64Cu Core-labeled nanoparticles with high specific activity via metal-free click chemistry. - sprookjes - yvandenbroek - TriplyDB

64Cu Core-labeled nanoparticles with high specific activity via metal-free click chemistry.

64Cu Core-labeled nanoparticles with high specific activity via metal-free click chemistry.

http://www.wikidata.org/entity/Q36060540

about

Small Molecule Radiopharmaceuticals - A Review of Current Approaches The growing impact of bioorthogonal click chemistry on the development of radiopharmaceuticals Radiolabeled theranostics: magnetic and gold nanoparticles Universal Molecular Scaffold for Facile Construction of Multivalent and Multimodal Imaging Probes Polymeric Nanostructures for Imaging and Therapy Comparison of conjugation strategies of cross-bridged macrocyclic chelators with cetuximab for copper-64 radiolabeling and PET imaging of EGFR in colorectal tumor-bearing mice.64Cu-labeled somatostatin analogues conjugated with cross-bridged phosphonate-based chelators via strain-promoted click chemistry for PET imaging: in silico through in vivo studies Dual-radiolabeled nanoparticle SPECT probes for bioimaging.Novel Strategy for Preparing Dual-Modality Optical/PET Imaging Probes via Photo-Click Chemistry.Click Chemistry and Radiochemistry: The First 10 Years Multi-Functionalization of Polymers by Strain-Promoted Cycloadditions RGD-based PET tracers for imaging receptor integrin αv β3 expression.Radiolabeled nanoparticles for multimodality tumor imaging.Smart chemistry in polymeric nanomedicine.A nuclear chocolate box: the periodic table of nuclear medicine.Nanogels from metal-chelating crosslinkers as versatile platforms applied to copper-64 PET imaging of tumors and metastases Intrinsically copper-64-labeled organic nanoparticles as radiotracers.New cross-bridged cyclam derivative CB-TE1K1P, an improved bifunctional chelator for copper radionuclides.Molecular Imaging of Cancer with Nanoparticle-Based Theranostic Probes.Mesoporous silica nanoparticle pretargeting for PET imaging based on a rapid bioorthogonal reaction in a living body.Dendrimer-based contrast agents for PET imaging.Utilizing electrostatic interactions to facilitate F-18 radiolabeling of poly(amido)amine (PAMAM) dendrimers.An Optimized Protocol for the Efficient Radiolabeling of Gold Nanoparticles by Using a 125I-labeled Azide Prosthetic Group.Design, synthesis, characterisation and in vitro studies of hydrophilic, colloidally stable, 64Cu(ii)-labelled, ultra-small iron oxide nanoparticles in a range of human cell lines

P2860

Q26768227-15057DFF-E7A7-4423-8536-42CE28520F7C Q26849599-D172FB63-F98F-4FBB-90EE-99D18E746A2F Q28074696-EEB56BE2-176D-4980-B2EC-4B7094DF1589 Q28834080-A72EA41E-5238-45A8-B36F-C8D8C008621D Q30372383-ACE39000-F482-4D28-841E-88FFB8F564A5 Q34473719-AB8EA5ED-E9CA-435D-A229-27549A21510B Q34665668-5F78C689-9A6D-4CF7-B069-0A43C0C57E51 Q34717335-57DD8D3B-808A-4409-8FFF-DBBE0F757A7D Q36913628-C481212F-BCC3-4D61-8446-A11A9AF0C71C Q37540109-A6FAD975-DE0E-4750-B15D-37345FA20C10 Q37562384-07EF25E0-BB38-4C81-A609-A2653D570448 Q38166986-620815A1-59B2-43C5-B15A-DC9464263B4B Q38186026-71A56286-840B-4D2A-ABE3-04E9C68B675F Q38221776-DC8954BF-2A39-4619-A890-8DB96E45D7B8 Q38269216-31C59CA1-C606-416B-B6A7-12AD450F20EF Q39065411-6D085944-BC9B-4D38-A9D2-E58BDC127223 Q39244136-325E33CC-E480-46BB-88D1-4B6644312AE7 Q43082542-D58B72F1-DC40-477F-8116-7F1F3A380D52 Q43376027-212D2C67-EC30-433B-9B51-F850096A8DFF Q46410647-E835AF29-F605-40B9-AD19-D8C50F04BB67 Q47362426-EB6AE22B-558B-49D4-94CB-F109D231CA60 Q51050523-60D623F1-34F1-42D3-93BA-A4A8028A3D3C Q53135957-89E55A85-8229-49D3-827E-F81BD2CBCC58 Q57376692-0996925F-E3A3-4C67-AC48-7F48FCB7F328

P2860

64Cu Core-labeled nanoparticles with high specific activity via metal-free click chemistry.

http://www.wikidata.org/entity/Q36060540

description

2012 nî lūn-bûn

@nan

2012年の論文

@ja

2012年論文

@yue

2012年論文

@zh-hant

2012年論文

@zh-hk

2012年論文

@zh-mo

2012年論文

@zh-tw

2012年论文

@wuu

2012年论文

@zh

2012年论文

@zh-cn

name

64Cu Core-labeled nanoparticle ...... ia metal-free click chemistry.

@ast

64Cu Core-labeled nanoparticle ...... ia metal-free click chemistry.

@en

type

label

64Cu Core-labeled nanoparticle ...... ia metal-free click chemistry.

@ast

64Cu Core-labeled nanoparticle ...... ia metal-free click chemistry.

@en

prefLabel

64Cu Core-labeled nanoparticle ...... ia metal-free click chemistry.

@ast

64Cu Core-labeled nanoparticle ...... ia metal-free click chemistry.

@en

P1433

Q36060540-968503A7-6DC7-4944-8246-EFF5FF122E66

P1476

Q36060540-D63F848C-D9BF-4A59-956E-602B29915A6D

P2093

Q36060540-17820BB0-B6F0-42D8-B5AA-4869D337DB51

Q36060540-5ABBC1A3-4896-4BD3-A306-F58C504E2F7D

Q36060540-6840F5E6-79D6-4CDF-B4C4-09C91666BA24

Q36060540-8EB37A5A-935A-45DB-93B8-4ECE8ADC0098

Q36060540-8F943AE8-D5B3-4225-8D8D-D196799F69E1

Q36060540-A6879489-A7B6-4E5E-A1CB-3FD054629E5C

Q36060540-EFDCC27D-1A80-4AF5-9EB0-CB3E66DABBF4

P2860

Q36060540-04DA53AE-AAA0-49E0-B46C-AF99D3A4CCB9

Q36060540-07159567-846A-4511-923A-650095C60791

Q36060540-0B923A26-3150-468A-A238-52AE219B5518

Q36060540-0CD7C42A-2D54-4B37-8215-DEA2FF6EC69B

Q36060540-15CE5A76-42D9-49A1-972C-B991B5BF3858

Q36060540-1FBB34A7-D215-4C8D-8653-C821A101DEE9

Q36060540-40B5E417-6F00-4516-B490-2FB83BD807E1

Q36060540-41DE5C93-17D0-487D-945A-1AF99D7F6598

Q36060540-4AA9F584-04E1-4E45-B6E9-B62A21F342DF

Q36060540-5B98569A-88ED-4127-8EC7-5096990FB58E

P304

Q36060540-9A420EF0-8F52-488C-8659-A374383D7A18

P31

Q36060540-27943FE2-D729-4085-A6DD-5E8467BE4B32

P356

Q36060540-23128A72-A652-416E-A6CE-ECBF35F76E59

P407

Q36060540-F437FBC7-12AF-42D1-B7C3-BF3238418C8C

P433

Q36060540-60DA765E-106A-4DD3-BB09-A38A5D28B863

P478

Q36060540-9087BE13-0353-4E90-8F90-833895371DA6

P50

Q36060540-6650045B-2F99-4A0B-83FF-738BAFC6E969

P577

Q36060540-214EC524-9527-4E81-A0C4-D86990471DD8

P5875

Q36060540-68BD3757-855C-402F-8E66-607DBFF115C8

P698

Q36060540-7DC0A723-0868-48A9-93EE-4A7E29AF6669

P921

Q36060540-9FC41950-D0B0-4FE2-BBAE-B54327A59E9F

P932

Q36060540-A08C5690-E231-4A74-88BB-50F5F8B10CF8

P356

P1433

P1476

64Cu Core-labeled nanoparticle ...... ia metal-free click chemistry.

@en

P2093

Carmen S Dence

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

Dexing Zeng

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

Dong Zhou

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

John A Katzenellenbogen

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

Michael J Welch

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

Nam S Lee

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

Yongjian Liu

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

P2860

Rapid Cu-free click chemistry with readily synthesized biarylazacyclooctynones

A strain-promoted [3 + 2] azide-alkyne cycloaddition for covalent modification of biomolecules in living systems

Structure-activity relationships of cationic shell-crosslinked knedel-like nanoparticles: shell composition and transfection efficiency/cytotoxicity

Hybrid PET-optical imaging using targeted probes.

PRINT: a novel platform toward shape and size specific nanoparticle theranostics.

Targeting angiogenesis using a C-type atrial natriuretic factor-conjugated nanoprobe and PET.

Novel method to label solid lipid nanoparticles with 64cu for positron emission tomography imaging.

Nanoparticle imaging of integrins on tumor cells.

Clinical positron emission tomography imaging--current applications.

Workshop on the production, application and clinical translation of ''non-standard'' PET nuclides: a meeting report.

P304

5209-5219

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

P31

scholarly article

P356

10.1021/NN300974S

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

P407

P433

6

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

P478

6

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

P50

Karen L. Wooley

P577

2012-05-08T00:00:00Z

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

P5875

224877547

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

P698

22548282

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

P921

P932

3383893

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