Raoul Kopelman
Raoul Kopelman
Richard Smalley Distinguished University Professor of Chemistry, Physics, Applied Physics
Verified email at umich.edu - Homepage
TitleCited byYear
Percolation and cluster distribution. I. Cluster multiple labeling technique and critical concentration algorithm
J Hoshen, R Kopelman
Physical Review B 14 (8), 3438, 1976
20141976
Rotational actuators based on carbon nanotubes
AM Fennimore, TD Yuzvinsky, WQ Han, MS Fuhrer, J Cumings, A Zettl
Nature 424 (6947), 408, 2003
12452003
Biomedical photonics handbook: biomedical diagnostics
T Vo-Dinh
CRC press, 2014
10392014
Fractal reaction kinetics
R Kopelman
Science 241 (4873), 1620-1626, 1988
9341988
Targeted gold nanoparticles enable molecular CT imaging of cancer
R Popovtzer, A Agrawal, NA Kotov, A Popovtzer, J Balter, TE Carey, ...
Nano letters 8 (12), 4593-4596, 2008
6862008
Fluorescent fiber-optic calcium sensor for physiological measurements
M Shortreed, R Kopelman, M Kuhn, B Hoyland
Analytical chemistry 68 (8), 1414-1418, 1996
6191996
Vascular targeted nanoparticles for imaging and treatment of brain tumors
GR Reddy, MS Bhojani, P McConville, J Moody, BA Moffat, DE Hall, ...
Clinical Cancer Research 12 (22), 6677-6686, 2006
5182006
Optical nanosensors for chemical analysis inside single living cells. 1. Fabrication, characterization, and methods for intracellular delivery of PEBBLE sensors
HA Clark, M Hoyer, MA Philbert, R Kopelman
Analytical chemistry 71 (21), 4831-4836, 1999
4401999
Optical nanosensors for chemical analysis inside single living cells. 2. Sensors for pH and calcium and the intracellular application of PEBBLE sensors
HA Clark, R Kopelman, R Tjalkens, MA Philbert
Analytical chemistry 71 (21), 4837-4843, 1999
4141999
A real-time ratiometric method for the determination of molecular oxygen inside living cells using sol− gel-based spherical optical nanosensors with applications to rat C6 glioma
H Xu, JW Aylott, R Kopelman, TJ Miller, MA Philbert
Analytical chemistry 73 (17), 4124-4133, 2001
3772001
Rate processes on fractals: theory, simulations, and experiments
R Kopelman
Journal of Statistical Physics 42 (1-2), 185-200, 1986
3751986
Submicrometer intracellular chemical optical fiber sensors
W Tan, ZY Shi, S Smith, D Birnbaum, R Kopelman
Science 258 (5083), 778-781, 1992
3521992
Spectroscopy and excitation dynamics of condensed molecular systems
VM Agranovich, RM Hochstrasser
North Holland, 1983
3341983
Spectroscopic evidence for excitonic localization in fractal antenna supermolecules
R Kopelman, M Shortreed, ZY Shi, W Tan, Z Xu, JS Moore, A Bar-Haim, ...
Physical review letters 78 (7), 1239, 1997
3331997
Directed energy transfer funnels in dendrimeric antenna supermolecules
MR Shortreed, SF Swallen, ZY Shi, W Tan, Z Xu, C Devadoss, JS Moore, ...
The Journal of Physical Chemistry B 101 (33), 6318-6322, 1997
3281997
Real-time measurements of dissolved oxygen inside live cells by organically modified silicate fluorescent nanosensors
YEL Koo, Y Cao, R Kopelman, SM Koo, M Brasuel, MA Philbert
Analytical chemistry 76 (9), 2498-2505, 2004
3272004
Brain cancer diagnosis and therapy with nanoplatforms
YEL Koo, GR Reddy, M Bhojani, R Schneider, MA Philbert, A Rehemtulla, ...
Advanced drug delivery reviews 58 (14), 1556-1577, 2006
3002006
Dendrimers as controlled artificial energy antennae
A Bar-Haim, J Klafter, R Kopelman
Journal of the American Chemical Society 119 (26), 6197-6198, 1997
2871997
Photodynamic Characterization and In Vitro Application of Methylene Blue‐containing Nanoparticle Platforms
W Tang, H Xu, R Kopelman, MA Philbert
Photochemistry and photobiology 81 (2), 242-249, 2005
2862005
Development of submicron chemical fiber optic sensors
W Tan, ZY Shi, R Kopelman
Analytical chemistry 64 (23), 2985-2990, 1992
2271992
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