water-borne Polymeric Nanoparticles for Glutathione-Mediated Intracellular Delivery of Anticancer Drugs., file e3ad8916-58db-da0e-e053-3705fe0a2b96
|
118
|
Injectable xyloglucan hydrogels incorporating spheroids of adipose stem cells for bone and cartilage regeneration, file e3ad8928-264f-da0e-e053-3705fe0a2b96
|
111
|
Control of end-of-life oxygen-containing groups accumulation in biopolyesters through introduction of crosslinked polysaccharide particles, file e3ad8928-2650-da0e-e053-3705fe0a2b96
|
78
|
A multifuctional nanoplatform for drug targeted delivery based on radiation-engineered nanogels, file 96c6f89b-7667-4ffc-84bf-6b32300bd836
|
74
|
Conductive polymer growth onto radiation grafted polyolefines, file e3ad8916-5d3f-da0e-e053-3705fe0a2b96
|
60
|
Gadolinium-chelating nanogels as MR contrast agesnts specifically targeting tumor cells, file e3ad8916-b0ec-da0e-e053-3705fe0a2b96
|
50
|
Hydrogel scaffolds based on k-Carrageenan/xyloglucan blends to host spheroids from human adipose stem cells, file e3ad891f-6a80-da0e-e053-3705fe0a2b96
|
50
|
On the mechanism of radiation synthesis of nanogels, file e3ad891b-a08e-da0e-e053-3705fe0a2b96
|
48
|
Water-borne e-beam crosslinked nanogels as nanomaterials platform for drug delivery, file e3ad8916-c47d-da0e-e053-3705fe0a2b96
|
44
|
Idrogeli intelligenti con sferoidi di cellule staminali adipose per la rigenerazione minimamente invasiva di ossa e cartilagini, file ea0790cb-83e4-4575-b1b2-2e9e4c9a091f
|
37
|
Hydrogel scaffolds blends to host Spheroids from human adipose stem cells, file e3ad8920-7ae2-da0e-e053-3705fe0a2b96
|
34
|
On the nature of macroradicals formed upon radiolysis of aqueous poly(N-vinylpyrrolidone) solutions, file e3ad8921-9be8-da0e-e053-3705fe0a2b96
|
25
|
HYDROGELS WITH ORDER POROSITY AT THE MESO-SCALE FOR SENSING, file e3ad8916-c7cd-da0e-e053-3705fe0a2b96
|
21
|
Carboxylated-xyloglucan and peptide amphiphile co-assembly in wound healing, file e3ad8927-fbbc-da0e-e053-3705fe0a2b96
|
19
|
Smart hydrogels with Spheroids of Adipose stem cells for minimally invasive bone and cartilage regeneration, file e3ad8928-d8c9-da0e-e053-3705fe0a2b96
|
15
|
TEMPERATURE-TRIGGERED MACROSCOPIC GELATION OF IRRADIATED XYLOGLUCANS FOR BIOMEDICAL APPLICATIONS, file e3ad8916-c7b4-da0e-e053-3705fe0a2b96
|
13
|
Hydrothermal aging of carbon reinforced epoxy laminates with nanofibrous mats as toughening interlayers, file e3ad8919-1df5-da0e-e053-3705fe0a2b96
|
10
|
On the mechanism of radiation synthesis of nanogels, file e3ad8919-c0a5-da0e-e053-3705fe0a2b96
|
9
|
The role of molecular oxygen in the formation of radiation-engineered multifunctional nanogels, file e3ad891f-7a17-da0e-e053-3705fe0a2b96
|
9
|
Insulin-nanogels: preliminary study in mouse for the treatment of Alzheimer's disease, file e3ad891b-970d-da0e-e053-3705fe0a2b96
|
8
|
Numerical simulations of the kinetics of pulsed electron beam induced synthesis of nanogels in dilute aqueous polymer solutions, file e3ad891e-61c8-da0e-e053-3705fe0a2b96
|
8
|
Agarose/k-Carrageenan-based hydrogel films enriched with natural extracts for wound healing applications, file e3ad891f-3786-da0e-e053-3705fe0a2b96
|
8
|
E-beam crosslinked nanogels conjugated with monoclonal antibodies in targeting strategies, file e3ad891a-5d8e-da0e-e053-3705fe0a2b96
|
7
|
Multifunctional nanogels from e-beam irradiation of PVP aqueous solutions, only, file e3ad891b-f00a-da0e-e053-3705fe0a2b96
|
7
|
A multifuctional nanoplatform for drug targeted delivery based on radiation-engineered nanogels, file e3ad891e-234f-da0e-e053-3705fe0a2b96
|
7
|
Understanding generation of multifunctional nanogels in chemical-free e-beam irradation synthesis, file e3ad891e-7418-da0e-e053-3705fe0a2b96
|
7
|
Temporal control of xyloglucan self-assembly by radiation-induced degradation, file e3ad891b-f352-da0e-e053-3705fe0a2b96
|
6
|
Nose-to-brain delivery of insulin enhanced by a nanogel carrier, file e3ad891c-79d7-da0e-e053-3705fe0a2b96
|
6
|
Biocompatibility, hemocompatibility and antimicrobial properties of xyloglucan-based hydrogel film for wound healing application, file e3ad891e-561a-da0e-e053-3705fe0a2b96
|
6
|
Radiation-tailored xyloglucan-doxorubicin nanoparticles for cancer therapy, file 3f200962-437e-42d1-9a9a-609053bba5f8
|
5
|
κ-Carrageenan and PVA blends as bioinks to 3D print scaffolds for cartilage reconstruction, file a12f694b-fb39-4d17-ae02-0d01df3d0330
|
5
|
Oligonucleotide-decorated carboxyl-modified PVP nanogels: a new platform for diagnosis and gene-therapy, file e3ad8916-99f8-da0e-e053-3705fe0a2b96
|
5
|
Ionizing radiation-engineered nanogels as insulin nanocarriers for the development of a new strategy for the treatment of Alzheimer's disease, file e3ad8918-bcb0-da0e-e053-3705fe0a2b96
|
5
|
Radiation engineered nanogels as platforms for medical diagnostics and therapeutic nanodevices, file e3ad891a-0595-da0e-e053-3705fe0a2b96
|
5
|
Radiation-engineered multifunctional nanogels: a versatile platform with theranostic capabilities for cancer, file e3ad891e-7255-da0e-e053-3705fe0a2b96
|
5
|
Agarose/k-Carrageenan-based hydrogel films
enriched with natural extracts for wound healing applications, file e3ad891f-5872-da0e-e053-3705fe0a2b96
|
5
|
In-situ gelling xyloglucan formulations as 3D artificial niche for adipose stem cell spheroids, file e3ad8925-8f35-da0e-e053-3705fe0a2b96
|
5
|
Opals infiltrated with a stimuli-responsive hydrogel for ethanol vapor sensing, file e3ad8916-9da3-da0e-e053-3705fe0a2b96
|
4
|
Crosslinking of poly(vinylpyrrolidone) activated by electrogenerated hydroxyl radicals: A first step towards a simple and cheap synthetic route of nanogel vectors, file e3ad8918-bcb3-da0e-e053-3705fe0a2b96
|
4
|
Insulin Nanogels: a New Strategy for the Treatment of Alzheimer’s Disease, file e3ad891a-1832-da0e-e053-3705fe0a2b96
|
4
|
Xyloglucan-based hydrogel films for wound dressing: Structure-property relationships, file e3ad891b-d494-da0e-e053-3705fe0a2b96
|
4
|
Numerical simulations of the kinetics of pulsed electron beam induced synthesis of nanogels in dilute aqueous polymer solutions, file e3ad891e-61c7-da0e-e053-3705fe0a2b96
|
4
|
Injectable hydrogel formulations to host adipose stem cell spheroids for stemness maintenance and bone and cartilage regeneration, file 0ecb1b62-4f16-4f13-91f1-660f94a4469a
|
3
|
Design, synthesis and characterization of a theranostic nanoplatform
for tumor site-specific delivery of doxorubicin, file 3f56597c-31a9-438e-a41f-c1240c3a90d2
|
3
|
k-Carrageenan and PVA blends as 3D printing bioinks for cartilage reconstruction scaffolding, file 789632e2-75b9-4cde-b9b7-40c3d806c875
|
3
|
Recombinant mussel protein Pvfp5β enhances cell adhesion of poly(vinyl alcohol)/k-carrageenan hydrogel scaffolds, file 95306f10-fc11-479f-8e55-0e73f7518bde
|
3
|
Large-scale manufacturing of radiation sculptured therapeutic nanogels, file e3ad8916-50bb-da0e-e053-3705fe0a2b96
|
3
|
Radiation engineered polymer nanocarriers for a new generation of nanoparticles based tumor specific radiopharmaceuticals, file e3ad8916-a5fd-da0e-e053-3705fe0a2b96
|
3
|
FOLATE-DECORATED E-BEAM CROSSLINKED NANOGELS TO ENHANCE UPTAKE BY TUMOR CELLS, file e3ad8916-c827-da0e-e053-3705fe0a2b96
|
3
|
DESIGN AND CHARACTERIZATION OF MUCOADHESIVE SUBLINGUAL FILMS CONTAINING FUROSEMIDE, file e3ad8916-ca96-da0e-e053-3705fe0a2b96
|
3
|
Synthetic and natural polymer nanoparticles as
bio-imaging and therapeutic agent vectors, file e3ad8916-d5d1-da0e-e053-3705fe0a2b96
|
3
|
Radiation-Engineered Functional Nanoparticles in
Aqueous Systems, file e3ad8917-a57f-da0e-e053-3705fe0a2b96
|
3
|
In-situ polymerization of polyaniline in radiation functionalized polypropylene films, file e3ad8918-bcb6-da0e-e053-3705fe0a2b96
|
3
|
Synthesis and characterization of a new insulin conjugated nanogel for biomedical application, file e3ad8918-c75f-da0e-e053-3705fe0a2b96
|
3
|
Temperature-induced self-assembly of degalactosylated xyloglucan at low concentration, file e3ad8919-c582-da0e-e053-3705fe0a2b96
|
3
|
Temporal control of xyloglucan self-assembly into layered structures by radiation-induced degradation, file e3ad8919-fdde-da0e-e053-3705fe0a2b96
|
3
|
Biodistribution of Insulin-Nanogels in Mouse: A Preliminary Study for the Treatment of Alzheimer’s Disease, file e3ad891b-8d5b-da0e-e053-3705fe0a2b96
|
3
|
New insights on the mechanism of PVP nanogels radiation synthesis, file e3ad891b-8d61-da0e-e053-3705fe0a2b96
|
3
|
Xyloglucan-based hydrogel films for the design of "smart" bandages, file e3ad891b-a743-da0e-e053-3705fe0a2b96
|
3
|
Development and characterization of xyloglucan-poly(vinyl alcohol) hydrogel membrane
for wireless smart wound dressings, file e3ad891e-42f8-da0e-e053-3705fe0a2b96
|
3
|
Xyloglucan-based hydrogel film for wound dressing: Structure and biological properties relationships, file e3ad891e-43db-da0e-e053-3705fe0a2b96
|
3
|
Numerical Simulations of Nanogel Synthesis Using Pulsed Electron Beam, file e3ad8920-8193-da0e-e053-3705fe0a2b96
|
3
|
Development of injectable and durable kefiran hydro-alcoholic gels, file e3ad8921-464c-da0e-e053-3705fe0a2b96
|
3
|
Injectable xyloglucan hydrogels incorporating spheroids of adipose stem cells for bone and cartilage regeneration, file e3ad8928-3e07-da0e-e053-3705fe0a2b96
|
3
|
Nanocarriers to targeted terapy: a goal for biomedical applications., file e3ad8916-5c96-da0e-e053-3705fe0a2b96
|
2
|
Large-scale manufacturing of radiation sculptured therapeutic nanogels, file e3ad8916-9f46-da0e-e053-3705fe0a2b96
|
2
|
Preparazione di nanoparticelle di xiloglucano degalattosilato per applicazioni biomediche, file e3ad8916-ab7c-da0e-e053-3705fe0a2b96
|
2
|
Preparazione di nanoparticelle di xiloglucano degalattosilato per applicazioni biomediche, file e3ad8916-ab7d-da0e-e053-3705fe0a2b96
|
2
|
Hydrogel films engineered in a mesoscopically ordered structure and responsive to ethanol vapors, file e3ad8916-ba28-da0e-e053-3705fe0a2b96
|
2
|
FOLATE-DECORATED E-BEAM CROSSLINKED NANOGELS TO ENHANCE UPTAKE BY TUMOR CELLS, file e3ad8916-c826-da0e-e053-3705fe0a2b96
|
2
|
POLYSACCHARIDE-BASED HYDROGELS FOR MYOCARDIUM REMODELING, file e3ad8916-c9c2-da0e-e053-3705fe0a2b96
|
2
|
Conjugation strategies of insulin to nanogels: new hope for nanogels Alzheimer's disease therapy?, file e3ad8916-ee4b-da0e-e053-3705fe0a2b96
|
2
|
Radiation-engineered functionalized nanogels as platform for biomedical nanocarriers and bio-hybrid, hierarchically assembled nanostructures, file e3ad8917-7abf-da0e-e053-3705fe0a2b96
|
2
|
Radiation curing of carbon fibre composites, file e3ad8918-ae28-da0e-e053-3705fe0a2b96
|
2
|
Radiation synthesis of nanogels as therapeutic agent vectors, file e3ad8918-c53a-da0e-e053-3705fe0a2b96
|
2
|
RFID epidermal sensor including hydrogel membranes for wound monitoring and healing, file e3ad8918-c81d-da0e-e053-3705fe0a2b96
|
2
|
Dielectric Characterization of Biocompatible Hydrogels for Application to Epidermal RFID Device, file e3ad8918-d0af-da0e-e053-3705fe0a2b96
|
2
|
null, file e3ad8919-0246-da0e-e053-3705fe0a2b96
|
2
|
Radiation engineering of xyloglucan hydrogels, file e3ad891a-159a-da0e-e053-3705fe0a2b96
|
2
|
Temperature-responsive cellulose-based hydrogels as draw agents in Forward Osmosis, file e3ad891b-8d5c-da0e-e053-3705fe0a2b96
|
2
|
Synthesis of polymer nanogels by electro-Fenton process: investigation of the effect of main operation parameters, file e3ad891b-c382-da0e-e053-3705fe0a2b96
|
2
|
Totale |
6.957 |