scholarly article | Q13442814 |
P356 | DOI | 10.1002/SMLL.201501348 |
P698 | PubMed publication ID | 26584451 |
P2093 | author name string | Jurriaan Huskens | |
Carmen Stoffelen | |||
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Polycation-siRNA nanoparticles can disassemble at the kidney glomerular basement membrane. | Q35778918 | ||
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Gene therapy progress and prospects: non-viral gene therapy by systemic delivery. | Q36585761 | ||
Biopolymer-based nanoparticles for drug/gene delivery and tissue engineering. | Q36590092 | ||
Multivalent interactions at interfaces | Q36605650 | ||
Antimicrobial and anti-inflammatory activity of chitosan-alginate nanoparticles: a targeted therapy for cutaneous pathogens | Q36780824 | ||
Arginine clustering on calix[4]arene macrocycles for improved cell penetration and DNA delivery | Q36815546 | ||
New-concept chemotherapy by nanoparticles of biodegradable polymers: where are we now? | Q36918000 | ||
On-demand drug release system for in vivo cancer treatment through self-assembled magnetic nanoparticles | Q37114971 | ||
Correlating preclinical animal studies and human clinical trials of a multifunctional, polymeric nanoparticle | Q37173162 | ||
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Polymer and biopolymer mediated self-assembly of gold nanoparticles | Q37258260 | ||
Review of health safety aspects of nanotechnologies in food production | Q37332472 | ||
Impact of nanotechnology on drug delivery. | Q37389440 | ||
Nanoparticles and their applications in cell and molecular biology | Q37397058 | ||
Cyclodextrin-based supramolecular systems for drug delivery: recent progress and future perspective | Q37454370 | ||
Engineered nanoscaled polyplex gene delivery systems | Q37454944 | ||
Synthesis of β-cyclodextrin containing copolymer via "click" chemistry and its self-assembly in the presence of guest compounds | Q37483491 | ||
Design and development of IT-101, a cyclodextrin-containing polymer conjugate of camptothecin | Q37580087 | ||
Recent advances and future directions in amphiphilic cyclodextrin nanoparticles | Q37586465 | ||
Cyclodextrin-based polymeric materials: synthesis, properties, and pharmaceutical/biomedical applications. | Q37634490 | ||
Chitosan based polyelectrolyte complexes as potential carrier materials in drug delivery systems | Q37755989 | ||
Directed self-assembly of nanoparticles. | Q37766843 | ||
Chemical complexity--supramolecular self-assembly of synthetic and biological building blocks in water | Q37768686 | ||
Engineered hydrogen-bonded polymer multilayers: from assembly to biomedical applications | Q37794818 | ||
Molecular and supramolecular dynamics of hybrid organic-inorganic interfaces for the rational construction of advanced hybrid nanomaterials | Q37822288 | ||
Cyclodextrin-based inclusion complexation bridging supramolecular chemistry and macromolecular self-assembly | Q37846113 | ||
Layer-by-layer self-assembled shells for drug delivery | Q37867740 | ||
Engineered multifunctional nanocarriers for cancer diagnosis and therapeutics | Q37885883 | ||
Pillar[5]arenes: fascinating cyclophanes with a bright future | Q37909052 | ||
Versatility of cyclodextrins in self-assembly systems of amphiphiles | Q37916866 | ||
Host-guest sensing by calixarenes on the surfaces | Q37922610 | ||
Polymersomes for drug delivery: design, formation and characterization | Q37948625 | ||
Supramolecular block copolymers with cucurbit[8]uril in water | Q46622558 | ||
High-relaxivity magnetic resonance imaging (MRI) contrast agent based on supramolecular assembly between a gadolinium chelate, a modified dextran, and poly-beta-cyclodextrin. | Q46666311 | ||
para-Bridged symmetrical pillar[5]arenes: their Lewis acid catalyzed synthesis and host-guest property | Q46689261 | ||
Ternary complex formation in aqueous solution between a beta-cyclodextrin polymer, a cationic surfactant and DNA. | Q46770685 | ||
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Recognition-induced transformation of microspheres into vesicles: morphology and size control. | Q47401307 | ||
Nomenclature for synthetic gene delivery systems | Q48775966 | ||
Polyelectrolyte complexes from polysaccharides: formation and stoichiometry monitoring | Q50464687 | ||
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pH responsive supramolecular prodrug micelles based on cucurbit[8]uril for intracellular drug delivery. | Q51069602 | ||
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Host-guest complexation driven dynamic supramolecular self-assembly. | Q51280490 | ||
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Fuzzy Nanoassemblies: Toward Layered Polymeric Multicomposites | Q55966433 | ||
Gum ghatti–chitosan polyelectrolyte nanoparticles: Preparation and characterization | Q56027210 | ||
Light-Responsive Capture and Release of DNA in a Ternary Supramolecular Complex | Q57341810 | ||
Multi-Responsive Supramolecular Double Hydrophilic Diblock Copolymer Driven by Host-Guest Inclusion Complexation between β-Cyclodextrin and Adamantyl Moieties | Q57342895 | ||
Spontaneous formation of temperature-responsive assemblies by molecular recognition of a β-cyclodextrin-containing block copolymer and poly(N-isopropylacrylamide) | Q57363414 | ||
Fabrication of dual-responsive micelles based on the supramolecular interaction of cucurbit[8]uril | Q57364303 | ||
Phosphatase-responsive amphiphilic calixarene assembly | Q57364890 | ||
Well-defined nano-sunflowers formed by self-assembly of a rod-coil amphiphile in water and their morphology transformation based on a water-soluble pillar[5]arene | Q57368019 | ||
A bola-type supra-amphiphile constructed from a water-soluble pillar[5]arene and a rod–coil molecule for dual fluorescent sensing | Q57368368 | ||
The Supramolecular Chemistry of Organic–Inorganic Hybrid Materials | Q57401273 | ||
Self-assembly of amphiphilic calixarenes and resorcinarenes in water | Q57880814 | ||
Self-assembly of nanoparticles into structured spherical and network aggregates | Q59060035 | ||
Characterization of Self-Assembled Polyelectrolyte Complex Nanoparticles Formed from Chitosan and Pectin | Q59197558 | ||
Interconnective Host−Guest Complexation of β-Cyclodextrin−Calix[4]arene Couples | Q60176097 | ||
Gadolinium loaded nanoparticles in theranostic magnetic resonance imaging | Q38004265 | ||
Self-assembled multivalency: dynamic ligand arrays for high-affinity binding | Q38017997 | ||
Multivalency as a chemical organization and action principle | Q38041060 | ||
Nanoparticle arrays on surfaces for electronic, optical, and sensor applications | Q38108570 | ||
Amphiphiles in aqueous solution: well beyond a soap bubble | Q38123965 | ||
Host-guest supramolecular nanosystems for cancer diagnostics and therapeutics | Q38139328 | ||
Triggered Nanoparticles as Therapeutics. | Q38155500 | ||
Polyelectrolyte multilayered assemblies in biomedical technologies | Q38189251 | ||
Macrocyclic glycoclusters. Self-aggregation and phosphate-induced agglutination behaviors of calix[4]resorcarene-based quadruple-chain amphiphiles with a huge oligosaccharide pool. | Q38358957 | ||
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Nano-Assemblies of Modified Cyclodextrins and Their Complexes with Guest Molecules: Incorporation in Nanostructured Membranes and Amphiphile Nanoarchitectonics Design | Q39201356 | ||
Cholinesterase-responsive supramolecular vesicle. | Q39333443 | ||
Nanoparticles for gene delivery | Q39427759 | ||
In vivo treatment of tumors using host-guest conjugated nanoparticles functionalized with doxorubicin and therapeutic gene pTRAIL. | Q39444114 | ||
Advanced materials for co-delivery of drugs and genes in cancer therapy | Q39513734 | ||
Cationic supramolecular nanoparticles for co-delivery of gene and anticancer drug. | Q39563868 | ||
A cationic prodrug/therapeutic gene nanocomplex for the synergistic treatment of tumors | Q39566105 | ||
A digital microfluidic droplet generator produces self-assembled supramolecular nanoparticles for targeted cell imaging | Q39646050 | ||
Photothermal effects of supramolecularly assembled gold nanoparticles for the targeted treatment of cancer cells | Q39714970 | ||
Preorganized, macromolecular, gene-delivery systems | Q39868196 | ||
Factors influencing the transfection efficiency of ultra low molecular weight chitosan/hyaluronic acid nanoparticles | Q39886214 | ||
Polymeric tubulysin-peptide nanoparticles with potent antitumor activity | Q39899587 | ||
Development and characterization of new cyclodextrin polymer-based DNA delivery systems | Q39909331 | ||
Macrocyclic nonviral vectors: high cell transfection efficiency and low toxicity in a lower rim guanidinium calix[4]arene | Q39947905 | ||
Polycationic beta-cyclodextrin "click clusters": monodisperse and versatile scaffolds for nucleic acid delivery | Q40114051 | ||
PEGylation significantly affects cellular uptake and intracellular trafficking of non-viral gene delivery particles | Q40544301 | ||
Transferrin-Containing, Cyclodextrin Polymer-Based Particles for Tumor-Targeted Gene Delivery | Q40615593 | ||
Synthesis of linear, beta-cyclodextrin-based polymers and their camptothecin conjugates | Q40634339 | ||
Structural effects of carbohydrate-containing polycations on gene delivery. 1. Carbohydrate size and its distance from charge centers | Q40677812 | ||
Development of a nonviral gene delivery vehicle for systemic application | Q40732185 | ||
Effects of structure of beta-cyclodextrin-containing polymers on gene delivery | Q40811401 | ||
New class of polymers for the delivery of macromolecular therapeutics | Q40917770 | ||
Cyclodextrin-based targeting strategies for tumor treatment | Q41195619 | ||
A supramolecular approach for preparation of size-controlled nanoparticles | Q41332964 | ||
Polymeric core-shell assemblies mediated by host-guest interactions: versatile nanocarriers for drug delivery. | Q41762056 | ||
Effect of pendant group on pDNA delivery by cationic-β-cyclodextrin:alkyl-PVA-PEG pendant polymer complexes | Q41886106 | ||
P433 | issue | 1 | |
P921 | main subject | nanoparticle | Q61231 |
P304 | page(s) | 96-119 | |
P577 | publication date | 2015-11-19 | |
P1433 | published in | Small | Q3486838 |
P1476 | title | Soft Supramolecular Nanoparticles by Noncovalent and Host-Guest Interactions | |
P478 | volume | 12 |
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