The recent discovery of fuel-free propulsion of nanomotors using acoustic energy has provided a new avenue for using nanomotors in biocompatible media. Crucial to the application of nanomotors in biosensing and biomedical applications is the ability to remotely control and steer them toward targets of interest, such as specific cells and tissues. We demonstrate <i>in vitro</i> magnetic steering of acoustically powered nanorod motors in a biologically compatible environment. Steering was accomplished by incorporating (40 ± 5) nm thick nickel stripes into the electrochemically grown nanowires. An external magnetic field of 40–45 mT was used to orient the motors, which were acoustically propelled along their long axes. In the absence of a magn...
Nanobiosensing with target amplification is one such example. In this scenario, "activator" nanopart...
Attempts to apply artificial nano/micromotors for diverse biomedical applications have inspired a va...
Màster en Nanociència i Nanotecnologia, Facultat de Física, Universitat de Barcelona, Curs: 2017-201...
The recent discovery of fuel-free propulsion of nanomotors using acoustic energy has provided a new ...
*S Supporting Information ABSTRACT: The recent discovery of fuel-free propulsion of nanomotors using...
Magnetically guided ultrasound-powered nanowire motors, functionalized with bioreceptors and a drug-...
In this communication we describe the preparation and operation of two types of Ni/Au nanorods (NRs)...
The phenomenon of contact guidance on thin fibers has been known since the beginning of the 20th cen...
Micro- and nanomotors are nonliving micro- and nanoparticles that are rendered motile by supplying e...
Direct field induced manipulations of nanowires have been recognized as a possible alternative to co...
Although nanorobots may play critical roles for many applications in the human body, such as targeti...
Spatiotemporally controlled active manipulation of external micro-/nanoprobes inside living cells ca...
Acoustic manipulation techniques have gained significant attention across various fields, particular...
Micro/nano-scale propulsion has attracted considerable recent attention due to its promise for biome...
In nature, many bacteria swim by rotating their helical flagella. A particularly promising class of ...
Nanobiosensing with target amplification is one such example. In this scenario, "activator" nanopart...
Attempts to apply artificial nano/micromotors for diverse biomedical applications have inspired a va...
Màster en Nanociència i Nanotecnologia, Facultat de Física, Universitat de Barcelona, Curs: 2017-201...
The recent discovery of fuel-free propulsion of nanomotors using acoustic energy has provided a new ...
*S Supporting Information ABSTRACT: The recent discovery of fuel-free propulsion of nanomotors using...
Magnetically guided ultrasound-powered nanowire motors, functionalized with bioreceptors and a drug-...
In this communication we describe the preparation and operation of two types of Ni/Au nanorods (NRs)...
The phenomenon of contact guidance on thin fibers has been known since the beginning of the 20th cen...
Micro- and nanomotors are nonliving micro- and nanoparticles that are rendered motile by supplying e...
Direct field induced manipulations of nanowires have been recognized as a possible alternative to co...
Although nanorobots may play critical roles for many applications in the human body, such as targeti...
Spatiotemporally controlled active manipulation of external micro-/nanoprobes inside living cells ca...
Acoustic manipulation techniques have gained significant attention across various fields, particular...
Micro/nano-scale propulsion has attracted considerable recent attention due to its promise for biome...
In nature, many bacteria swim by rotating their helical flagella. A particularly promising class of ...
Nanobiosensing with target amplification is one such example. In this scenario, "activator" nanopart...
Attempts to apply artificial nano/micromotors for diverse biomedical applications have inspired a va...
Màster en Nanociència i Nanotecnologia, Facultat de Física, Universitat de Barcelona, Curs: 2017-201...