Photothermal effects of supramolecularly assembled gold nanoparticles for the targeted treatment of cancer cells. - Wikidata - wikimedia - TriplyDB

Photothermal effects of supramolecularly assembled gold nanoparticles for the targeted treatment of cancer cells.

Photothermal effects of supramolecularly assembled gold nanoparticles for the targeted treatment of cancer cells.

http://www.wikidata.org/entity/Q39714970

about

The Combination of Laser Therapy and Metal Nanoparticles in Cancer Treatment Originated From Epithelial Tissues: A Literature Review Concentration-dependent, size-independent toxicity of citrate capped AuNPs in Drosophila melanogaster Pretargeted Positron Emission Tomography Imaging That Employs Supramolecular Nanoparticles with in Vivo Bioorthogonal Chemistry Semimetal nanomaterials of antimony as highly efficient agent for photoacoustic imaging and photothermal therapy Multifunctional gold nanoparticles for diagnosis and therapy of disease Rainbow Plasmonic Nanobubbles: Synergistic Activation of Gold Nanoparticle Clusters.Tunable plasmonic nanoprobes for theranostics of prostate cancer.Crystalline magnetic carbon nanoparticle assisted photothermal delivery into cells using CW near-infrared laser beam.Identification of a bladder cancer-specific ligand using a combinatorial chemistry approach Molecular recognition enables nanosubstrate-mediated delivery of gene-encapsulated nanoparticles with high efficiency.Photothermal nanoblade for patterned cell membrane cutting.A small MRI contrast agent library of gadolinium(III)-encapsulated supramolecular nanoparticles for improved relaxivity and sensitivity.Wavelength-Selective Light-Induced Release from Plasmon Resonant Liposomes.Targeting gold nanoshells on silica nanorattles: a drug cocktail to fight breast tumors via a single irradiation with near-infrared laser light.Multifunctional hybrid materials for combined photo and chemotherapy of cancer.Laser nanothermolysis of human leukemia cells using functionalized plasmonic nanoparticles.Development and applications of photo-triggered theranostic agents Cytophilic/cytophobic design of nanomaterials at biointerfaces.Delivery of intact transcription factor by using self-assembled supramolecular nanoparticles.Characterization and Quantification of Nanoparticle-Antibody Conjugates on Cells Using C(60) ToF SIMS in the Event-By-Event Bombardment/Detection Mode.The energy blocker inside the power house: Mitochondria targeted delivery of 3-bromopyruvate.PEGylated nickel carbide nanocrystals as efficient near-infrared laser induced photothermal therapy for treatment of cancer cells in vivo.Multifunctional carbon nanohorn complexes for cancer treatment.Near-infrared light-triggered drug release nanogels for combined photothermal-chemotherapy of cancer.Influences of surface coatings and components of FePt nanoparticles on the suppression of glioma cell proliferation On-demand drug release system for in vivo cancer treatment through self-assembled magnetic nanoparticles A dual wavelength-activatable gold nanorod complex for synergistic cancer treatment The therapeutic efficacy of camptothecin-encapsulated supramolecular nanoparticles.Nanotechnology Applications for Diffuse Intrinsic Pontine Glioma.Design and applications of gold nanoparticle conjugates by exploiting biomolecule-gold nanoparticle interactions.Host-guest supramolecular nanosystems for cancer diagnostics and therapeutics.Recent advances in biocompatible nanocarriers for delivery of chemotherapeutic cargoes towards cancer therapy.Functional supramolecular polymers for biomedical applications.Soft Supramolecular Nanoparticles by Noncovalent and Host-Guest Interactions.Self-assembled nanomaterials for photoacoustic imaging.Salt-induced aggregation of gold nanoparticles for photoacoustic imaging and photothermal therapy of cancer.A Near Infrared Light Triggered Hydrogenated Black TiO2 for Cancer Photothermal Therapy.Organ-on-a-Chip Systems: Microengineering to Biomimic Living Systems.Magnetically triggered dual functional nanoparticles for resistance-free apoptotic hyperthermia.In-situ formation and assembly of gold nanoparticles by gum arabic as efficient photothermal agent for killing cancer cells.

P2860

Q28075327-B58A52FD-F9CA-4A27-A167-0B743B7AA701 Q28478708-3D3A6A5E-29A0-44EC-95D0-C38E32F2828D Q28829134-C084596C-E965-4D29-8485-9A580BE60EB6 Q30365848-B4B5EDF8-5BD6-4E35-BFFF-5BC806F0C9FE Q30442090-AE1432EB-9033-45DE-A7C5-C6F91BB6EF2C Q30474726-6838353F-C4C6-45D0-863F-F362B3D4D884 Q30475573-A786754A-DE7B-469C-A83E-368DDE452F9E Q30579120-01E35DB3-A318-439F-97B8-7D16A30AED16 Q33708339-BAA2D1B9-D517-4ADE-BBAA-D1639981931B Q33715974-B66074BB-2CF2-42C8-856A-B6005FFE02B8 Q33773457-CCA84064-C4F1-4A1F-A958-44D266C92CD6 Q33774858-7EA07E54-789E-4AD2-AD2C-4E71A05F2713 Q33973597-CFA47DA8-D2C7-43CB-889C-E819EB4665D5 Q34115878-0F7096FE-2338-4348-817E-4E23C24DB184 Q34255469-9CA647E2-5F80-453D-8070-2DF9E601D748 Q34312462-317E5F55-5E4D-4E14-9999-772A02AE5918 Q34349286-7AE66B97-28EA-4F59-B489-4FD31DD8FA3A Q34589395-EB7E0FEF-A44C-40F1-A759-8EE57ADD9FE4 Q34932130-8824E0B2-F466-4D77-A024-C665962D36D4 Q35052419-F11EC6F7-A4AE-4A23-B50D-95AA2D0F1935 Q35104357-C8653855-8669-4925-89F7-D5C8D0C835A7 Q35237518-5B091FEB-93D0-48B4-BAA4-0DB1A440E315 Q35335167-D82E53C5-2B62-42B9-829C-FB63A96E0108 Q35722432-33C5D083-2879-4C66-AA17-55F4E46F1576 Q36119558-1C517556-39B0-4DCF-8913-CA90C58CEC1C Q37114971-9EC238F3-4389-4E2B-AB83-BFE95A83FFB5 Q37206530-5C40524D-549F-4795-BA92-BA9E6D0AAB67 Q37206761-EF53CAA1-6222-4666-9EE0-644856F03CC1 Q37668050-51DAB5C7-742C-4AAA-A9C3-A5AF7CF15B8F Q38083022-7859A59D-C779-4208-A2C3-15CE918D771E Q38139328-933A4B94-D462-467D-8FB4-057F2B519BFD Q38204933-702ECF21-9F3C-4A18-B805-3257DB7FFF7E Q38267889-04F3419A-7E13-481A-8C77-243F7EBE0332 Q38638661-5DD1200A-008E-4289-AA9D-AE8987DDDE7E Q38693556-D74FBBBC-896E-4648-8AE3-DF1CEE770869 Q38796382-5ED404BB-6273-4494-A261-853F3ABE2691 Q38870924-C3468ADC-663C-432E-B55E-AF7505766810 Q38905001-9F30CD5C-8C73-4886-8B1F-1C24BB65E303 Q39053731-223090A1-2F88-4399-A727-561CB5385E9E Q39124901-09593A41-09BA-437E-A266-9C7A7CF9D0C6

P2860

Photothermal effects of supramolecularly assembled gold nanoparticles for the targeted treatment of cancer cells.

http://www.wikidata.org/entity/Q39714970

description

2010 nî lūn-bûn

@nan

2010年の論文

@ja

2010年論文

@yue

2010年論文

@zh-hant

2010年論文

@zh-hk

2010年論文

@zh-mo

2010年論文

@zh-tw

2010年论文

@wuu

2010年论文

@zh

2010年论文

@zh-cn

name

Photothermal effects of supram ...... ted treatment of cancer cells.

@en

Photothermal effects of supram ...... ted treatment of cancer cells.

@nl

type

label

Photothermal effects of supram ...... ted treatment of cancer cells.

@en

Photothermal effects of supram ...... ted treatment of cancer cells.

@nl

prefLabel

Photothermal effects of supram ...... ted treatment of cancer cells.

@en

Photothermal effects of supram ...... ted treatment of cancer cells.

@nl

P1433

Q39714970-C02A0689-6E92-4770-9B94-D7C10BAFB5F9

P1476

Q39714970-F0C50F34-8D44-4DB4-9882-2709A1DB1B2D

P2093

Q39714970-085954DC-0563-44A7-99DC-20ECECCF822C

Q39714970-24AC1353-71CE-40B0-8A93-8E802E0A9409

Q39714970-A2C4744F-061C-4C66-B119-BE8F50441369

Q39714970-B4D4121C-2ABA-4FE7-A6CC-BAFED91CAE6E

Q39714970-F33D6C6C-AA36-40A8-B5A5-4B4219D94A24

Q39714970-F690F15F-518C-4483-B5B7-EBF8B6D6E624

P2860

Q39714970-0DEBABE9-7983-43BE-B8DA-D54D3CAC33F6

Q39714970-0EDBE967-4CAB-4A20-A050-DA76B2CD1881

Q39714970-12A4002D-D672-4917-A66C-0812B6472895

Q39714970-15452759-F583-4E8D-AA06-4880D21A5F3D

Q39714970-2626C10B-CEC9-46E8-B90F-33A323D15C31

Q39714970-2A2AB76C-0F4C-4389-B24C-E128ECE7963E

Q39714970-2BB76781-F584-48B5-A101-F99DA4A366A3

Q39714970-368E1B90-9F8A-42F6-8E49-24334297D473

Q39714970-3801CCF4-7EC4-45D2-BEA1-A317A07BEBA1

Q39714970-41C1B613-3356-4149-A675-AC275F1770D3

P304

Q39714970-592F3444-035A-4C4E-B38A-EE1E41DEFBAE

P31

Q39714970-73D8625C-CE22-429D-A352-E4AD4D0BF1DD

P356

Q39714970-A6A7518F-452C-463D-A08A-0CBF0B8051FE

P407

Q39714970-9080CBD4-EF3D-475E-829C-45C4DB753FD7

P433

Q39714970-CEA0BCD6-88CD-41C8-86B0-1CE06E99E200

P478

Q39714970-083D2129-4220-4042-BC49-708D1E54C177

P50

Q39714970-81328FD7-44DD-4A3F-B6DD-2AEAB047758A

Q39714970-B9748A8D-2F99-4F9E-9F50-C4EE475849E9

P577

Q39714970-4821A710-C0F3-4B26-B0D3-ED94BE99F9C6

P5875

Q39714970-6F6F8A01-3B56-4A69-A71F-9EFC2E65B001

P698

Q39714970-BBC5F093-F426-482B-8E53-08FB368A5604

P921

Q39714970-8529A092-13FB-4FBD-B26A-88AA6678FECD

P932

Q39714970-76B68FD4-0EE1-4315-AC36-7195E16D975F

P356

P1433

Angewandte Chemie International Edition

P1476

Photothermal effects of supram ...... ted treatment of cancer cells.

@en

P2093

Hao Wang

http://www.w3.org/2001/XMLSchema#string

Hsian-Rong Tseng

http://www.w3.org/2001/XMLSchema#string

Kuan-Ju Chen

http://www.w3.org/2001/XMLSchema#string

Minori Ohashi

http://www.w3.org/2001/XMLSchema#string

Pei-Yu Chiou

http://www.w3.org/2001/XMLSchema#string

Ting-Hsiang Wu

http://www.w3.org/2001/XMLSchema#string

P2860

Understanding biophysicochemical interactions at the nano-bio interface

Renal clearance of quantum dots.

Plasmonic photothermal therapy (PPTT) using gold nanoparticles

Nanoparticle therapeutics: an emerging treatment modality for cancer

Selective cell targeting with light-absorbing microparticles and nanoparticles.

Photo-thermal tumor ablation in mice using near infrared-absorbing nanoparticles.

Method of laser activated nano-thermolysis for elimination of tumor cells.

Cancer cell imaging and photothermal therapy in the near-infrared region by using gold nanorods.

Selective laser nano-thermolysis of human leukemia cells with microbubbles generated around clusters of gold nanoparticles.

Designed fabrication of multifunctional magnetic gold nanoshells and their application to magnetic resonance imaging and photothermal therapy.

P304

3777-3781

http://www.w3.org/2001/XMLSchema#string

P31

scholarly article

P356

10.1002/ANIE.201000062

http://www.w3.org/2001/XMLSchema#string

P407

P433

22

http://www.w3.org/2001/XMLSchema#string

P478

49

http://www.w3.org/2001/XMLSchema#string

P50

P577

2010-05-01T00:00:00Z

http://www.w3.org/2001/XMLSchema#dateTime

P5875

43136407

http://www.w3.org/2001/XMLSchema#string

P698

20391446

http://www.w3.org/2001/XMLSchema#string

P921

P932

2892041

http://www.w3.org/2001/XMLSchema#string