| 1 | Sporesat: a nanosatellite platform lab-on-a-chip system for investigating gravity threshold of fern-spore single-cell calcium ion currents
| 1672 |
| 2 | Lab-on-a-chip approaches for space-biology research | 1300 |
| 3 | Electrochemical characterization of graphene nanocomposites for development of robust biosensor | 1232 |
| 4 | Emerging technologies for non-invasive quantification of physiological oxygen transport in plants | 1146 |
| 5 | Low-cost microcontact printing for direct enzyme patterning on paper
| 1124 |
| 6 | Portable Arduino® platform for electrochemical sensors | 1115 |
| 7 | Electrochemical sensor centrifuge platform for
single-cell study
| 1068 |
| 8 | Hybrid metallic nanoparticles: enhanced bioanalysis and biosensing via carbon nanotubes, graphene, and organic conjugation | 1065 |
| 9 | Electrochemical characterization of polylactic acid-block-poly(2-vinylpyridine)/gold nanoparticle (aunp) composites for glucose biosensor development | 1057 |
| 10 | Ion-selective electrode biochip for applications in a liquid environment | 1043 |
| 11 | PEDOT: PSS composite deposited on a microplatinum electrode as a robust biosensor transducer for applications in liquid media | 1030 |
| 12 | Squeeze-film hydrogel deposition and dry micropatterning | 1029 |
| 13 | Nanomaterial biocompatibility and antimicrobial effects on
Escherichia coli | 1025 |
| 14 | Pedot: PSS–modified platinum microelectrodes for measurements in aqueous media: Effect of polymer surface area on long-term anodic peak current stability | 1009 |
| 15 | Electrochemical characterization of Graphene-based transducers for biosensor development | 943 |
| 16 | An autonomous lab on a chip for space flight calibration of gravity-induced transcellular calcium polarization in single-cell fern spores | 896 |
| 17 | Self-powered mobile sensor for in-pipe potable water quality monitoring | 883 |
| 18 | Enhancing water distribution system security through water quality mobile sensor operation | 878 |
| 19 | Nanomaterial biocompatibility and antimicrobial effects on
Escherichia coli | 873 |
| 20 | Characterizing graphene-modified electrodes for interfacing with Arduino®-based devices | 854 |
| 21 | Effectiveness of multi-walled carbon nanotubes and activated carbon for capturing E. coli 0157:H7 for application in water filtration | 851 |
| 22 | Portable and versatile sensors for field work and humanitarian use | 840 |
| 23 | Problem Formulation within open-ended problems: looking through the structure, behavior, function (SBF) and novice-expert (NE) frameworks | 799 |
| 24 | Design and fabrication of biochemical sensors:
Innovative materials that enhance electrochemical transduction | 791 |
| 25 | Transforming the first-year engineering experience through authentic problem-solving: taking a models and modeling perspective. | 781 |
| 26 | Multi-analyte biochip (MAB) based on all-solid-state Ion-selective electrodes (ASSISE) for Physiological Research | 778 |
| 27 | Operation of mobile sensors for monitoring municipal drinking water distribution systems | 778 |
| 28 | Effect of gold nanoparticles and electrode dryingtime on reduced graphene oxide-based compositewith respect topeak current of cyclic voltammetry | 753 |
| 29 | Cyclic voltammetry and electrical impedance spectroscopy of electrodes modified with PEDOT:PSS-reduced graphene oxide composite | 741 |
| 30 | Study of electropolymerized PEDOT:PSS transducers for application as electrochemical sensors in aqueous media | 722 |
