| Nome |
# |
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Evaluation of solubility enhancement, antioxidant activity, and cytotoxicity studies of kynurenic acid loaded cyclodextrin nanosponge, file e27ce42e-e6a5-2581-e053-d805fe0acbaa
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421
|
|
Molecularly imprinted cyclodextrin nanosponges for the controlled delivery of L-DOPA: perspectives for the treatment of Parkinson’s disease, file e27ce42b-1f06-2581-e053-d805fe0acbaa
|
350
|
|
Pyromellitic dianhydride crosslinked cyclodextrin nanosponges for curcumin controlled release; formulation, physicochemical characterization and cytotoxicity investigations, file e27ce42e-e2cb-2581-e053-d805fe0acbaa
|
350
|
|
Ailanthone inhibits cell growth and migration of cisplatin resistant bladder cancer cells through down-regulation of Nrf2, YAP, and c-Myc expression, file e27ce42e-55bd-2581-e053-d805fe0acbaa
|
345
|
|
Drug delivery nanoparticles in treating chemoresistant tumor cells, file e27ce42b-aff1-2581-e053-d805fe0acbaa
|
323
|
|
Effect of the cross-linking density on the swelling and rheological behavior of ester-bridged β-cyclodextrin nanosponges, file e27ce432-d10b-2581-e053-d805fe0acbaa
|
294
|
|
Organo-clays and nanosponges for acquifer bioremediation: Adsorption and degradation of triclopyr, file e27ce426-fb15-2581-e053-d805fe0acbaa
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278
|
|
In Situ Synthesis of MIL-100(Fe) at the Surface of Fe3O4@AC as Highly Efficient Dye Adsorbing Nanocomposite, file e27ce42e-d741-2581-e053-d805fe0acbaa
|
265
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|
Cyclodextrin Monomers and Polymers for Drug Activity Enhancement, file e27ce432-bb42-2581-e053-d805fe0acbaa
|
221
|
|
Dual confinement of sulphur with rGO-wrapped microporous carbon from β-cyclodextrin nanosponges as a cathode material for Li–S batteries, file e27ce42b-96c2-2581-e053-d805fe0acbaa
|
203
|
|
Preparation and characterization of microporous carbon spheres from high amylose pea maltodextrin, file e27ce42c-40c7-2581-e053-d805fe0acbaa
|
196
|
|
Encapsulation of Acyclovir in new carboxylated
cyclodextrin-based nanosponges improves the agent's antiviral efficacy, file e27ce42b-be43-2581-e053-d805fe0acbaa
|
191
|
|
Comparative evaluation of solubility, cytotoxicity and photostability studies of resveratrol and oxyresveratrol loaded nanosponges, file e27ce42f-2599-2581-e053-d805fe0acbaa
|
186
|
|
Synthesis and characterization of a hyper-branched water soluble β-cyclodextrin polymer, file e27ce427-02ea-2581-e053-d805fe0acbaa
|
181
|
|
Cyclic nigerosyl-1,6-nigerose-based nanosponges: An innovative pH and time-controlled nanocarrier for improving cancer treatment, file e27ce42f-43ff-2581-e053-d805fe0acbaa
|
181
|
|
Functionalized dextrin-based nanosponges as effective carriers for the herbicide ailanthone, file e27ce431-af25-2581-e053-d805fe0acbaa
|
161
|
|
α-cyclodextrin and α-cyclodextrin polymers as oxygen nanocarriers to limit hypoxia/reoxygenation injury: Implications from an in vitro model, file e27ce42c-951e-2581-e053-d805fe0acbaa
|
159
|
|
Nutraceutical Concepts and Dextrin‐Based Delivery Systems, file 46b6b1bc-8cd5-43cd-98e5-a6f18b798224
|
156
|
|
Glutathione-responsive cyclodextrin-nanosponges as drug delivery systems for doxorubicin: Evaluation of toxicity and transport mechanisms in the liver, file e27ce42f-c9b9-2581-e053-d805fe0acbaa
|
146
|
|
Micro porous carbon spheres from cyclodextrin nanosponges, file e27ce429-c57b-2581-e053-d805fe0acbaa
|
142
|
|
Nanosponge-cyclodextrins functionalized with oxygen protects H9C2 cells from hypoxia/reoxygenation injury: Implications from an in vitro model, file e27ce42e-133b-2581-e053-d805fe0acbaa
|
138
|
|
Mechanochemical green synthesis of hyper-crosslinked cyclodextrin polymers, file e27ce42f-f6f0-2581-e053-d805fe0acbaa
|
136
|
|
Cyclodextrin-based nanosponges as drug carriers, file e27ce428-0e28-2581-e053-d805fe0acbaa
|
135
|
|
Controlled Release of DEET Loaded on Fibrous Mats from Electrospun PMDA/Cyclodextrin Polymer, file e27ce42d-0e25-2581-e053-d805fe0acbaa
|
128
|
|
In vitro enhanced skin permeation and retention of imiquimod loaded in β-cyclodextrin nanosponge hydrogel, file e27ce42e-2947-2581-e053-d805fe0acbaa
|
105
|
|
Cyclodextrin nanosponges as adsorbent material to remove hazardous pollutants from water: The case of ciprofloxacin, file e27ce435-0bc9-2581-e053-d805fe0acbaa
|
105
|
|
Ailanthone inhibition data on seed germination and seedling growth of Lepidium sativum L. and Raphanus sativus L, file e27ce42e-6272-2581-e053-d805fe0acbaa
|
104
|
|
New poly(β-cyclodextrin)/poly(vinyl alcohol) electrospun sub-micrometric fibers and their potential application for wastewater treatments, file e27ce42f-d5f4-2581-e053-d805fe0acbaa
|
99
|
|
Influence of hydroxypropyl-beta-cyclodextrin on the photostability and antiradical activity of Trolox, file e27ce429-b5ef-2581-e053-d805fe0acbaa
|
93
|
|
Paclitaxel-Loaded Nanosponges Inhibit Growth and Angiogenesis in Melanoma Cell Models, file e27ce42f-209a-2581-e053-d805fe0acbaa
|
91
|
|
Rapid temperature-assisted synthesis of nanoporous γ-cyclodextrin-based metal–organic framework for selective CO2 adsorption, file e27ce432-97e1-2581-e053-d805fe0acbaa
|
90
|
|
Eco-Friendly β-cyclodextrin and Linecaps Polymers for the Removal of Heavy Metals, file e27ce42f-2691-2581-e053-d805fe0acbaa
|
85
|
|
Activity of Ailanthus altissima (Mill.) Swingle Extract as a Potential Bioherbicide for Sustainable Weed Management in Horticulture, file e27ce42f-da5c-2581-e053-d805fe0acbaa
|
84
|
|
Potential of erlotinib cyclodextrin nanosponge complex to enhance solubility, dissolution rate, in vitro cytotoxicity and oral bioavailability, file e27ce434-3589-2581-e053-d805fe0acbaa
|
84
|
|
Catalytic properties of catechol 1,2-dioxygenase from Acinetobacter radioresistens S13 immobilized on nanosponges, file e27ce426-bbaf-2581-e053-d805fe0acbaa
|
82
|
|
Cyclodextrin-based nanosponges: a versatile platform for cancer nanotherapeutics development, file e27ce434-5809-2581-e053-d805fe0acbaa
|
82
|
|
Natural Deep Eutectic Solvents (NADES)- Progress in Polymer Synthesis and Pharmaceutical Application, file 40abbe20-6514-471b-a965-35ac4bf3f994
|
80
|
|
Improvement in the anti-tumor efficacy of doxorubicin nanosponges in in vitro and in mice bearing breast tumor models, file e27ce42f-cfad-2581-e053-d805fe0acbaa
|
80
|
|
Preparation of functionalized cotton fabrics by means of melatonin loaded beta cyclodextrin nanosponges, file e27ce432-a600-2581-e053-d805fe0acbaa
|
80
|
|
Evolution of Cyclodextrin Nanosponges, file e27ce42c-5f35-2581-e053-d805fe0acbaa
|
73
|
|
Improvement in the anti-tumor efficacy of doxorubicin nanosponges in in vitro and in mice bearing breast tumor models, file e27ce42a-d17b-2581-e053-d805fe0acbaa
|
67
|
|
Biological Effect Evaluation of Glutathione-Responsive Cyclodextrin-Based Nanosponges: 2D and 3D Studies, file e27ce42f-a835-2581-e053-d805fe0acbaa
|
67
|
|
One-step sustainable synthesis of cationic high- swelling polymers obtained from starch-derived maltodextrins, file e27ce431-7419-2581-e053-d805fe0acbaa
|
64
|
|
Cyclodextrin nanosponge for the GSH-mediated delivery of Resveratrol in human cancer cells, file e27ce432-ab5f-2581-e053-d805fe0acbaa
|
64
|
|
Enhanced cytotoxic effect of camptothecin nanosponges in anaplastic thyroid cancer cells in vitro and in vivo on orthotopic xenograft tumors, file e27ce42b-846a-2581-e053-d805fe0acbaa
|
62
|
|
Preparation of Microspheres and Monolithic Microporous Carbons from the Pyrolysis of Template-Free Hyper-Crosslinked Oligosaccharides Polymer, file e27ce42f-ff31-2581-e053-d805fe0acbaa
|
61
|
|
In Vitro and In Vivo Therapeutic Evaluation of Camptothecin-Encapsulated β-Cyclodextrin Nanosponges in Prostate Cancer, file e27ce432-559d-2581-e053-d805fe0acbaa
|
61
|
|
Thermal fluctuations in chemically cross-linked polymers of cyclodextrins, file e27ce42d-26a6-2581-e053-d805fe0acbaa
|
58
|
|
Encapsulation of babchi oil in cyclodextrin-based nanosponges: Physicochemical characterization, photodegradation, and in vitro cytotoxicity studies, file e27ce432-5ec7-2581-e053-d805fe0acbaa
|
55
|
|
GSH-targeted nanosponges increase doxorubicin-induced toxicity "in vitro" and "in vivo" in cancer cells with high antioxidant defenses, file e27ce429-1b2c-2581-e053-d805fe0acbaa
|
48
|
|
Sustainable production of curable maltodextrin-based electrospun microfibers, file e27ce434-3e4c-2581-e053-d805fe0acbaa
|
47
|
|
Tuning structural parameters for the optimization of drug delivery performance of cyclodextrin-based nanosponges, file e27ce433-5a13-2581-e053-d805fe0acbaa
|
45
|
|
Cyclodextrins as Anti-inflammatory Agents: Basis, Drugs and Perspectives, file e27ce432-9e1c-2581-e053-d805fe0acbaa
|
41
|
|
Cyclodextrin-Based Nanosponges and Proteins, file ed8c1f60-ff0e-4eae-84c0-d7d67b005e20
|
40
|
|
Cyclodextrin-Based Nanosponges as Perse Antimicrobial Agents Increase the Activity of Natural Antimicrobial Peptide Nisin, file 4443a575-6817-4251-a093-9b9df08d892b
|
39
|
|
β-cyclodextrin-based nanosponges improve 1-MCP efficacy in extending the postharvest quality of cut flowers, file e27ce427-afbb-2581-e053-d805fe0acbaa
|
39
|
|
On the interactions of melatonin/β-cyclodextrin inclusion complex: A novel approach combining efficient semiempirical extended tight-binding (xtb) results with ab initio methods, file e27ce434-7098-2581-e053-d805fe0acbaa
|
39
|
|
Use of 1-methylcylopropene in cyclodextrin-based nanosponges to control grey mould caused by Botrytis cinerea on Dianthus caryophyllus cut flowers, file e27ce426-da28-2581-e053-d805fe0acbaa
|
34
|
|
Nanosponge-encapsulated camptothecin exerts anti-tumor activity in human prostate cancer cells, file e27ce429-c56b-2581-e053-d805fe0acbaa
|
31
|
|
Folate-Targeted Curcumin-Loaded Niosomes for Site-Specific Delivery in Breast Cancer Treatment: In Silico and In Vitro Study, file 77e0297c-566e-4308-a66f-2b51072f0c45
|
27
|
|
Synthesis and characterization of beta cyclodextrin nanosponges for N,N.diethyl-meta-toluamide complexation and theis application on polyester fabrics, file e27ce433-6fcc-2581-e053-d805fe0acbaa
|
27
|
|
Ailanthone from Ailanthus altissima (Mill.) Swingle as potential natural herbicide, file e27ce42e-8828-2581-e053-d805fe0acbaa
|
24
|
|
Strategies to Develop Cyclodextrin-Based Nanosponges for Smart Drug Delivery, file b5aef16a-ee1b-4e27-b339-7ebff5d1fba0
|
23
|
|
A Comparison between the Molecularly Imprinted and Non-Molecularly Imprinted Cyclodextrin-Based Nanosponges for the Transdermal Delivery of Melatonin, file a7aede9f-0dfd-42c5-b770-ab1657c84d87
|
21
|
|
Glutathione/pH-responsive nanosponges enhance strigolactone delivery to prostate cancer cells, file e27ce42e-157f-2581-e053-d805fe0acbaa
|
19
|
|
A physicochemical, thermodynamical, structural and computational evaluation of kynurenic acid/cyclodextrin complexes, file e27ce432-da18-2581-e053-d805fe0acbaa
|
16
|
|
Magnetic Composites of Dextrin-Based Carbonate Nanosponges and Iron Oxide Nanoparticles with Potential Application in Targeted Drug Delivery, file b8e70b26-8692-4aed-b60f-9296e1fa085a
|
15
|
|
Microfibers of microporous carbon obtained from the pyrolysis of electrospun β-cyclodextrin/pyromellitic dianhydride nanosponges, file e27ce42d-ea29-2581-e053-d805fe0acbaa
|
15
|
|
Preliminary assessment of environmental safety (ecosafety) of dextrin-based nanosponges for environmental applications, file 3b95772c-d881-4ff9-bfe6-48ae07285f26
|
14
|
|
Developing Novel Hydroxypropyl-β-Cyclodextrin-Based Nanosponges as Carriers for Anticancer Hydrophobic Agents: Overcoming Limitations of Host-Guest Complexes in a Comparative Evaluation, file 4616cfe2-ed1d-49cd-ae2b-15fbe826da71
|
14
|
|
Sustainable mechanochemical synthesis of β-cyclodextrin polymers by twin screw extrusion, file e27ce432-7aba-2581-e053-d805fe0acbaa
|
14
|
|
Dextrin-Based Nanohydrogels for Rokitamycin Prolonged Topical Delivery, file a2a27c01-be26-40bc-9d1d-e0f88936d5a8
|
12
|
|
One-step facile process to obtain insoluble polysaccharides fibrous mats from electrospinning of water-soluble PMDA/cyclodextrin polymer, file e27ce42c-9b8f-2581-e053-d805fe0acbaa
|
12
|
|
Sustainable N-containing biochars obtained at low temperatures as sorbing materials for environmental application: Municipal biowaste-derived substances and nanosponges case studies, file e27ce42d-6956-2581-e053-d805fe0acbaa
|
12
|
|
Identification of a βCD-Based Hyper-Branched Negatively Charged Polymer as HSV-2 and RSV Inhibitor, file 56bfba17-529b-45b1-beb7-c3027236e796
|
10
|
|
Stabilization and Anticancer Enhancing Activity of the Peptide Nisin by Cyclodextrin-Based Nanosponges against Colon and Breast Cancer Cells, file c8b0e021-4d55-43bc-ad79-2ecd201fd4fa
|
9
|
|
In Vitro and In Vivo Therapeutic Evaluation of Camptothecin-Encapsulated β-Cyclodextrin Nanosponges in Prostate Cancer, file e27ce429-18af-2581-e053-d805fe0acbaa
|
7
|
|
Hyper-Branched Cationic Cyclodextrin Polymers for Improving Plasmid Transfection in 2D and 3D Spheroid Cells, file 71c4bfa8-d11e-4f7a-8714-2efb2a2f17a4
|
6
|
|
Removal of boron from water exploiting cyclodextrin-based and maltodextrin-based adsorbents, file 7f4e7ea1-c197-43b9-85ab-739504bcb24d
|
6
|
|
Nanosponge-encapsulated camptothecin exerts anti-tumor activity in human prostate cancer cells, file e27ce428-32e1-2581-e053-d805fe0acbaa
|
6
|
|
NANOSPUGNE DI CICLODESTRINE, file e27ce42c-e3aa-2581-e053-d805fe0acbaa
|
6
|
|
Hyper-Branched Cyclodextrin-Based Polymers as Anticoagulant Agents: In Vitro and In Vivo Studies, file ed198e5f-8103-497f-8fb0-25484a3d4259
|
6
|
|
Cyclodextrin-Based Nanosponges as a Nanotechnology Strategy for Imiquimod Delivery in Pathological Scarring Prevention and Treatment, file e27ce427-4360-2581-e053-d805fe0acbaa
|
5
|
|
Drug delivery nanoparticles in treating chemoresistant tumor cells, file e27ce42b-7c55-2581-e053-d805fe0acbaa
|
5
|
|
NADES-derived beta cyclodextrin-based polymers as sustainable precursors to produce sub-micrometric cross-linked mats and fibrous carbons, file f2d5414f-8ca7-4775-9f8d-92025173c0c3
|
5
|
|
Intratumoural Delivery of mRNA Loaded on a Cationic Hyper-Branched Cyclodextrin-Based Polymer Induced an Anti-Tumour Immunological Response in Melanoma, file 67326da7-5e92-41f9-b9f2-fb19e65e2d31
|
4
|
|
Dextrin-Based Adsorbents Synthesized via a Sustainable Approach for the Removal of Salicylic Acid from Water, file 97fd99cd-eb26-4de7-befc-c258d298aab0
|
4
|
|
Advances and classification of cyclodextrin-based polymers for food-related issues, file ac44c01b-c96d-46a3-a13a-daa52d44f8bb
|
4
|
|
Nanocarriers Loaded with Oxygen to Improve the Protection of the Heart to be Transplanted, file b27d204b-4d98-469a-84f4-a692f65687e7
|
4
|
|
Cyclodextrin-based nanosponges: a versatile platform for cancer nanotherapeutics development, file e27ce42b-09c7-2581-e053-d805fe0acbaa
|
4
|
|
Ailanthone inhibits cell growth and migration of cisplatin resistant bladder cancer cells through down-regulation of Nrf2, YAP, and c-Myc expression, file e27ce42d-f2e4-2581-e053-d805fe0acbaa
|
4
|
|
Selective enrichment of ailanthone from leaves of ailanthus altissima by tandem reverse phase/molecularly imprinted solid phase extraction, file e27ce42f-b929-2581-e053-d805fe0acbaa
|
4
|
|
Selective enrichment of ailanthone from leaves of ailanthus altissima by tandem reverse phase/molecularly imprinted solid phase extraction, file e27ce42f-bae5-2581-e053-d805fe0acbaa
|
4
|
|
Nanosponges and CPPU: a scoping review and a pretest to assess the potentiality for shelflife prolongation of cut carnations, file 3bb47e6c-b7aa-4be4-925c-041b2a4b4749
|
3
|
|
Oxygen Nanocarriers for Improving Cardioplegic Solution Performance: Physico-Chemical Characterization, file 4bacc2d2-cf07-4a19-8ad0-c309a37168c1
|
3
|
|
Transport properties of ibuprofen encapsulated in cyclodextrin nanosponge hydrogels: A proton HR-MAS NMR spectroscopy study, file 6973945f-3992-4abc-8ec5-1c7202bb3bba
|
3
|
|
Cyclodextrins for Lithium Batteries Applications, file 8865701e-7605-48bf-9819-2bd4bb56bf7b
|
3
|
|
Attività di complessi nanospugna-fitoregolatori nella radicazione dimicrogermogli di Passiflora spp, file e27ce426-b104-2581-e053-d805fe0acbaa
|
3
|
|
Cyclodextrin nanosponges as effective gas carriers, file e27ce426-ddde-2581-e053-d805fe0acbaa
|
3
|
|
Encapsulation of Acyclovir in new carboxylated
cyclodextrin-based nanosponges improves the agent's antiviral efficacy, file e27ce426-e5a2-2581-e053-d805fe0acbaa
|
3
|
| Totale |
8.054 |