Követés
Timothy Ruckh
Timothy Ruckh
E-mail megerősítve itt: astrazeneca.com
Cím
Hivatkozott rá
Hivatkozott rá
Év
Bone tissue engineering: a review in bone biomimetics and drug delivery strategies
JR Porter, TT Ruckh, KC Popat
Biotechnology progress 25 (6), 1539-1560, 2009
8682009
Osteogenic differentiation of bone marrow stromal cells on poly (ε-caprolactone) nanofiber scaffolds
TT Ruckh, K Kumar, MJ Kipper, KC Popat
Acta biomaterialia 6 (8), 2949-2959, 2010
1682010
Conformational studies of covalently grafted poly (ethylene glycol) on modified solid matrices using X-ray photoelectron spectroscopy
VB Damodaran, CJ Fee, T Ruckh, KC Popat
Langmuir 26 (10), 7299-7306, 2010
852010
Implantable nanosensors: toward continuous physiologic monitoring
TT Ruckh, HA Clark
Analytical chemistry 86 (3), 1314-1323, 2014
752014
Antimicrobial effects of nanofiber poly (caprolactone) tissue scaffolds releasing rifampicin
TT Ruckh, RA Oldinski, DA Carroll, K Mikhova, JD Bryers, KC Popat
Journal of Materials Science: Materials in Medicine 23 (6), 1411-1420, 2012
722012
Nanostructured tantala as a template for enhanced osseointegration
T Ruckh, JR Porter, NK Allam, X Feng, CA Grimes, KC Popat
Nanotechnology 20 (4), 045102, 2008
602008
Ion-switchable quantum dot forster resonance energy transfer rates in ratiometric potassium sensors
TT Ruckh, CG Skipwith, W Chang, AW Senko, V Bulovic, PO Anikeeva, ...
ACS nano 10 (4), 4020-4030, 2016
532016
Polymer-free optode nanosensors for dynamic, reversible and ratiometric sodium imaging in the physiological range
TT Ruckh, AA Mehta, JM Dubach, HA Clark
Scientific reports 3 (1), 1-6, 2013
342013
Dynamic mechanical analysis and biomineralization of hyaluronan–polyethylene copolymers for potential use in osteochondral defect repair
R Floreani, TT Ruckh, MP Staiger, KC Popat, SP James
Acta biomaterialia 7 (3), 1184-1191, 2011
322011
Enzyme-linked DNA dendrimer nanosensors for acetylcholine
R Walsh, JM Morales, CG Skipwith, TT Ruckh, HA Clark
Scientific reports 5 (1), 1-11, 2015
312015
Development of an optical nanosensor incorporating a pH-sensitive quencher dye for potassium imaging
A Sahari, TT Ruckh, R Hutchings, HA Clark
Analytical chemistry 87 (21), 10684-10687, 2015
272015
Mineralization content alters osteogenic responses of bone marrow stromal cells on hydroxyapatite/polycaprolactone composite nanofiber scaffolds
TT Ruckh, DA Carroll, JR Weaver, KC Popat
Journal of functional biomaterials 3 (4), 776-798, 2012
262012
Composite particles, methods, and in vivo diagnostic system
TT Ruckh, K Kam, JJ Schwartz, V Demas, AP Homyk
US Patent 9,861,710, 2018
52018
Crosslinked particles
F Le Dévédec, CJ Allen, DM Stevens, DJ Rager-Aguiar, TT Ruckh, ...
US Patent 10,258,578, 2019
12019
Method for integrating nanoparticles as part of a hydrogel matrix
T Ruckh, K Kam
US Patent 9,439,983, 2016
12016
Crosslinked particles
F Le Devedec, C Allen, DM Stevens, DJ Rager-Aguiar, TT Ruckh, ...
US Patent 11,426,356, 2022
2022
Crosslinked coatings
DM Stevens, TT Ruckh, CE Elmquist, L Tian
US Patent App. 16/467,189, 2021
2021
Factors controlling drug release in cross-linked poly (valerolactone) based matrices
TT Ruckh, CE Elmquist, DM Stevens, F Le Dévédec, H Boucher, C Allen
US Patent App. 16/746,596, 2020
2020
Method for increasing sensor resolution by spectrally stacking responsive dyes
TT Ruckh, Z Wang
US Patent 10,845,305, 2020
2020
Micro-structures with magnetic removal capability and optionally clear optical path
T Ruckh
US Patent 10,292,734, 2019
2019
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Cikkek 1–20