Relevant bibliographies by topics / Nanomotors

Contents

  1. Journal articles
  2. Dissertations / Theses
  3. Books
  4. Book chapters
  5. Conference papers
  6. Reports

Academic literature on the topic 'Nanomotors'

Author: Grafiati
Published: 4 June 2021
Last updated: 26 July 2025

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Journal articles on the topic "Nanomotors"

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KHATAEE, H. R., and A. R. KHATAEE. "ADVANCES IN F0F1-ATP SYNTHASE BIOLOGICAL PROTEIN NANOMOTOR: FROM MECHANISMS AND STRATEGIES TO POTENTIAL APPLICATIONS." Nano 04, no. 02 (2009): 55–67. http://dx.doi.org/10.1142/s1793292009001587.

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Movement and shape changes are fundamental aspects of all living organisms. This biological motility results from the biological nanomotors, in particular protein nanomotors. Cells contain a variety of protein nanomotors that rotate (e.g., F0F1-ATP synthase or bacterial flagellar motors) or move in a linear fashion (e.g., the kinesin, myosin and dynein motors). F0F1-ATP synthase is one of the ideal nanomotors or energy providing systems for micro/nanomachines because of its small size, smart and perfect structure, and ultra-high energy transfer efficiency. Therefore, in this paper, we have rev
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Wang, Xin, Zhongju Ye, Shen Lin, Lin Wei, and Lehui Xiao. "Nanozyme-Triggered Cascade Reactions from Cup-Shaped Nanomotors Promote Active Cellular Targeting." Research 2022 (June 21, 2022): 1–15. http://dx.doi.org/10.34133/2022/9831012.

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Self-propelled nanomotors have shown enormous potential in biomedical applications. Herein, we report on a nanozyme-powered cup-shaped nanomotor for active cellular targeting and synergistic photodynamic/thermal therapy under near-infrared (NIR) laser irradiation. The nanomotor is constructed by the asymmetric decoration of platinum nanoparticles (PtNPs) at the bottom of gold nanocups (GNCs). PtNPs with robust peroxidase- (POD-) like activity are employed not only as propelling elements for nanomotors but also as continuous O2 generators to promote photodynamic therapy via catalyzing endogenou
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Qualliotine, Jesse R., Gulcin Bolat, Mara Beltrán-Gastélum, Berta Esteban-Fernández de Ávila, Joseph Wang, and Joseph A. Califano. "Acoustic Nanomotors for Detection of Human Papillomavirus–Associated Head and Neck Cancer." Otolaryngology–Head and Neck Surgery 161, no. 5 (2019): 814–22. http://dx.doi.org/10.1177/0194599819866407.

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Objective Human papillomavirus (HPV)–associated oropharyngeal cancer (OPC) is a lethal disease with increasing incidence; however, technologies for early detection are limited. Nanomotors are synthetic nanostructures that can be powered by different mechanisms and functionalized for specific applications, such as biosensing. The objective of this investigation was to demonstrate an in vitro proof of concept for a novel nanomotor-based cancer detection approach toward in vivo detection of HPV-OPC. Study Design In vitro cell line incubated with ultrasound-propelled nanomotors. Setting Basic scie
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Zhan, Ziheng, Fanan Wei, Jianghong Zheng, Wenguang Yang, Jing Luo, and Ligang Yao. "Recent advances of light-driven micro/nanomotors: toward powerful thrust and precise control." Nanotechnology Reviews 7, no. 6 (2018): 555–81. http://dx.doi.org/10.1515/ntrev-2018-0106.

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AbstractIn the past two decades, micro/nanomotor is emerging as a critical domain of nanoscale research. Light-driven micro/nanomotors have gained a wealth of attention from the academics because of their potential applications in various fields such as environment remediation, biomedical field and cargo delivery at microscale. In order to perform some more challenging and complex tasks, higher actuation force and more precise control are both indispensable for light-driven micro/nanomotors. In this review, we discussed about three major factors: actuation mechanism, structure of micro/nanomot
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Ahmad, Zulfiqar, and James L. Cox. "ATP Synthase: The Right Size Base Model for Nanomotors in Nanomedicine." Scientific World Journal 2014 (2014): 1–10. http://dx.doi.org/10.1155/2014/567398.

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Nanomedicine results from nanotechnology where molecular scale minute precise nanomotors can be used to treat disease conditions. Many such biological nanomotors are found and operate in living systems which could be used for therapeutic purposes. The question is how to build nanomachines that are compatible with living systems and can safely operate inside the body? Here we propose that it is of paramount importance to have a workable base model for the development of nanomotors in nanomedicine usage. The base model must placate not only the basic requirements of size, number, and speed but a
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Dong, Yi, Yu Li, Zheng-Rong Guo, and Jin-Wu Jiang. "Acceleration of hollow carbon nanospheres by gas leakage: An efficient nanomotor." AIP Advances 12, no. 9 (2022): 095204. http://dx.doi.org/10.1063/5.0106866.

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Nanomotors serve as nanoscale engines by converting various energies into mechanical energy. In addition to the huge number of existing nanomotors, we propose a simple nanomotor based on the hollow carbon nanosphere (i.e., fullerene) that is full of gas. We investigate the acceleration of the nanosphere by leakage of gas through a nanopore by molecular dynamics simulations. The nanosphere can be driven to a high speed of 100 m/s under proper simulation conditions, which can be further tuned by temperature, gas density, and pore diameter. We observe rotation of the pore direction during the acc
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Zhang, Guang Yu, Qian Sun, Long Qiu Li, and Lin Wang. "The Effect of Temperature and Solvent Concentration on the Nanomotor Motion by Molecular Dynamics Simulation." Applied Mechanics and Materials 190-191 (July 2012): 253–56. http://dx.doi.org/10.4028/www.scientific.net/amm.190-191.253.

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Nanomotors are nanoscale devices capable of converting energy into movement and forces. In this work, a molecular dynamic model based on a chemically powered nanomotor is established. Based on molecular dynamics, dynamics and kinematics analysis have been made, and the motion of the model has been simulated. Finally, we get the effect of the temperature and the solvent concentration on the nanomotor motion respectively. The center-of-mass velocity of the nanomotor along its axis increases roughly linearly with low temperature, and then gradually reaches a maximum value. The center-of-mass velo
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Chang, Xiaocong, Yiwen Feng, Bin Guo, Dekai Zhou, and Longqiu Li. "Nature-inspired micro/nanomotors." Nanoscale 14, no. 2 (2022): 219–38. http://dx.doi.org/10.1039/d1nr07172f.

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We provide an overview of various nature-inspired micro/nanomotors through summarizing the natural morphology-inspired micro/nanomotors, natural structure-inspired micro/nanomotors and versatile micro/nanomotors with nature-inspired behaviors.
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Alarcón-Correa, Mariana, Debora Walker, Tian Qiu, and Peer Fischer. "Nanomotors." European Physical Journal Special Topics 225, no. 11-12 (2016): 2241–54. http://dx.doi.org/10.1140/epjst/e2016-60067-1.

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Men, Yongjun, Yingfeng Tu, Wei Li, Fei Peng, and Daniela Wilson. "Poly(ionic liquid)s Based Brush Type Nanomotor." Micromachines 9, no. 7 (2018): 364. http://dx.doi.org/10.3390/mi9070364.

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A brush type nanomotor was fabricated via assembly assistant polymerization of poly(ionic liquid) and surface grafting polymerization. The method for large-scale fabrication of brush nanomotors with soft surfaces is described. These soft locomotive particles are based on core-shell brush nanoparticles assembled from poly(ionic liquid) as core and thermoresponsive PNIPAM as brush shells on which platinum nanoparticle (PtNP) were grown in situ. The particles show non-Brownian motion in H2O2 solution.
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Dissertations / Theses on the topic "Nanomotors"

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Amanatidis, Ilias. "Carbon Nanotubes and Carbon Nanomotors." Thesis, Lancaster University, 2006. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.524723.

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Zhang, Kuan. "Chemomagnetooptically controlled nanomotors for (bio)contaminant removal in water." Doctoral thesis, Universitat Autònoma de Barcelona, 2019. http://hdl.handle.net/10803/668667.

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El objetivo de la tesis es desarrollar nanomotores autónomos de silicio/metal activados fotoelectroquímicamente, explorar y comprender los mecanismos involucrados en el proceso de propulsión y analizar su posible aplicación en la eliminación de (bio)contaminantes en el agua a través de la generación in situ de especies reactivas de oxígeno. Básicamente se ha centrado en nanomotores de Si/Pt, que pueden autopropulsarse a partir de la descomposición fotoquímica del H2O2 bajo luz blanca y también con capacidades para ser activados por luz NIR. Se ha desarrollado un método fácil para fabricar nan
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Hortelão, Ana Cãndida. "Enzyme Powered Nanomotors Towards Biomedical Applications." Doctoral thesis, Universitat de Barcelona, 2021. http://hdl.handle.net/10803/672676.

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The advancements in nanotechnology enabled the development of new diagnostic tools and drug delivery systems based on nanosystems, which offer unique features such as large surface area to volume ratio, cargo loading capabilities, increased circulation times, as well as versatility and multifunctionality. Despite this, the majority of nanomedicines do not translate into clinics, in part due to the biological barriers present in the body. Synthetic nano- and micromotors could be an alternative tool in nanomedicine, as the continuous propulsion force and potential to modulate the medium may aid
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Ye, Heng. "Self-Propelled Micro/Nanomotors (MNMs) and Their Applications." Thesis, Curtin University, 2018. http://hdl.handle.net/20.500.11937/73522.

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The majority of the micro/nanomotors use the precious noble metal platinum for propulsion. However, platinum suffers from high-cost, scarcity, and possibility of deactivation in various media. In this thesis, we explored the MnO2 based materials for the fabrication of the high-performance and low-cost micro/nanomotors. These newly developed MnO2 based micromotors show great potential for replacing Pt and will greatly improves the applications of micro/nanomotors for biomedical science and environmental remediations areas.
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Theiß, Janine. "Strukturelle Einblicke in die Funktionalität des Terminase-Proteins pUL89, eine Untereinheit des Nanomotors des humanen Cytomegalievirus (HCMV)." Doctoral thesis, Humboldt-Universität zu Berlin, 2020. http://dx.doi.org/10.18452/22115.

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Der DNA-Verpackungsmechanismus des humanen Cytomegalievirus (HCMV) ist charakteristisch für große DNA-Viren wie Herpesviren und ds-Bakteriophagen. Er beruht auf der Spaltung der konkatemeren DNA durch einen viralen, hetero-oligomeren Proteinkomplex, der Terminase. In der vorliegenden Arbeit konnten die funktionellen Domänen der Terminase-Untereinheit pUL89 in vitro identifiziert und charakterisiert werden. Neben einer Nuklease-Aktivität besitzt pUL89 auch die Fähigkeit dsDNA sequenz-unabhängig zu binden. Durch Nuklease-Untersuchungen konnte gezeigt werden, dass pUL89 sowohl dsDNA, als auch li
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Sanchez, Samuel, Alexander A. Solovev, Sabine Schulze, and Oliver G. Schmidt. "Controlled manipulation of multiple cells using catalytic microbots." Saechsische Landesbibliothek- Staats- und Universitaetsbibliothek Dresden, 2014. http://nbn-resolving.de/urn:nbn:de:bsz:14-qucosa-138608.

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Self-propelled microjet engines (microbots) can transport multiple cells into specific locations in a fluid. The motion is externally controlled by a magnetic field which allows to selectively load, transport and deliver the cells<br>Dieser Beitrag ist mit Zustimmung des Rechteinhabers aufgrund einer (DFG-geförderten) Allianz- bzw. Nationallizenz frei zugänglich
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Theiß, Janine [Verfasser]. "Strukturelle Einblicke in die Funktionalität des Terminase-Proteins pUL89, eine Untereinheit des Nanomotors des humanen Cytomegalievirus (HCMV). / Janine Theiß." Berlin : Humboldt-Universität zu Berlin, 2020. http://d-nb.info/1222028654/34.

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Sanchez, Samuel, Alexander A. Solovev, Sabine Schulze, and Oliver G. Schmidt. "Controlled manipulation of multiple cells using catalytic microbots." Royal Society of Chemistry, 2011. https://tud.qucosa.de/id/qucosa%3A27763.

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Self-propelled microjet engines (microbots) can transport multiple cells into specific locations in a fluid. The motion is externally controlled by a magnetic field which allows to selectively load, transport and deliver the cells.<br>Dieser Beitrag ist mit Zustimmung des Rechteinhabers aufgrund einer (DFG-geförderten) Allianz- bzw. Nationallizenz frei zugänglich.
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Gonzalez, Ibon Santiago. "DNA programmed assembly of active matter at the micro and nano scales." Thesis, University of Oxford, 2017. https://ora.ox.ac.uk/objects/uuid:8cc298ba-d35c-4c58-8893-b1f2c9d6c65c.

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Small devices capable of self-propulsion have potential application in areas of nanoscience where autonomous locomotion and programmability are needed. The specific base-pairing interactions that arise from DNA hybridisation permit the programmed assembly of matter and also the creation of controllable dynamical systems. The aim of this thesis is to use the tools of DNA nanotechnology to design synthetic active matter at the micro and nano scales. In the first section, DNA was used as an active medium capable of transporting information faster than diffusion in the form of chemical waves. DNA
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Celestino, Alan. "Tuning coupled electronic and nuclear dynamics in the nanoscale." Doctoral thesis, Saechsische Landesbibliothek- Staats- und Universitaetsbibliothek Dresden, 2018. http://nbn-resolving.de/urn:nbn:de:bsz:14-qucosa-232703.

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In general terms, this thesis is about tuning coupled electronic and nuclear (or mechanical) dynamics in the nanoscale. With “tuning” we mean changing parameters to achieve a specific phenomenon or functionality. This is not a trivial task in this context, because the dynamics of the systems we consider depend nontrivially on the parameters. To be more concrete, we consider two systems which are “complimentary” in many aspects. We start by studying nonradiative decay of an electronic excitation in a minimal example from supramolecular chemistry: a molecular dimer. Each monomer in our model ha
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Books on the topic "Nanomotors"

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Khataee, A. R. Mechanical and dynamical principles of protein nanomotors: The key to nano-engineering applications. Nova Science Publishers, 2009.

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Khataee, A. R. Mechanical and dynamical principles of protein nanomotors: The key to nano-engineering applications. Nova Science Publishers, 2010.

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Book chapters on the topic "Nanomotors"

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Yoda, Minami, Jean-Luc Garden, Olivier Bourgeois, et al. "Nanomotors." In Encyclopedia of Nanotechnology. Springer Netherlands, 2012. http://dx.doi.org/10.1007/978-90-481-9751-4_100522.

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Santiago, Ibon. "Self-Propelled Nanomotors." In 21st Century Nanoscience – A Handbook. CRC Press, 2020. http://dx.doi.org/10.1201/9780429351594-13.

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Zhao, Yanan, Xiaoxia Chen, and Yuchao Li. "Light-Driven Micro/Nanomotors in Biomedical Applications." In Advances in Optics and Optoelectronics. Springer Nature Singapore, 2025. https://doi.org/10.1007/978-981-96-4982-2_12.

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Lin, Xiankun, Zhiguang Wu, and Qiang He. "Controlled Molecular Assembly Toward Self-propelled Micro-/Nanomotors." In Supramolecular Chemistry of Biomimetic Systems. Springer Singapore, 2017. http://dx.doi.org/10.1007/978-981-10-6059-5_11.

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Guo, Peixuan, Hiroyuki Noji, Christopher M. Yengo, Zhengyi Zhao, and Ian Grainge. "Biological Nanomotors with Linear, Rotation, or Revolution Motion Mechanism." In Biomotors and their Nanobiotechnology Applications. CRC Press, 2023. http://dx.doi.org/10.1201/9780429203367-2.

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Coopersmith, Kaitlin J. "Putting Nanoparticles to Work: Self-propelled Inorganic Micro- and Nanomotors." In Nanostructure Science and Technology. Springer International Publishing, 2017. http://dx.doi.org/10.1007/978-3-319-59662-4_6.

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Negi, Sunita. "Simulation Studies of Nanomotors Based on Carbon Nanotubes for Nanodelivery Systems." In Recent Trends in Nanomedicine and Tissue Engineering. River Publishers, 2022. http://dx.doi.org/10.1201/9781003339236-8.

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Esteban, Olga, Daniel Christ, and Daniela Stock. "Purification of Molecular Machines and Nanomotors Using Phage-Derived Monoclonal Antibody Fragments." In Methods in Molecular Biology. Humana Press, 2013. http://dx.doi.org/10.1007/978-1-62703-354-1_12.

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Mallick, Apabrita, and Soumyajit Roy. "Soft-Oxometalates: A New State of Oxometalates and Their Potential Applications as Nanomotors." In Metal Nanoparticles. Wiley-VCH Verlag GmbH & Co. KGaA, 2017. http://dx.doi.org/10.1002/9783527807093.ch4.

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Sefidkar, Narmin, Samira Fathizadeh, and Fatemeh Nemati. "Multifractal Analysis of Bioenergy Transport in a Protein Nanomotor." In 14th Chaotic Modeling and Simulation International Conference. Springer International Publishing, 2022. http://dx.doi.org/10.1007/978-3-030-96964-6_28.

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Conference papers on the topic "Nanomotors"

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Tanaka, Yoshito Y., and Tsutomu Shimura. "Light powered nanomotors and control of light momentum via engineering localized plasmon resonances." In Conference on Lasers and Electro-Optics/Pacific Rim. Optica Publishing Group, 2022. http://dx.doi.org/10.1364/cleopr.2022.ctua16d_01.

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We demonstrate a linear nanomotor using lateral optical force due to directional side scattering by a plasmonic nanoparticle. We also propose of the nanomotors with different functions, direction-controllable nanomotor and nonlinear optical nanomotor.
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Guo, Zeng-Yuan, Bing-Yang Cao, and Quan-Wen Hou. "A Novel Driving Force for Nanodevices." In ASME 2009 Second International Conference on Micro/Nanoscale Heat and Mass Transfer. ASMEDC, 2009. http://dx.doi.org/10.1115/mnhmt2009-18545.

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Design and construction of nanomotors are one of the most attractive fields in nanotechnology. Following the introduction of a novel concept of the thermomass, the relative mass of a phonon gas based on the Einstein’s energy-mass relation, the continuum and momentum conservation equations for the phonon gas are established to characterize the hydrodynamics of the phonon current in a solid. Like the gas flows in the porous mediums, the phonon current in a dielectric solid imposes a driving force on the solid framework atoms, which can be calculated quantitatively and can be applied to actuate n
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Smirnov, Anatoly, Lev Murokh, Sergey Savel'ev, and Franco Nori. "Bio-mimicking rotary nanomotors." In SPIE Europe Microtechnologies for the New Millennium, edited by Achim Wixforth. SPIE, 2009. http://dx.doi.org/10.1117/12.821567.

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Ilic, Ognjen, Ido Kaminer, Bo Zhen, Owen D. Miller, Hrvoje Buljan, and Marin Soljačić. "Topologically Enabled Optical Nanomotors." In CLEO: QELS_Fundamental Science. OSA, 2017. http://dx.doi.org/10.1364/cleo_qels.2017.fth1h.3.

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Gibbs, John, and Yiping Zhao. "Catalytic nanomotors: challenges and opportunities." In SPIE Defense, Security, and Sensing, edited by Harold Szu. SPIE, 2011. http://dx.doi.org/10.1117/12.887526.

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Käll, Mikael. "Optically driven plasmonic nanomotors (Conference Presentation)." In Complex Light and Optical Forces XII, edited by David L. Andrews, Enrique J. Galvez, and Jesper Glückstad. SPIE, 2018. http://dx.doi.org/10.1117/12.2292984.

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Bonin, Keith D., W. Andrew Shelton, and Thad G. Walker. "Light-torqued nanomotors free of a surface." In Optical Science and Technology, the SPIE 49th Annual Meeting, edited by Kishan Dholakia and Gabriel C. Spalding. SPIE, 2004. http://dx.doi.org/10.1117/12.559572.

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BONIN, KEITH, ANDREW SHELTON, BAKHIT KOURMAN, and THAD WALKER. "LIGHT TORQUED NANOMOTORS IN A STANDING WAVE." In Clusters and Nano-Assemblies - Physical and Biological Systems. WORLD SCIENTIFIC, 2005. http://dx.doi.org/10.1142/9789812701879_0030.

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Tanaka, Yoshito. "Plasmonic nanomotors with directional control of scattered light." In Molecular and Nano Machines III, edited by Zouheir Sekkat and Takashige Omatsu. SPIE, 2020. http://dx.doi.org/10.1117/12.2569233.

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Yoshizumi, Yoshitaka, Masatoshi Yokokawa, and Hiroaki Suzuki. "Self-deformable micro/nanomotors with organic-inorganic hybrid structures." In 2016 IEEE 11th Annual International Conference on Nano/Micro Engineered and Molecular Systems (NEMS). IEEE, 2016. http://dx.doi.org/10.1109/nems.2016.7758249.

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Reports on the topic "Nanomotors"

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Sen, Ayusman. Self-Moving Catalytic Nanomotors. Defense Technical Information Center, 2013. http://dx.doi.org/10.21236/ada595209.

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