54 |
Titel |
TI |
[EN] MAGNETIC NANOSTRUCTURED PROPELLERS |
71/73 |
Anmelder/Inhaber |
PA |
FISCHER PEER
;
GHOSH AMBARISH
|
72 |
Erfinder |
IN |
FISCHER PEER, DE
;
GHOSH AMBARISH, IN
|
22/96 |
Anmeldedatum |
AD |
29.04.2011 |
21 |
Anmeldenummer |
AN |
201113098126 |
|
Anmeldeland |
AC |
US |
|
Veröffentlichungsdatum |
PUB |
03.11.2011 |
33 31 32 |
Priorität |
PRC PRN PRD |
US
33036410
20100502
|
51 |
IPC-Hauptklasse |
ICM |
G06F 19/00
(2011.01)
|
51 |
IPC-Nebenklasse |
ICS |
|
|
IPC-Zusatzklasse |
ICA |
|
|
IPC-Indexklasse |
ICI |
|
|
Gemeinsame Patentklassifikation |
CPC |
A61B 2017/00345
B82Y 15/00
B82Y 25/00
B82Y 5/00
G16Z 99/00
|
|
MCD-Hauptklasse |
MCM |
G16Z 99/00
(2019.01)
|
|
MCD-Nebenklasse |
MCS |
|
|
MCD-Zusatzklasse |
MCA |
|
57 |
Zusammenfassung |
AB |
[EN] This invention describes methods and systems for the fabrication and application of Magnetically Actuated Propellers (MAPs). MAPs are structures with typical feature sizes in the range of 20 nanometers up to 100 microns in one spatial dimension. MAPs are propellers that can be obtained from nano-structured surfaces and that can be produced in large numbers. MAPs are propelled and controlled by magnetic fields. The biomedical, surgical, therapeutic, diagnostic, and rheological applications of the fabricated MAPs are also disclosed. The MAPs described in this patent are optimized for low Reynolds number propulsion and can be moved in fluids and biological tissues. MAPs are useful for measurements, quantification, imaging and sensing purposes e.g. detecting biomolecules and for the controlled transportation of (drug- and bio-) molecules and the delivery of microscopic and nanoscale objects and/or materials or systems of therapeutic value. |
56 |
Entgegengehaltene Patentdokumente/Zitate, in Recherche ermittelt |
CT |
US000005866204A US000006206065B1 US000006248422B1 US000007106918B2
|
56 |
Entgegengehaltene Patentdokumente/Zitate, vom Anmelder genannt |
CT |
|
56 |
Entgegengehaltene Nichtpatentliteratur/Zitate, in Recherche ermittelt |
CTNP |
Ishiyama et al. "Swimming micro-machine driven by magnetic torque" Sensors and Actuators A 91, pages 141-144, 2001. 9; Singh et al. "Metal-coated Si springs: Nanoelectromechanical actuators" Applied Physics Letters Vol. 84, No. 18 pages 3657-3659; May 2004. 9; Zhang et al. "Artifical bacterial flagella: Fabrication and magnetic control" Applied Physics Letters 94, 3 pages 064107-1 to 064107-3, February 2009. 9; Zhang et al. "Characterizing the Swimming Properties of Artificial Bacterial Flagella" Nano Letters Vol. 9, No. 10, pages 3663-3667,2009. 9; Zhao et al. "Designing Nanostructures by Glancing Angle Deposition" Proceedings of Spie Vol. 5219; pages 59-73; October 2003. 9
|
56 |
Entgegengehaltene Nichtpatentliteratur/Zitate, vom Anmelder genannt |
CTNP |
|
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Dokumente ermitteln
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Sequenzprotokoll |
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Prüfstoff-IPC |
ICP |
B82Y 15/00
B82Y 25/00
B82Y 5/00
|