Samuel Sánchez
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Samuel Sánchezengineering Degrees
Engineering
#7889
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#9336
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Electrical Engineering
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#2584
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Samuel Sánchezcomputer-science Degrees
Computer Science
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#11215
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Computational Linguistics
#2681
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#2710
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Machine Learning
#4862
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#4919
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Artificial Intelligence
#5231
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#5302
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Engineering Computer Science
Samuel Sánchez's Degrees
- PhD Computer Science Stanford University
- Masters Electrical Engineering University of California, Berkeley
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(Suggest an Edit or Addition)Samuel Sánchez's Published Works
Number of citations in a given year to any of this author's works
Total number of citations to an author for the works they published in a given year. This highlights publication of the most important work(s) by the author
Published Works
- Chemically powered micro- and nanomotors. (2015) (700)
- Rolled-up nanotech on polymers: from basic perception to self-propelled catalytic microengines. (2011) (541)
- Self-Propelled Micromotors for Cleaning Polluted Water (2013) (422)
- Graphene-Based Microbots for Toxic Heavy Metal Removal and Recovery from Water (2016) (415)
- Magnetic Control of Tubular Catalytic Microbots for the Transport, Assembly, and Delivery of Micro‐objects (2010) (364)
- Catalytic Janus motors on microfluidic chip: deterministic motion for targeted cargo delivery. (2012) (323)
- Self-propelled nanotools. (2012) (317)
- Enzyme-Powered Hollow Mesoporous Janus Nanomotors. (2015) (314)
- Development of a Sperm‐Flagella Driven Micro‐Bio‐Robot (2013) (307)
- Catalytic Mesoporous Janus Nanomotors for Active Cargo Delivery (2015) (294)
- Topographical pathways guide chemical microswimmers (2016) (276)
- Micro- and Nanomotors as Active Environmental Microcleaners and Sensors. (2018) (230)
- Motion Control of Urea-Powered Biocompatible Hollow Microcapsules. (2016) (228)
- Dynamics of biocatalytic microengines mediated by variable friction control. (2010) (224)
- Controlled manipulation of multiple cells using catalytic microbots. (2011) (209)
- Transport of cargo by catalytic Janus micro-motors (2012) (204)
- Superfast motion of catalytic microjet engines at physiological temperature. (2011) (197)
- Designing Micro- and Nanoswimmers for Specific Applications (2016) (189)
- Nanorobots: the ultimate wireless self-propelled sensing and actuating devices. (2009) (176)
- Microbots swimming in the flowing streams of microfluidic channels. (2011) (174)
- Rolled-up magnetic microdrillers: towards remotely controlled minimally invasive surgery. (2013) (171)
- Electrochemical nanobiosensors (2007) (170)
- Enzyme Catalysis To Power Micro/Nanomachines (2016) (167)
- Enzyme‐Powered Nanobots Enhance Anticancer Drug Delivery (2018) (159)
- Chemotactic behavior of catalytic motors in microfluidic channels. (2013) (149)
- Stimuli-Responsive Microjets with Reconfigurable Shape (2014) (148)
- Fundamental Aspects of Enzyme-Powered Micro- and Nanoswimmers. (2018) (133)
- Light-controlled propulsion of catalytic microengines. (2011) (133)
- Targeting 3D Bladder Cancer Spheroids with Urease-Powered Nanomotors. (2018) (128)
- Magnetotactic Bacteria Powered Biohybrids Target E. coli Biofilms. (2017) (121)
- Influence of Enzyme Quantity and Distribution on the Self-Propulsion of Non-Janus Urease-Powered Micromotors. (2018) (114)
- Toward a fast, easy, and versatile immobilization of biomolecules into carbon nanotube/polysulfone-based biosensors for the detection of hCG hormone. (2008) (111)
- Lab-in-a-tube: detection of individual mouse cells for analysis in flexible split-wall microtube resonator sensors. (2011) (109)
- Lab-in-a-tube: on-chip integration of glass optofluidic ring resonators for label-free sensing applications. (2012) (109)
- Self-Assembly of Micromachining Systems Powered by Janus Micromotors. (2016) (108)
- Biohybrid Microtube Swimmers Driven by Single Captured Bacteria. (2017) (106)
- Bubble-Free Propulsion of Ultrasmall Tubular Nanojets Powered by Biocatalytic Reactions (2016) (105)
- Intrinsic enzymatic properties modulate the self-propulsion of micromotors (2019) (98)
- Medical Imaging for the Tracking of Micromotors. (2018) (98)
- Microbots Decorated with Silver Nanoparticles Kill Bacteria in Aqueous Media. (2017) (95)
- Precise Localization and Control of Catalytic Janus Micromotors Using Weak Magnetic Fields (2015) (92)
- Carbon nanotube/polysulfone screen-printed electrochemical immunosensor. (2007) (89)
- Lab-in-a-tube: ultracompact components for on-chip capture and detection of individual micro-/nanoorganisms. (2012) (89)
- Enzyme-Powered Gated Mesoporous Silica Nanomotors for On-Command Intracellular Payload Delivery. (2019) (89)
- Biohybrid Janus Motors Driven by Escherichia coli (2016) (88)
- Reversed Janus Micro/Nanomotors with Internal Chemical Engine (2016) (87)
- Poisoning of bubble propelled catalytic micromotors: the chemical environment matters (2013) (86)
- Self-Sensing Enzyme-Powered Micromotors Equipped with pH-Responsive DNA Nanoswitches. (2019) (85)
- Collective behaviour of self-propelled catalytic micromotors. (2013) (79)
- Swarming behavior and in vivo monitoring of enzymatic nanomotors within the bladder (2021) (75)
- Metal-Oxide-Based Microjets for the Simultaneous Removal of Organic Pollutants and Heavy Metals. (2018) (74)
- Noncontinuous Super-Diffusive Dynamics of a Light-Activated Nanobottle Motor. (2018) (73)
- Carbon nanotube/polysulfone composite screen-printed electrochemical enzyme biosensors. (2007) (71)
- Rolled-up Functionalized Nanomembranes as Three-Dimensional Cavities for Single Cell Studies (2014) (69)
- Magnetic microhelix coil structures. (2011) (68)
- Fabrication and applications of large arrays of multifunctional rolled-up SiO/SiO2 microtubes (2012) (63)
- Tunable catalytic tubular micro-pumps operating at low concentrations of hydrogen peroxide. (2011) (62)
- Reusable and Long‐Lasting Active Microcleaners for Heterogeneous Water Remediation (2016) (62)
- Self-Propelled Micro/Nanomotors for On-Demand Biomedical Cargo Transportation. (2020) (60)
- The Control of Self-Propelled Microjets Inside a Microchannel With Time-Varying Flow Rates (2014) (59)
- Lipase-Powered Mesoporous Silica Nanomotors for Triglyceride Degradation. (2019) (59)
- Nano and micro architectures for self-propelled motors (2015) (57)
- Cross-stream migration of active particles (2017) (56)
- Micromotors with built-in compasses. (2012) (56)
- Flexible sensors for biomedical technology. (2016) (54)
- Bio-catalytic mesoporous Janus nano-motors powered by catalase enzyme (2017) (53)
- Thermal activation of catalytic microjets in blood samples using microfluidic chips. (2013) (53)
- Smart biosensors for multiplexed and fully integrated point-of-care diagnostics. (2016) (52)
- Three-dimensional closed-loop control of self-propelled microjets (2013) (49)
- Inkjet printed flexible non-enzymatic glucose sensor for tear fluid analysis (2018) (49)
- Ultracompact Three-Dimensional Tubular Conductivity Microsensors for Ionic and Biosensing Applications (2014) (47)
- Photoactive rolled-up TiO2 microtubes: fabrication, characterization and applications† †Electronic supplementary information (ESI) available. See DOI: 10.1039/c4tc00796d Click here for additional data file. (2014) (47)
- A size dependent evaluation of the cytotoxicity and uptake of nanographene oxide. (2015) (46)
- Effect of surfactants on the performance of tubular and spherical micromotors - a comparative study. (2014) (46)
- Enzyme-Powered Liquid Metal Nanobots Endowed with Multiple Biomedical Functions. (2021) (46)
- Miniaturized soft bio-hybrid robotics: a step forward into healthcare applications. (2016) (44)
- Synthesis and toxicity characterization of carbon coated iron oxide nanoparticles with highly defined size distributions. (2014) (44)
- Directed Flow of Micromotors through Alignment Interactions with Micropatterned Ratchets. (2018) (44)
- Fuel‐Free Nanocap‐Like Motors Actuated Under Visible Light (2018) (44)
- Propulsion Mechanism of Catalytic Microjet Engines (2014) (44)
- The smallest man-made jet engine. (2011) (43)
- Molecular Insights into Division of Single Human Cancer Cells in On-Chip Transparent Microtubes (2016) (41)
- Platinum-free cobalt ferrite based micromotors for antibiotic removal (2017) (40)
- Enzymatic Strategies to Construct L‐Lactate Biosensors Based on Polysulfone/Carbon Nanotubes Membranes (2012) (40)
- Dynamics of novel photoactive AgCl microstars and their environmental applications (2017) (40)
- Nano-photocatalysts in microfluidics, energy conversion and environmental applications. (2015) (40)
- Hybrid Biodegradable Nanomotors through Compartmentalized Synthesis (2020) (38)
- Enzyme-Powered Porous Micromotors Built from a Hierarchical Micro- and Mesoporous UiO-Type Metal-Organic Framework. (2020) (37)
- Foods and beverages (1984) (36)
- Biomimicry of Cellular Motility and Communication Based on Synthetic Soft-Architectures. (2020) (34)
- Biohybrid soft robots with self-stimulating skeletons (2021) (33)
- Electrochemical activation of carbon nanotube/polymer composites. (2009) (33)
- Wireless Magnetic-Based Closed-Loop Control of Self-Propelled Microjets (2014) (32)
- Magnetic control of potential microrobotic drug delivery systems: Nanoparticles, magnetotactic bacteria and self-propelled microjets (2013) (31)
- Biocompatible, accurate, and fully autonomous: a sperm-driven micro-bio-robot (2014) (31)
- Dimensionality of Rolled-up Nanomembranes Controls Neural Stem Cell Migration Mechanism (2015) (30)
- Force Modulation and Adaptability of 3D‐Bioprinted Biological Actuators Based on Skeletal Muscle Tissue (2018) (29)
- Enzyme Conformation Influences the Performance of Lipase-powered Nanomotors. (2020) (29)
- Surface Conductive Graphene-Wrapped Micromotors Exhibiting Enhanced Motion. (2015) (28)
- Self-propelling micro-nanorobots: challenges and future perspectives in nanomedicine. (2017) (27)
- Tailoring three-dimensional architectures by rolled-up nanotechnology for mimicking microvasculatures. (2015) (26)
- Confinement and Deformation of Single Cells and Their Nuclei Inside Size-Adapted Microtubes (2014) (26)
- Fabrication and applications of complex-shaped microparticles via microfluidics. (2015) (25)
- Corrosion of self-propelled catalytic microengines. (2013) (24)
- Sperm dynamics in tubular confinement. (2015) (23)
- Drug-Free Enzyme-Based Bactericidal Nanomotors against Pathogenic Bacteria (2021) (23)
- Ionic Species Affect the Self-Propulsion of Urease-Powered Micromotors (2020) (22)
- Engineering Intelligent Nanosystems for Enhanced Medical Imaging (2020) (22)
- Artificial micro-swimmers in simulated natural environments. (2016) (22)
- Carbon nanotube/polysulfone soft composites: preparation, characterization and application for electrochemical sensing of biomarkers. (2009) (21)
- Autonomous Treatment of Bacterial Infections in Vivo Using Antimicrobial Micro- and Nanomotors (2022) (18)
- Self-assembly via microfluidics (2015) (18)
- LipoBots: Using Liposomal Vesicles as Protective Shell of Urease‐Based Nanomotors (2020) (17)
- Dynamics of radial-magnetized microhelix coils (2011) (16)
- Phase-inversion method for incorporation of metal nanoparticles into carbon-nanotube/polymer composites. (2009) (16)
- Self-Propulsion of Active Colloids via Ion Release: Theory and Experiments. (2020) (15)
- Facile fabrication of mesoporous silica micro-jets with multi-functionalities† †Electronic supplementary information (ESI) available: Detailed BET experiments, videos and supplementary data. See DOI: 10.1039/c7nr04527a (2017) (15)
- Control of Self-Propelled Microjets Inside a Microchannel With Time-Varying Flow Rates (2014) (14)
- Microfluidic-Assisted Fabrication of Flexible and Location Traceable Organo-Motor (2015) (14)
- Nanomotors: Magnetic Control of Tubular Catalytic Microbots for the Transport, Assembly, and Delivery of Micro-objects (Adv. Funct. Mater. 15/2010) (2010) (13)
- Tubular microjets: Fabrication, factors affecting the motion and mechanism of propulsion (2016) (13)
- Biohybrid robotics: From the nanoscale to the macroscale. (2021) (11)
- Colonization of Enterococcus faecalis in a new SiO/SiO(2)-microtube in vitro model system as a function of tubule diameter. (2014) (10)
- Core–shell microspheres for the ultrafast degradation of estrogen hormone at neutral pH (2018) (10)
- Pushing Bacterial Biohybrids to In Vivo Applications. (2017) (10)
- Inferring non-equilibrium interactions from tracer response near confined active Janus particles (2021) (10)
- Integrated sensitive on-chip ion field effect transistors based on wrinkled InGaAs nanomembranes (2011) (9)
- Lipase‐Powered Mesoporous Silica Nanomotors for Triglyceride Degradation (2019) (9)
- Guidance of active particles at liquid-liquid interfaces near surfaces. (2019) (9)
- Engineering transient dynamics of artificial cells by stochastic distribution of enzymes (2021) (8)
- Design, Optimization and Characterization of Bio-Hybrid Actuators Based on 3D-Bioprinted Skeletal Muscle Tissue (2019) (7)
- Motion in microfluidic ratchets. (2016) (6)
- Lab-in-a-tube systems as ultra-compact devices. (2015) (6)
- Multicolor Super-Resolution Microscopy of Protein Corona on Single Nanoparticles (2022) (5)
- Scalable and integrated flow synthesis of triple-responsive nano-motors via microfluidic Pickering emulsification (2020) (5)
- 3D Bioprinted Muscle-Based Bio-Actuators: Force Adaptability Due to Training (2018) (5)
- Tubular Micro-nanorobots: Smart Design for Bio-related Applications (2013) (5)
- Magnetotactic bacteria and microjets: A comparative study (2013) (5)
- Detection of biomarkers with carbon nanotube-based immunosensors. (2010) (4)
- Micromotor-in-Sponge Platform for Multicycle Large-Volume Degradation of Organic Pollutants. (2022) (4)
- Correction to Enzyme-Powered Hollow Mesoporous Janus Nanomotors. (2015) (4)
- Enzyme Conformation Influences the Performance of Lipase‐powered Nanomotors (2020) (4)
- Biohybrid robots: recent progress, challenges, and perspectives (2022) (3)
- Biohybrids: Biohybrid Janus Motors Driven by Escherichia coli (Adv. Mater. Interfaces 2/2016) (2016) (3)
- Lab-ina-tube systems as ultracompact devices (2015) (3)
- 3D-bioengineered model of human skeletal muscle tissue with phenotypic features of aging for drug testing purposes (2021) (3)
- Enzyme-powered micro- and nano-motors: key parameters for an application-oriented design (2022) (3)
- Back Cover: Chemotactic Behavior of Catalytic Motors in Microfluidic Channels (Angew. Chem. Int. Ed. 21/2013) (2013) (2)
- 3D-printed drug testing platform based on a 3D model of aged human skeletal muscle (2020) (2)
- Bio-hybrid soft robots with self-stimulating skeletons (2020) (2)
- Monitoring the collective behavior of enzymatic nanomotors in vitro and in vivo by PET-CT (2020) (2)
- Rücktitelbild: Chemotactic Behavior of Catalytic Motors in Microfluidic Channels (Angew. Chem. 21/2013) (2013) (2)
- Cell Microenvironment: Confinement and Deformation of Single Cells and Their Nuclei Inside Size‐Adapted Microtubes (Adv. Healthcare Mater. 11/2014) (2014) (1)
- Distribution of tracer particles around a catalytic Janus particle (2019) (1)
- Protein corona formation around biocatalytic nanomotors unveiled by STORM (2021) (1)
- Micro‐robots: Development of a Sperm‐Flagella Driven Micro‐Bio‐Robot (Adv. Mater. 45/2013) (2013) (1)
- Janus Micromotors: Surface Conductive Graphene-Wrapped Micromotors Exhibiting Enhanced Motion (Small 38/2015). (2015) (0)
- Biocompatible, accurate, and fully autonomous: a sperm-driven micro-bio-robot (2014) (0)
- Molecular Insights into Division of Single Human Cancer Cells On-Chip Transparent (2016) (0)
- CHARACTERIZATION AND ENHANCEMENT OF ELECTROCHEMICAL PROPERTIES OF MWCNT/POLYSULFONE COMPOSITE MODIFIED SCREEN- PRINTED ELECTRODES (2008) (0)
- Back Cover: Dynamics of Novel Photoactive AgCl Microstars and Their Environmental Applications (ChemNanoMat 1/2017) (2017) (0)
- Autonomous treatment of bacterial infections in vivo using antimicrobial micro- and nanomachines (2021) (0)
- Correction: Enzyme-powered micro- and nano-motors: key parameters for an application-oriented design (2022) (0)
- Intrinsic enzymatic properties modulate the self-propulsion of micromotors (2019) (0)
- Author Correction: Engineering transient dynamics of artificial cells by stochastic distribution of enzymes (2021) (0)
- Catalytic/Bio-catalytic Janus Mesoporous Silica Nano-motors for Active Drug Delivery (2015) (0)
- Light-Triggered Mechanical Disruption of Extracellular Barriers by Swarms of Enzyme-Powered Nanomotors for Enhanced Delivery (2023) (0)
- Studying synthetic micro swimmers near surfaces and using them to build self-assembled machines (2015) (0)
- Bioengineering hybrid nanomachines : nanoparticles powered by enzyme catalysis (2019) (0)
- Cover Feature: Nanorods Based on Mesoporous Silica Containing Iron Oxide Nanoparticles as Catalytic Nanomotors: Study of Motion Dynamics (2/2021) (2021) (0)
- Lab on a Chip FOCUS (2015) (0)
- Micro- and Nanomachines (2015) (0)
- Guest editorial: special issue micro- and nanomachines. (2015) (0)
- Sperm Migration: Sperm Dynamics in Tubular Confinement (Small 7/2015) (2015) (0)
- Improved performance of biohybrid muscle-based bio-bots doped with piezoelectric boron nitride nanotubes (2022) (0)
- Characterization of MWCNT/PS/antibody membrane prepared by phase inversion method for biosensing applications (2008) (0)
- Nanorobots: The Ultimate Wireless Self‐Propelled Sensing and Actuating Devices (2009) (0)
- Tubular microjets: Fabrication, factors affecting the motion and mechanism of propulsion (2016) (0)
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What Schools Are Affiliated With Samuel Sánchez?
Samuel Sánchez is affiliated with the following schools:
