| scholarly article | Q13442814 |
| P6179 | Dimensions Publication ID | 1034391811 |
| P356 | DOI | 10.1038/NNANO.2009.241 |
| P2888 | exact match | https://scigraph.springernature.com/pub.10.1038/nnano.2009.241 |
| P698 | PubMed publication ID | 19809452 |
| P50 | author | Maurizio Prato | Q27922314 |
| Kostas Kostarelos | Q43062255 | ||
| P2093 | author name string | A Bianco | |
| M Prato | |||
| P2860 | cites work | Inhalation vs. aspiration of single-walled carbon nanotubes in C57BL/6 mice: inflammation, fibrosis, oxidative stress, and mutagenesis | Q23909387 |
| Carbon nanotubes as photoacoustic molecular imaging agents in living mice. | Q24657130 | ||
| Cellular uptake of functionalized carbon nanotubes is independent of functional group and cell type | Q81697625 | ||
| Carbon-nanotube shape and individualization critical for renal excretion | Q81717393 | ||
| Translocation and fate of multi-walled carbon nanotubes in vivo | Q92081316 | ||
| Mammalian pharmacokinetics of carbon nanotubes using intrinsic near-infrared fluorescence | Q24676577 | ||
| Helical microtubules of graphitic carbon | Q25939001 | ||
| Carbon nanotube-enhanced thermal destruction of cancer cells in a noninvasive radiofrequency field | Q28254710 | ||
| In vivo biocompatibility of ultra-short single-walled carbon nanotube/biodegradable polymer nanocomposites for bone tissue engineering | Q28283264 | ||
| PET imaging of soluble yttrium-86-labeled carbon nanotubes in mice | Q28469301 | ||
| Carbon nanotubes introduced into the abdominal cavity of mice show asbestos-like pathogenicity in a pilot study | Q29547366 | ||
| Pulmonary and systemic immune response to inhaled multiwalled carbon nanotubes | Q29615531 | ||
| Induction of mesothelioma in p53+/- mouse by intraperitoneal application of multi-wall carbon nanotube | Q29615576 | ||
| Inhaled multiwalled carbon nanotubes potentiate airway fibrosis in murine allergic asthma | Q29615715 | ||
| Single-shell carbon nanotubes of 1-nm diameter | Q30040137 | ||
| Carbon Nanotubes in Biology and Medicine: In vitro and in vivo Detection, Imaging and Drug Delivery | Q30483216 | ||
| Targeted killing of cancer cells in vivo and in vitro with EGF-directed carbon nanotube-based drug delivery. | Q30486828 | ||
| Comparison of analytical techniques for purity evaluation of single-walled carbon nanotubes | Q34401158 | ||
| Tissue biodistribution and blood clearance rates of intravenously administered carbon nanotube radiotracers | Q34480119 | ||
| Chemistry of carbon nanotubes | Q36415731 | ||
| Circulation and long-term fate of functionalized, biocompatible single-walled carbon nanotubes in mice probed by Raman spectroscopy | Q36446288 | ||
| Drug delivery with carbon nanotubes for in vivo cancer treatment | Q36925878 | ||
| Functionalized carbon nanotubes in drug design and discovery | Q36941805 | ||
| Antitumor activity and prolonged survival by carbon-nanotube-mediated therapeutic siRNA silencing in a human lung xenograft model. | Q39869517 | ||
| Carbon nanotubes conjugated to tumor lysate protein enhance the efficacy of an antitumor immunotherapy | Q39948212 | ||
| Tumor targeting with antibody-functionalized, radiolabeled carbon nanotubes | Q40112405 | ||
| Multimodal optical sensing and analyte specificity using single-walled carbon nanotubes | Q42803522 | ||
| Immunization with peptide-functionalized carbon nanotubes enhances virus-specific neutralizing antibody responses | Q45710607 | ||
| A pilot toxicology study of single-walled carbon nanotubes in a small sample of mice | Q46119384 | ||
| Immunological profile of a Plasmodium vivax AMA-1 N-terminus peptide-carbon nanotube conjugate in an infected Plasmodium berghei mouse model | Q46140366 | ||
| Long-term accumulation and low toxicity of single-walled carbon nanotubes in intravenously exposed mice | Q46400509 | ||
| Enhanced chondrocyte densities on carbon nanotube composites: the combined role of nanosurface roughness and electrical stimulation | Q46815088 | ||
| Carbon nanotube coating improves neuronal recordings | Q47431764 | ||
| Biodistribution of carbon single-wall carbon nanotubes in mice. | Q51552448 | ||
| Carbon Nanotubes | Q59333720 | ||
| DNA-assisted dispersion and separation of carbon nanotubes | Q73263504 | ||
| Delivery of telomerase reverse transcriptase small interfering RNA in complex with positively charged single-walled carbon nanotubes suppresses tumor growth | Q80129040 | ||
| Multiwalled carbon nanotube-doxorubicin supramolecular complexes for cancer therapeutics | Q80478737 | ||
| Single-walled carbon nanotubes can induce pulmonary injury in mouse model | Q80563270 | ||
| Potential uses of carbon nanotubes in the medical field: how worried should patients be? | Q80836258 | ||
| Tissue histology and physiology following intravenous administration of different types of functionalized multiwalled carbon nanotubes | Q80974280 | ||
| The long and short of carbon nanotube toxicity | Q81606953 | ||
| In vivo biodistribution and highly efficient tumour targeting of carbon nanotubes in mice | Q81697594 | ||
| P433 | issue | 10 | |
| P921 | main subject | carbon nanotube | Q1778729 |
| P304 | page(s) | 627-633 | |
| P577 | publication date | 2009-09-27 | |
| P1433 | published in | Nature Nanotechnology | Q920399 |
| P1476 | title | Promises, facts and challenges for carbon nanotubes in imaging and therapeutics | |
| P478 | volume | 4 |
| Q60158562 | A Hetero-Bifunctional Spacer for the Smart Engineering of Carbon-Based Nanostructures |
| Q37897524 | A brief summary of carbon nanotubes science and technology: a health and safety perspective |
| Q37587883 | A dioxaborine cyanine dye as a photoluminescence probe for sensing carbon nanotubes |
| Q37206530 | A dual wavelength-activatable gold nanorod complex for synergistic cancer treatment |
| Q28389709 | A functionalized single-walled carbon nanotube-induced autophagic cell death in human lung cells through Akt-TSC2-mTOR signaling |
| Q30586290 | A graphene quantum dot photodynamic therapy agent with high singlet oxygen generation |
| Q91241502 | A sensing mechanism for the detection of carbon nanotubes using selective photoluminescent probes based on ionic complexes with organic dyes |
| Q34910276 | Accelerated killing of cancer cells using a multifunctional single-walled carbon nanotube-based system for targeted drug delivery in combination with photothermal therapy |
| Q92909225 | Advancement in Photothermal Effect of Carbon Nanotubes by Grafting of Poly(amidoamine) and Deposition of CdS Nanocrystallites |
| Q37929553 | Advances in cancer therapy through the use of carbon nanotube-mediated targeted hyperthermia |
| Q38123687 | Advancing musculoskeletal research with nanoscience. |
| Q30956515 | Amalgamation of complex iron(III) ions and iron nanoclusters with MWCNTs as a route to potential T2 MRI contrast agents. |
| Q59128849 | An Immunologically Modified Nanosystem Based on Noncovalent Binding Between Single-Walled Carbon Nanotubes and Glycated Chitosan |
| Q95853636 | An In Vitro Study on the Cytotoxicity and Genotoxicity of Silver Sulfide Quantum Dots Coated with Meso-2,3-dimercaptosuccinic Acid |
| Q38288371 | An Integrin-Targeting RGDK-Tagged Nanocarrier: Anticancer Efficacy of Loaded Curcumin |
| Q34148210 | Antitumor immunologically modified carbon nanotubes for photothermal therapy |
| Q37827735 | Barriers to non-viral vector-mediated gene delivery in the nervous system |
| Q34411419 | Bio-mimetic nanostructure self-assembled from Au@Ag heterogeneous nanorods and phage fusion proteins for targeted tumor optical detection and photothermal therapy |
| Q61811023 | Biological Response to Carbon-Family Nanomaterials: Interactions at the Nano-Bio Interface |
| Q47981832 | Biological Surface Adsorption Index of Nanomaterials: Modelling Surface Interactions of Nanomaterials with Biomolecules |
| Q84272273 | Biomedical materials: Nanoscale radiosurgery |
| Q28481630 | Biosafety of non-surface modified carbon nanocapsules as a potential alternative to carbon nanotubes for drug delivery purposes |
| Q40365248 | Boron nitride nanotubes and nanoplatelets as reinforcing agents of polymeric matrices for bone tissue engineering |
| Q28396571 | Building an ethical foundation for first-in-human nanotrials |
| Q26750890 | Can Carbon Nanotubes Deliver on Their Promise in Biology? Harnessing Unique Properties for Unparalleled Applications |
| Q26830028 | Cancer nanotheranostics: improving imaging and therapy by targeted delivery across biological barriers |
| Q41854865 | Carbon Nanotubes Filled with Ferromagnetic Materials |
| Q30359017 | Carbon Nanotubes as an Effective Opportunity for Cancer Diagnosis and Treatment. |
| Q38620265 | Carbon Nanotubes: Solution for the Therapeutic Delivery of siRNA? |
| Q39203390 | Carbon and fullerene nanomaterials in plant system |
| Q30392147 | Carbon nanomaterials combined with metal nanoparticles for theranostic applications |
| Q38136376 | Carbon nanotubes as a novel tool for vaccination against infectious diseases and cancer. |
| Q28392532 | Carbon nanotubes as vaccine scaffolds |
| Q37557801 | Carbon nanotubes in hyperthermia therapy |
| Q85052793 | Carbon nanotube‐coupled cell adhesion peptides are non‐immunogenic: a promising step toward new biomedical devices |
| Q28393643 | Cell entry of one-dimensional nanomaterials occurs by tip recognition and rotation |
| Q23917422 | Cell permeability, migration, and reactive oxygen species induced by multiwalled carbon nanotubes in human microvascular endothelial cells |
| Q93271480 | Cellular Toxicity Study of Silicon Nanowires |
| Q28396368 | Cognitive deficits and decreased locomotor activity induced by single-walled carbon nanotubes and neuroprotective effects of ascorbic acid |
| Q33964986 | Combining portable Raman probes with nanotubes for theranostic applications |
| Q84353255 | Complement monitoring of carbon nanotubes |
| Q59092478 | Controlled nanotube reactions |
| Q28386699 | Convergence of nanotechnology and cancer prevention: are we there yet? |
| Q37592076 | Co₉ Se₈ nanoplates as a new theranostic platform for photoacoustic/magnetic resonance dual-modal-imaging-guided chemo-photothermal combination therapy. |
| Q30579120 | Crystalline magnetic carbon nanoparticle assisted photothermal delivery into cells using CW near-infrared laser beam |
| Q29248618 | Current applications and future prospects of nanomaterials in tumor therapy |
| Q30437835 | Current approaches to enhance CNS delivery of drugs across the brain barriers |
| Q37312243 | DNA Walker-Regulated Cancer Cell Growth Inhibition. |
| Q28388944 | Defect density in multiwalled carbon nanotubes influences ovalbumin adsorption and promotes macrophage activation and CD4(+) T-cell proliferation |
| Q35087569 | Determinants of the thrombogenic potential of multiwalled carbon nanotubes |
| Q33877509 | Development of iron-containing multiwalled carbon nanotubes for MR-guided laser-induced thermotherapy. |
| Q29615636 | Diameter and rigidity of multiwalled carbon nanotubes are critical factors in mesothelial injury and carcinogenesis |
| Q34638117 | Differences and similarities between carbon nanotubes and asbestos fibers during mesothelial carcinogenesis: shedding light on fiber entry mechanism |
| Q23923877 | Dispersal state of multiwalled carbon nanotubes elicits profibrogenic cellular responses that correlate with fibrogenesis biomarkers and fibrosis in the murine lung |
| Q35219950 | Distribution and clearance of PEG-single-walled carbon nanotube cancer drug delivery vehicles in mice |
| Q30584400 | Dose ranging, expanded acute toxicity and safety pharmacology studies for intravenously administered functionalized graphene nanoparticle formulations |
| Q34111578 | Effective Drug Delivery, In Vitro and In Vivo, by Carbon-Based Nanovectors Noncovalently Loaded with Unmodified Paclitaxel |
| Q35234708 | Effective colon cancer prophylaxis in mice using embryonic stem cells and carbon nanotubes |
| Q42377010 | Effects of multiwalled carbon nanotube surface modification and purification on bovine serum albumin binding and biological responses. |
| Q52589914 | Electromagnetic Nanoparticles for Sensing and Medical Diagnostic Applications. |
| Q37296315 | Enriched surface acidity for surfactant-free suspensions of carboxylated carbon nanotubes purified by centrifugation |
| Q53827248 | Epoxidation of Carbon Nanocapsules: Decoration of Single-Walled Carbon Nanotubes Filled with Metal Halides. |
| Q34117057 | Fabrication of graphene-isolated-Au-nanocrystal nanostructures for multimodal cell imaging and photothermal-enhanced chemotherapy |
| Q28391694 | Fibrillous carbon nanotube: an unexpected journey |
| Q43825827 | First-principles vdW-DF investigation on the interaction between the oxazepam molecule and C₆₀ fullerene. |
| Q91545669 | Folic acid-conjugated raloxifene hydrochloride carbon nanotube for targeting breast cancer cells |
| Q35090897 | Functional motor recovery from brain ischemic insult by carbon nanotube-mediated siRNA silencing |
| Q51297028 | Functionalization of Single-walled Carbon Nanotubes with Thermo-reversible Block Copolymers and Characterization by Small-angle Neutron Scattering. |
| Q28389777 | Functionalized carbon nanotubes: biomedical applications |
| Q30455580 | Functionalized multiwalled carbon nanotubes as ultrasound contrast agents |
| Q43430202 | Functionalized single-walled carbon nanotubes cause reversible acute lung injury and induce fibrosis in mice. |
| Q34204245 | Functionalized single-walled carbon nanotubes containing traces of iron as new negative MRI contrast agents for in vivo imaging |
| Q64083309 | Gd@CNTs-PEG versus Gadovist®: In Vitro Assay |
| Q33993254 | Gold nano-popcorn attached SWCNT hybrid nanomaterial for targeted diagnosis and photothermal therapy of human breast cancer cells |
| Q30458233 | Gold nanorods for ovarian cancer detection with photoacoustic imaging and resection guidance via Raman imaging in living mice. |
| Q38640947 | Gold-Based Nanomaterials for Applications in Nanomedicine. |
| Q94562232 | Graphene and other 2D materials: a multidisciplinary analysis to uncover the hidden potential as cancer theranostics |
| Q85688842 | Graphene devices for life |
| Q92402813 | Graphene-Based Nanomaterials: From Production to Integration With Modern Tools in Neuroscience |
| Q37332604 | High-resolution, serial intravital microscopic imaging of nanoparticle delivery and targeting in a small animal tumor model. |
| Q92427012 | Hybrid material of structural DNA with inorganic compound: synthesis, applications, and perspective |
| Q26849404 | Hybrid nanoparticles for detection and treatment of cancer |
| Q28384090 | Imaging and treating tumor vasculature with targeted radiolabeled carbon nanotubes |
| Q27021145 | Immunomodulation of nanoparticles in nanomedicine applications |
| Q28388540 | Impact of carbon nanotubes and graphene on immune cells |
| Q28388551 | Inflammasome activation in airway epithelial cells after multi-walled carbon nanotube exposure mediates a profibrotic response in lung fibroblasts |
| Q27334273 | Insertion of short amino-functionalized single-walled carbon nanotubes into phospholipid bilayer occurs by passive diffusion |
| Q28394770 | Instillation versus inhalation of multiwalled carbon nanotubes: exposure-related health effects, clearance, and the role of particle characteristics |
| Q38769047 | Interaction of single and multi wall carbon nanotubes with the biological systems: tau protein and PC12 cells as targets |
| Q40392870 | Localization and relative quantification of carbon nanotubes in cells with multispectral imaging flow cytometry |
| Q28387835 | Long-term biopersistence of tangled oxidized carbon nanotubes inside and outside macrophages in rat subcutaneous tissue |
| Q51581869 | Magnetic Targeting and Delivery of Drug-Loaded SWCNTs Theranostic Nanoprobes to Lung Metastasis in Breast Cancer Animal Model: Noninvasive Monitoring Using Magnetic Resonance Imaging. |
| Q34783695 | Magnetic single-walled carbon nanotubes as efficient drug delivery nanocarriers in breast cancer murine model: noninvasive monitoring using diffusion-weighted magnetic resonance imaging as sensitive imaging biomarker |
| Q35569111 | Mapping the surface adsorption forces of nanomaterials in biological systems |
| Q50452325 | Mass spectrometry imaging reveals the sub-organ distribution of carbon nanomaterials. |
| Q48533196 | Mesoporous Carbon Nanospheres as a Multifunctional Carrier for Cancer Theranostics |
| Q87090084 | Metal based nanoparticles as cancer antigen delivery vehicles for macrophage based antitumor vaccine |
| Q34129403 | Metal‐based nanoparticles and their toxicity assessment |
| Q85235249 | Minimally invasive cancer therapy using polyhydroxy fullerenes |
| Q28597927 | Mitochondria-Mediated Protein Regulation Mechanism of Polymorphs-Dependent Inhibition of Nanoselenium on Cancer Cells |
| Q93170264 | Molecular Dynamics Simulations of Water-Mediated Cholesterol Capture within an Open-Ended Single-Walled Carbon Nanotube |
| Q30446774 | Molecular imaging with surface-enhanced Raman spectroscopy nanoparticle reporters. |
| Q39375890 | Multifunctional Polymer-Coated Carbon Nanotubes for Safe Drug Delivery |
| Q29247846 | Multiwalled Carbon Nanotube Functionalization with High Molecular Weight Hyaluronan Significantly Reduces Pulmonary Injury |
| Q30470080 | Nano delivers big: designing molecular missiles for cancer therapeutics |
| Q35849184 | Nano-carbons as theranostics |
| Q26780430 | Nanodelivery Systems as New Tools for Immunostimulant or Vaccine Administration: Targeting the Fish Immune System |
| Q27008517 | Nanoinformatics: emerging databases and available tools |
| Q39779673 | Nanomaterials for (Nano)medicine |
| Q36925868 | Nanomaterials in the application of tumor vaccines: advantages and disadvantages |
| Q38551098 | Nanomaterials, Autophagy, and Lupus Disease |
| Q28391805 | Nanomaterials, inflammation, and tissue engineering |
| Q28384103 | Nanomedicine: promises and challenges for the future of public health |
| Q30354652 | Nanoparticles as Theranostic Vehicles in Experimental and Clinical Applications-Focus on Prostate and Breast Cancer. |
| Q30442412 | Nanoparticles for Improving Cancer Diagnosis |
| Q28387499 | Nanotechnologies for noninvasive measurement of drug release |
| Q57345630 | Nanotoxicology: Contemporary Issues and Future Directions |
| Q89054778 | Nanovectorization of DNA Through Cells Using Protamine Complexation |
| Q33549793 | New insights of transmembranal mechanism and subcellular localization of noncovalently modified single-walled carbon nanotubes |
| Q36514481 | Nuclear molecular imaging with nanoparticles: radiochemistry, applications and translation |
| Q39505911 | Oxidative stress-mediated antibacterial activity of graphene oxide and reduced graphene oxide in Pseudomonas aeruginosa. |
| Q30597331 | PEGylated single-walled carbon nanotubes as nanocarriers for cyclosporin A delivery |
| Q33982105 | Paradoxical glomerular filtration of carbon nanotubes |
| Q62515569 | Particle trapping using dielectrophoretically patterned carbon nanotubes |
| Q23923547 | Payload drug vs. nanocarrier biodegradation by myeloperoxidase- and peroxynitrite-mediated oxidations: pharmacokinetic implications |
| Q38324257 | Pharmaceutical and biomedical applications of surface engineered carbon nanotubes |
| Q39375440 | Photoacoustic Drug Delivery |
| Q30449484 | Photoacoustic Imaging for Cancer Detection and Staging |
| Q28392605 | Photothermal therapy of glioblastoma multiforme using multiwalled carbon nanotubes optimized for diffusion in extracellular space |
| Q36170378 | Photothermal therapy with immune-adjuvant nanoparticles together with checkpoint blockade for effective cancer immunotherapy. |
| Q28396913 | Physico-chemical properties based differential toxicity of graphene oxide/reduced graphene oxide in human lung cells mediated through oxidative stress |
| Q35074874 | Polarization-controlled differentiation of human neural stem cells using synergistic cues from the patterns of carbon nanotube monolayer coating |
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