Thomas Meade
Thomas Meade
Department of Chemistry Northwestern University
Verified email at - Homepage
Cited by
Cited by
In vivo visualization of gene expression using magnetic resonance imaging
AY Louie, MM Hüber, ET Ahrens, U Rothbächer, R Moats, RE Jacobs, ...
Nature biotechnology 18 (3), 321-325, 2000
Lanthanide probes for bioresponsive imaging
MC Heffern, LM Matosziuk, TJ Meade
Chemical reviews 114 (8), 4496-4539, 2014
Electrochemistry of redox-active self-assembled monolayers
AL Eckermann, DJ Feld, JA Shaw, TJ Meade
Coordination chemistry reviews 254 (15-16), 1769-1802, 2010
Spherical nucleic acid nanoparticle conjugates as an RNAi-based therapy for glioblastoma
SA Jensen, ES Day, CH Ko, LA Hurley, JP Luciano, FM Kouri, TJ Merkel, ...
Science translational medicine 5 (209), 209ra152-209ra152, 2013
Binding acceleration techniques for the detection of analytes
G Blackburn, SE Creager, S Fraser, BD Irvine, TJ Meade, SD O'connor, ...
US Patent 6,264,825, 2001
Electron transfer through DNA: site‐specific modification of duplex DNA with ruthenium donors and acceptors
TJ Meade, JF Kayyem
Angewandte Chemie International Edition in English 34 (3), 352-354, 1995
A “smart” magnetic resonance imaging agent that reports on specific enzymatic activity
RA Moats, SE Fraser, TJ Meade
Angewandte Chemie International Edition in English 36 (7), 726-728, 1997
Metal complexes as enzyme inhibitors
AY Louie, TJ Meade, SJ Lippard
Chemical reviews 99 (9), 2711-2734, 1999
A calcium-sensitive magnetic resonance imaging contrast agent
WH Li, SE Fraser, TJ Meade
Journal of the American Chemical Society 121 (6), 1413-1414, 1999
Tracking transplanted stem cell migration using bifunctional, contrast agent-enhanced, magnetic resonance imaging
M Modo, D Cash, K Mellodew, SCR Williams, SE Fraser, TJ Meade, ...
Neuroimage 17 (2), 803-811, 2002
Electronic detection of single-base mismatches in DNA with ferrocene-modified probes
CJ Yu, Y Wan, H Yowanto, J Li, C Tao, MD James, CL Tan, GF Blackburn, ...
Journal of the American Chemical Society 123 (45), 11155-11161, 2001
Gd (III)-nanodiamond conjugates for MRI contrast enhancement
LM Manus, DJ Mastarone, EA Waters, XQ Zhang, EA Schultz-Sikma, ...
Nano letters 10 (2), 484-489, 2010
Bioresponsive, cell-penetrating, and multimeric MR contrast agents
JL Major, TJ Meade
Accounts of chemical research 42 (7), 893-903, 2009
Mapping transplanted stem cell migration after a stroke: a serial, in vivo magnetic resonance imaging study
M Modo, K Mellodew, D Cash, SE Fraser, TJ Meade, J Price, ...
Neuroimage 21 (1), 311-317, 2004
Self-assembled peptide amphiphile nanofibers conjugated to MRI contrast agents
SR Bull, MO Guler, RE Bras, TJ Meade, SI Stupp
Nano Letters 5 (1), 1-4, 2005
Spectroscopy and electrochemistry of cobalt (III) Schiff base complexes
A Böttcher, T Takeuchi, KI Hardcastle, TJ Meade, HB Gray, D Cwikel, ...
Inorganic Chemistry 36 (12), 2498-2504, 1997
Multimodal MRI contrast agents
L Frullano, TJ Meade
JBIC Journal of Biological Inorganic Chemistry 12 (7), 939-949, 2007
Effects of shape and size of cobalt ferrite nanostructures on their MRI contrast and thermal activation
HM Joshi, YP Lin, M Aslam, PV Prasad, EA Schultz-Sikma, R Edelman, ...
The Journal of Physical Chemistry C 113 (41), 17761-17767, 2009
Nucleic acid mediated electron transfer
TJ Meade, JF Kayyem, SE Fraser
US Patent 5,770,369, 1998
Fluorescently detectable magnetic resonance imaging agents
MM Hüber, AB Staubli, K Kustedjo, MHB Gray, J Shih, SE Fraser, ...
Bioconjugate chemistry 9 (2), 242-249, 1998
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