Publications
    2010~

  1. S.K. Pramanik and H. Suzuki, Microfluidic device with a push-pull sequential solution-exchange function for affinity sensing, Microfluid Nanofluid, 23:19, (2019) [More]
  2. G. Biswas, M. Rana, T. Kazuhiro and H. Suzuki, A simple micropump based on a freeze-dried superabsorbent polymer for multiplex solution processing in disposable devices, R. Soc. open sci., 6, (2019), 182213. [More]
  3. K. Tanabe, M. Kinoshita, M. Nakashima, K. Kariya, M. Yokokawa, Y. Morimoto and H. Suzuki, On-site rapid detection of antibacterial activity of neutrophils using freeze-dried bacteria, Med Devices Sens., 2, (2019), e10030. [More]
  4. K. Ebihara, K. Uchiyamada, K. Asakawa, K. Okubo and H. Suzuki, Trimodal polymer waveguide interferometer for chemical sensing, Japanese Journal of Applied Physics, 58, (2019), 062005. [More]
  5. I. Anshori, S. Takie and H. Suzuki, Active junctions to improve sensitivity and detection limit of a microdevice based on coulometry coupled with silver metallization, Electrianalysis, 31, (2019), 1630-1634. [More]
  6. K. Uchiyamada, K. Okubo, K. Asakawa, Y. Kamon, Y. Kitayama, T. Takeuchi, and H. Suzuki, Perforated Bimodal Interferometric Biosensor for Affinity Sensing, Advanced Materials Technologies, 4, (2019), 1800533. [More]
  7. K. Uchiyamada, K. Okubo, K. Asakawa, Y. Kamon, Y. Kitayama, T. Takeuchi, and H. Suzuki, Directional Coupler Biosensor with Molecularly Imprinted Polymer, Sensors and Materials, 30, (2018), 1009-1017. [More]
  8. A. Miah, and H. Suzuki, Disposable Na+ Ion-Sensing Device for Research on Salt-Tolerant Plants, Sensors and Materials, 30, (2018), 119-127. [More]
  9. K. Onishi, J. Enomoto, T. Araki, R. Takagi, H. Suzuki, and J. Fukuda, Electrochemical Microdevices for Rapid and On-Site Determination of the Minimum Inhibitory Concentration of Antibiotics, The Analyst, 143, (2018), 396-399. [More]
  10. I. Anshori, and H. Suzuki, Microfluidic Device for High-Sensitivity Coulometric Detection of Proteins, Sensors and Actuators, B: Chemical, 256, (2018), 835-838. [More]
  11. Y. Yoshizumi, and H. Suzuki, Self-Propelled Metal-Polymer Hybrid Micromachines with Bending and Rotational Motions, ACS Applied Materials and Interfaces, 9, (2017), 21355-21361. [More]
  12. A. Yamagishi, K. Tanabe, M. Yokokawa, Y. Morimoto, M. Kinoshita, and H. Suzuki, Microfluidic Device Coupled with a Microfabricated Oxygen Electrode for the Measurement of Bactericidal Activity of Neutrophil-like Cells, Analytica Chimica Acta 985, (2017), 1-6. [More]
  13. T. Watanabe, G. C. Biswas, E. T. Carlen, and H. Suzuki, An Autonomous Electrochemically-Actuated Microvalve for Controlled Transport in Stand-Alone Microfluidic Systems. RSC Advances, 7, (2017), 39018-39023. [More]
  14. K. Ikemoto, T. Seki, S. Kimura, Y. Nakaoka, S. Tsuchiya, F. Sassa, M. Yokokawa, and H. Suzuki, Microfluidic Separation of Redox Reactions for Coulometry Based on Metallization at the Mixed Potential, Analytical Chemistry 88, (2016), 9427-9434. [More]
  15. Y. Yoshizumi, K. Okubo, M. Yokokawa, and H. Suzuki, Programmed Transport and Release of Cells by Self-Propelled Micromotors, Langmuir, 32 (2016) 9381-9388. [More]
  16. R. Usuba, M. Yokokawa, T. N. Ackermann, A. Llobera, K. Fukunaga, S. Murata, N. Ohkohchi, and H. Suzuki, Photonic Lab-on-a-Chip for Rapid Cytokine Detection, ACS Sensors, 1 (2016) 979-986. [More]
  17. G. C. Biswas, T. Watanabe, E. T. Carlen, M. Yokokawa, and H. Suzuki, Switchable hydrophobic valve for controlled microfluidic processing, ChemPhysChem, 17 (2016) 817-821. [More]
  18. H. Obata, T. Kuji, K. Kojima, F. Sassa, M. Yokokawa, K. Takekoshi, and H. Suzuki, Electrochemical Bubble-Based Bidirectional Microfluidic Transport, ACS Sensors, 1 (2016) 190-196. [More]
  19. Y. Yoshizumi, T. Honegger, K. Berton, H. Suzuki and D. Peyrade, Trajectory Control of Self-Propelled Micromotors Using AC Electrokinetics, Small, 11 (2015) 5630-5635. [More] [Selected as Frontispiece of SMALL]
  20. J. Wang, M. Yokokawa, T. Satake, and H. Suzuki, A micro IrOx potentiometric sensor for direct determination of organophosphate pesticides, Sens. Actuators B, 220 (2015) 859-863. [More]
  21. K. Uchiyamada, K. Okubo, M. Yokokawa, E. T. Carlen, K. Asakawa, and H. Suzuki, Micron scale directional coupler as a transducer for biochemical sensing, Optics Express, 23 (2015) 17156-17168. [More]
  22. J. Wang, T. Satake, and H. Suzuki, Microfluidic device for coulometric detection of organophosphate pesticides. Anal. Sci., 31 (2015) 591-595. [More]
  23. J. Wang, H. Suzuki, and T. Satake, Coulometric microdevice for organophosphate pesticide detection, Sens. Actuators B, 204 (2014) 297-301. [More]
  24. K. Okubo, Y. Yoshizumi, K. Asakawa, H.Suzuki, and M. Yokokawa, On-chip processing of droplets for surface plasmon resonance analysis, Sens. Actuators B, 190 (2014) 975-981. [More]
  25. D. Itoh, E. Koyachi, M. Yokokawa, Y. Murata, M. Murata, and H. Suzuki, Microdevice for on-site fish freshness checking based on K-value measurement, Anal. Chem., 85 (22) (2013) 10962-10968. [More]
  26. R. Takagi, J. Fukuda, K. Nagata, Y. Yawata, N. Nomura, and H. Suzuki, Microfluidic microbial culture device for rapid determination of the minimum inhibitory concentration of antibiotics, Analyst, 138 (2013) 1000-1003. [More]
  27. E. Koyachi, K. Kojima, X. Qiu, T. Satake, and H. Suzuki, Electrochemical microdevice for on-site determination of rice freshness, Biosens. Bioelectron., 42 (15) (2013) 640-645. [More]
  28. T. Kakegawa, N. Mochizuki, N. Sadr, H. Suzuki, J. Fukuda, Cell-adhesive and cell-repulsive zwitterionic oligopeptides for micropatterning and rapid electrochemical detachment of cells, Tissue Eng. A, 19 (1-2) (2013) 290-298. [More]
  29. K. Kojima, M. Yokokawa, H. Suzuki, Microfluidic ion-responsive channels based on electrowetting, Sens. Actuators B, 177 (2013) 929-935. [More]
  30. J. Fukuda, S. Takahashi, T. Osaki, N. Mochizuki, and H. Suzuki, Processing of nanolitre liquid plugs for microfluidic cell-based assays, Sci. Technol. Adv. Mater., 13 (2012) 064201. [More]
  31. D. Itoh, F. Sassa, T. Nishi, Y. Kani, M. Murata, and H. Suzuki, Droplet-based microfluidic sensing system for rapid fish freshness determination, Sens. Actuators B, 171- 172 (2012) 619-626. [More]
  32. X. Qiu, F. Sassa, D. Itoh, Y. Li, H. Suzuki, and T. Satake, Development of a ƒΚTAS for evaluating rice freshness, J. SASJ, 43 (3) (2012) 97-103. [More]
  33. S. Kimura, J. Fukuda, A. Tajima, and H. Suzuki, On-chip diagnosis of subclinical mastitis in cows by electrochemical measurement of neutrophil activity in milk, Lab Chip, 12 (2012) 1309-1315. [More]
  34. F. Sassa, Y. Al-Zain, T. Ginoza, S. Miyazaki, H. Suzuki, Miniaturized shape memory alloy pumps for stepping microfluidic transport, Sens. Actuators B, 165 (2012) 157- 163. [More]
  35. S. Numthuam, T. Kakegawa, T. Anada, A. Khademhosseini, H. Suzuki, and J. Fukuda, Synergistic effects of micro/nano modifications on electrodes for microfluidic electrochemical ELISA , Sens. Actuators B, 156 (2) (2011) 637-644. [More]
  36. J. Fukuda, Y. Kameoka, and H. Suzuki, Spatio-temporal detachment of single cells using microarrayed transparent electrodes, Biomaterials, 32 (28) (2011) 6663-6669. [More]
  37. K. Toda, Y. Yawata, E. Setoyama, J. Fukuda, N. Nomura, and H. Suzuki, Continuous monitoring of ammonia removal activity and observation of morphology of microbial complexes in a microdevice, Appl. Environ. Microbiol., 77 (12) (2011) 4253-4255. [More]
  38. T. Adachi and H. Suzuki, Dynamic feedback regulation of the potential of a microfabricated liquid-junction Ag/AgCl reference electrode, Sens. Actuators B, 156 (1) (2011) 228-235.
  39. K. Okada, J. Fukuda, and H. Suzuki, Rapid diagnostic device for subclinical mastitis based on electrochemical detection of superoxide produced from neutrophils in fresh milk, IEEJ Trans. SM, 131 (6) (2011) 218-222.
  40. S. Numthuam, T. Ginoza, M. J. Zhu, H. Suzuki, J. Fukuda, Gold-black micropillar electrodes for microfluidic ELISA of bone metabolic markers, Analyst, 136 (3) (2011) 456-458.
  41. F. Sassa, H. Laghzali, J. Fukuda, and H. Suzuki, Coulometric detection of components in liquid plugs by microfabricated flow channel and electrode structures, Anal. Chem., 82 (20) (2010) 8725-8732.
  42. A. Takashima, K. Kojima, and H. Suzuki, Autonomous microfluidic control by chemically actuated micropumps and its application to chemical analyses, Anal. Chem., 82 (16) (2010) 6870-6876.
  43. T. Okuyama, H. Yamazoe, N. Mochizuki, A. Khademhosseini, H. Suzuki, and J. Fukuda, Preparation of arrays of cell spheroids and spheroid-monolayer cocultures within a microfluidic device, J. Biosci. Bioeng., 110 (5) (2010), 572-576.
  44. Y. Yawata, K. Toda, E. Setoyama, J. Fukuda, H. Suzuki, H. Uchiyama, and N. Nomura Monitoring biofilm development in a microfluidic device using modified confocal reflection microscopy, J. Biosci. Bioeng., 110 (3) (2010) 377-380.
  45. T. Okuyama, H. Yamazoe, Y. Seto, H. Suzuki, and J. Fukuda, Cell micropatterning inside a microchannel and assays under a stable concentration gradient, J. Biosci. Bioeng., 110 (2) (2010) 230-237.
  46. Y. Yawata, K. Toda, E. Setoyama, J. Fukuda, H. Suzuki, H. Uchiyama, and N. Nomura, Bacterial growth monitoring in a microfluidic device by confocal reflection microscopy, J. Biosci. Bioeng., 110 (1) (2010) 130-133.
  47. Y. Seto, R. Inaba, T. Okuyama, F. Sassa, H. Suzuki, and J. Fukuda, Engineering of capillary-like structures in tissue constructs by electrochemical detachment of cells, Biomaterials, 31 (8) (2010) 2209-2215.
  48. N. Ohnishi, W. Satoh, K. Morimoto, J. Fukuda, and H. Suzuki, Automatic electrochemical sequential processing in a microsystem for urea detection, Sens. Actuators B, 144 (1) (2010) 146-152.


  49. 2009

  50. P. Siribunbandal, S. Yamaguchi, K. Kojima, J. Fukuda, and H. Suzuki, Autonomous microfluidic transport using electrowetting-based valves and integrated cells, Appl. Phys. Lett., 95 (2009) 204105.
  51. S. Takahashi, H. Yamazoe, F. Sassa, H. Suzuki, and J. Fukuda, Preparation of coculture system with three extracellular matrices using capillary force lithography and layer-by-layer deposition, J. Biosci. Bioeng., 108 (6) (2009) 544-550.
  52. Y. Shimizu, A. Takashima, W. Satoh, F. Sassa, J. Fukuda, and H. Suzuki, Biochip with integrated pumps for plug-based sequential exchange of solutions, Sens. Actuators B, 140 (2) (2009) 649-655.
  53. R. Inaba, A. Khademhosseini, H. Suzuki, and J. Fukuda, Electrochemical desorption of self-assembled monolayers for engineering cellular tissues, Biomaterials, 30 (2009) 3573-3579.
  54. I. Yanagimachi, N. Nashida, K. Iwasa, and H. Suzuki, Evaporative concentration of a microdroplet for highly sensitive detection of trace heavy metal ions in real samples, IEEJ Trans. Electr. Electron. Eng., 4 (3) (2009) 365-371.
  55. S. Yamaguchi, K. Morimoto, J. Fukuda, and H. Suzuki, Electrowetting-based pH- and biomolecule-responsive valves and pH filters, Biosens. Bioelectron., 24 (7) (2009) 2171-2176.
  56. W. Satoh, S. Takahashi, F. Sassa, J. Fukuda, and H. Suzuki, On-chip culturing of hepatocytes and monitoring their ammonia metabolism, Lab Chip, 9 (2009) 35-37.
  57. S. Numthuam, H. Suzuki, J. Fukuda, S. Phunsiri, S. Rungchang, T. Satake, Rapid measurement and prediction of bacterial contamination in milk using an oxygen electrode, Foodborne Pathogens and Disease, 6 (2) (2009) 187-192.
  58. K. Morimoto, S. Yamaguchi, J. Fukuda, and H. Suzuki, Towards microsystems for automatic acquisition of in vivo gastrointestinal information, J. Appl. Phys., 105 (2009) 102013


  59. 2008

  60. H. Yokomaku, W. Satoh, J. Fukuda, H. Suzuki, Electrowetting on gold electrodes with microscopic three-dimensional structures for microfluidic devices, J. Appl. Phys., 104 (6) (2008) 064910.
  61. F. Sassa, J. Fukuda, and H. Suzuki, Microprocessing of liquid plugs for bio / chemical analyses, Anal. Chem., 80 (16) (2008) 6206-6213.
  62. Y. Fuchiwaki, R. Shoji, I. Kubo, and H. Suzuki, 6-chloro-N,N-diethyl-1,3,5-triazine-2,4-diamine (simazine) electrochemical sensing chip based on biomimetic recognition utilizing a molecularly imprinted polymer layer on a gold chip, Anal. Lett., 41 (2008) 1398-1407.
  63. I. Kubo, R. Shoji, Y. Fuchiwaki, and H. Suzuki, Atrazine sensing chip based on molecularly imprinted polymer layer, Electrochemistry, 76(8) (2008) 541-544.
  64. W. Satoh, H. Hosono, H. Yokomaku, K. Morimoto, S. Upadhyay, and H. Suzuki, Integrated electrochemical analysis system with microfluidic and sensing functions, Sensors, 8 (2008) 1111-1127.
  65. F. Sassa, K. Morimoto, W. Satoh, and H. Suzuki, Electrochemical techniques for microfluidic applications, Electrophoresis, 29 (9) (2008) 1787-1800.
  66. A. Kabata, K. Okamura, H. Suzuki, Y. Kishigami, M. Kikuchi, and M. Haga, Prototype micropump for insulin administration based on electrochemical bubble formation, J. Pharm. Sci., 97 (11) (2008) 5037-5045.
  67. H. Hosono, W. Satoh, M. Toya, K. Morimoto, J. Fukuda, and H. Suzuki, Microanalysis system with automatic valve operation, pH regulation, and detection functions, Sens. Actuators B, 132 (2) (2008) 614-622.
  68. W. Satoh, H. Yokomaku, H. Hosono, N. Ohnishi, and H. Suzuki, Electrowetting-based valve for the control of the capillary flow, J. Appl. Phys., 103 (2008) 034903.
  69. K. Morimoto, M. Toya, J. Fukuda, and H. Suzuki, Automatic electrochemical micro-pH-stat for biomicrosystems, Anal. Chem., 80 (4) (2008) 905-914.


  70. 2007

  71. H. Hosono, W. Satoh, J. Fukuda, and H. Suzuki, Micro analysis system based on electrochemiluminescence detection, Sensors and Materials, 19 (4) (2007) 191-201.
  72. K. Morimoto, S. Upadhyay, T. Higashiyama, N. Ohgami, H. Kusakabe, J. Fukuda, and H. Suzuki, Electrochemical micro system with porous matrix packed-beds for high-throughput enzyme analysis, Sens. Actuators B, 124 (2) (2007) 477-485.
  73. M. Hashimoto, N. Sakamoto, S. Upadhyay, J. Fukuda, and H. Suzuki, Enzyme electrode formed by evaporative concentration and its performance characterization, Biosens. Bioelectron., 22 (12) (2007) 3154-3160.
  74. N. Nashida, W. Satoh, J. Fukuda, and H. Suzuki, Electrochemical immunoassay on a microfluidic device with sequential injection and flushing functions, Biosens. Bioelectron., 22 (12) (2007) 3167-3173.
  75. K. Z?r, S. G?sp?r, M. Hashimoto, H. Suzuki, E. Cs?regi, High temporal resolution monitoring of fermentation using an on-line amperometric flow-through microdetector, Electroanalysis, 19 (1), (2007) 43-48.
  76. W. Satoh, Y. Shimizu, T. Kaneto, and H. Suzuki, On-chip microfluidic transport and bio/chemical sensing based on electrochemical bubble formation, Sens. Actuators B, 123 (2) (2007) 1153-1160.
  77. H. Hosono, W. Satoh, J. Fukuda, and H. Suzuki, On-chip handling of solutions and electrochemiluminescence detection of amino acids, Sens. Actuators B, 122 (2) (2007) 542-548.
  78. N. Ohgami, S. Upadhyay, A. Kabata, K. Morimoto, H. Kusakabe, and H. Suzuki, Determination of the activities of glutamic oxaloacetic transaminase and glutamic pyruvic transaminase in a microfluidic system, Biosens. Bioelectron., 22 (7) (2007) 1330-1336.