Publication

Researchmap
2024

[50] E. Gasser*, E. Su, K. Vaidziulyte, N. Abbade, H. Cognart, J.B. Manneville, J.L. Viovy, M. Piel, J.Y. Pierga, K. Terao*, C. Villard*:
“Deformation under flow and morphological recovery of cancer cells”
Lab on a Chip, 24, 3930-3944 (2024). >>> Open Access

[49] D. Fukai, T. Toyoda, H. Takao, F. Shimokawa, K. Terao*:
“Compartmentalization Device of Microenvironment for Analyzing iPSCs Differentiation”

IEEJ Transactions on Sensors and Micromachines, 144(7), 164-169 (2024). >>>.

2023

[48] N.  Kusunoki, S. Konagaya, M. Nishida, S. Sato, H. Takao, F. Shimokawa, K. Terao*:
“Microfluidic device for differentiation induction of iPS cells with local chemical stimulation”

Electronics and Communications in Japan, 105(3), e12393 (2023). Translated paper of [46] >>>

[47] S. Mori, T. Ito, H. Takao, F. Shimokawa, K. Terao*:
“Optically-driven microtools with an antibody-immobilized surface for on-site cell assembly”
IET Nanobiotechnology, 1-7 (2023). >>> Open Access

2022

[46] N.  Kusunoki, S. Konagaya, M. Nishida, S. Sato, H. Takao, F. Shimokawa, K. Terao*:
“Microfluidic device for differentiation induction of iPS cells with local chemical stimulation”

IEEJ Transactions on Sensors and Micromachines, 142(12), 310-315 (2022). >>>

[45] K. Yamada, K. Watatani, K. Terao, F. Shimokawa, H. Takao*:
“Pen-type Pulse Wave Measurement System for Detecting Pathological Changes in Cardiac Diseases”
Electronics and Communications in Japan, 105(3), e12376 (2022). Translated paper of [44] >>>

[44] K. Yamada, K. Watatani, K. Terao, F. Shimokawa, H. Takao*:
“Pen-type Pulse Wave Measurement System for Detecting Pathological Changes in Cardiac Diseases”
IEEJ Transactions on Sensors and Micromachines, 142(7), 160-165 (2022). >>>

[43] K. Takahashi, H. Takao, F. Shimokawa, K. Terao*:
“On-demand formation of heterogeneous gel fibers using two-dimensional  micronozzle array”
Microfluidics and Nanofluidics, 26, 15 (2022). >>>

[42] M. Harada, H. Takao, F. Shimokawa, K. Terao*:
“Development of optically driven nanoneedles using SU-8 nanofabrication”
Electronics and Communications in Japan, 105(1), e12327 (2022). Translated paper of [40] >>>

[41] K. Terao*, S. Kondo:
“AC-Electroosmosis-Assisted Surface Plasmon Resonance Sensing for Enhancing Protein Signals with a Simple Kretschmann Configuration”
Sensors, 22(3), 854 1-9 (2022). >>> Open Access

2021

[40] M. Harada, H. Takao, F. Shimokawa, K. Terao*:
“Development of optically driven nanoneedles using SU-8 nanofabrication”
IEEJ Transactions on Sensors and Micromachines, 141(6), 173-178 (2021). >>>

[39] A. Masuda, H. Takao, F. Shimokawa, K. Terao*:
“On-site processing of single chromosomal DNA molecules using optically driven microtools on a microfluidic workbench”
Scientific Reports, 11, 7961 1-9 (2021). >>> Open Access

[38] K. Takahashi, S. Kamiya, H. Takao, F. Shimokawa, K. Terao*:
“Stainless Microfluidic Probe with 2D array Microapertures”
AIP Advances, 11(1), 015331 (2021). >>> Open Access

2020

[37]  R. Inukai, H. Takao, F. Shimokawa, K. Terao*:
“Capture and elongation of single chromosomal DNA molecules using optically-driven microchopsticks”
Biomicrofluidics, 14, 044114 (2020). >>>

[36] K. Watatani, K. Terao, F. Shimokawa, H. Takao*:
“A MEMS Tactile Sensor with Fingerprint-Like Array of Contactors for High Resolution Visualization of Surface Distribution of Tactile Information”
Journal of Robotics and Mechatronics, 32(2), 305-314 (2020). >>>

[35]  D. Dohi, K. Hirano*, K. Terao*:
“Molecular ring toss of circular BAC DNA using micropillar array for single molecule studies”
Biomicrofluidics, 14, 014115 (2020). >>>

2019

[34] K. Hamamoto, K. Terao, F. Shimokawa, H. Takao*:
“A highly sensitive MEMS silicon-hair device reproducing the function of hair follicle”
IEEJ Transactions on Sensors and Micromachines, 139(7), pp.180-185 (2019).>>>

[33] K. Watatani, K. Terao, F. Shimokawa, H. Takao*:
“Planar-type MEMS tactile sensor integrating micro-macro detection function of fingertip to evaluate surface touch sensation”
Japanese Journal of Applied Physics, 58(9) , 097002 (2019). >>>

2018

[32] Y. Yano, A. Ono, K. Terao, T. Suzuki, H. Takao, T Kobayashi, I Kataoka, F. Shimokawa*:
“Phloem-sap-dynamics sensor device for monitoring photosynthates transportation in plant shoots”
Japanese Journal of Applied Physics, 57(6), 067001 (2018).>>>

[31] A. Ono, A. Yoneda, H. Ishizuka, K. Terao, H. Takao, N. Takahashi, T. Kobayashi, I. Kataoka, and F. Shimokawa*:
“Pure photosynthates extraction sensor device with highly precise phloem/xylem position identification”
IEEE Sensors Journal, 18(4), 1739-1746 (2018). >>>

[30] H. Takao*, H. Mori, Y. Maeda, K. Watatani, K. Terao, F. Shimokawa, K. Maeda, and R. Kozai:
““Cell-like Sensor” Devices Directed to Ultra Low Invasive Implementation”
The IEICE transactions on electronics (Japanese edition), 101C(1), 9-17 (2018). >>>

2017

[29] H. Ishizuka*, K. Suzuki, K. Terao, H. Takao, F. Shimokawa, H. Kajimoto:
“Evaluation of Multi-Electrode Effects on Electrovibration Tactile Stimulation”
Transactions of The Japan Institute of Electronics Packaging, 10, E17-004-1 (2017). >>>

[28] Y. Tao, K. Fukuda, H. Takao, F. Shimokawa, and K. Terao*:
“Development of microfluidic device for imaging paracrine communication”
IEEJ Transactions on Sensors and Micromachines, 137(5), 128-133(2017). >>>

2016

[27] J. Suzuki, K. Terao, H. Takao, F. Shimokawa, F. Oohira, H. Miyagawa and T. Suzuki*:
“Development of Magnetically Driven Microvalve Using Photosensitive SU-8/Fe Composite”
International Journal of Applied Electromagnetics and Mechanics, 52(3-4),1585-1590(2016)>>>

[26] H. Ueno, S. Komai, K. Terao, H. Takao, F. Shimokawa, H. Kotera, and T. Suzuki*:
“Development of a local light stimulation device integrated with micro electrode array”
Mechanical Engineering Journal, 3, ID:15-00570(2016)>>>

[25] J. Suzuki, Y. Onishi, K. Terao, H. Takao, F. Shimokawa, F. Oohira, H. Miyagawa, T. Namazu, and T. Suzuki*:
“Development of a two-dimensional scanning micro-mirror utilizing magnetic polymer composite”
Japanese Journal of Applied Physics, 55, ID:06GP01(2016)>>>

[24] M. Ochi, Y. Yano, K. Terao, T. Suzuki, H. Takao, T. Kobayashi, I. Kataoka, F. Shimokawa*:
“Micro-scale sap flow sensor fabricated using MEMS technology”
Japanese Journal of Ecology, 66, 465 – 475(2016) >>>.

[23] Y. Maeda, K. Terao, F. Shimokawa, H. Takao*:
“A MEMS hardness sensor with reduced contact force dependence based on the reference plane concept aimed for medical applications”
Japanese Journal of Applied Physics, 55, 04EF11 (2016)>>>.

[22] K. Terao*, C. Masuda, R. Inukai, M. Gel, H. Oana, M. Washizu, T. Suzuki, H. Takao, F. Shimokawa, F. Oohira:
“Characterization of optically-driven microstructures for manipulating single DNA molecules under a fluorescence microscope”
IET Nanobiotechnology, 10(3), 124-128(2016)>>>.

2015

[21] J. Suzuki, K. Terao, H. Takao, F. Shimokawa, F. Oohira, T. Suzuki*:
“Development of magnetically driven micro valve using SU-8/Fe composite “
Journal of the Japan Society of Applied Electromagnetics and Mechanics, 23(2), 407-413(2015)>>>

[20] K. Terao*, S. Hiramatsu, T. Suzuki, H. Takao, F. Shimokawa, F. Oohira:
“Fast protein detection from raw blood by size-exclusion SPR sensing”
Analytical Methods, 7, 6483-6488 (2015), >>>
(selected for journal front cover)

[19] H. Tamai, K. Maruo, H. Ueno, K. Terao, H. Kotera, T. Suzuki*:
“Development of low-fluorescence thick photoresist for high-aspect-ratio microstructure in bio-application”
Biomicrofluidics, 9, 022405 (2015). >>>

2014

[18] Y. Ueda,T. Nakahara,K. Terao,H. Takao,F. Shimokawa,F. Oohira,H. Kotera,T. Suzuki*:
“Development of an electromagnetic micropump with photosensitive magnetic nanocomposite”
Journal of the Japan Society of Applied Electromagnetics and Mechanics, 22(2), 202-207 (2014). >>>

[17] K. Terao*, M. Gel, A. Okonogi, A. Fuke, T. Okitsu, T. Tada, T. Suzuki, S. Nagamatsu, M. Washizu, H. Kotera:
“Subcellular Glucose Exposure Biases the Spatial Distribution of Insulin Granules in Single Pancreatic Beta Cells”
Scientific Reports, 4, 4123 1-6 (2014). >>> Open Access

2013

[16] Y. Maeda, K. Terao, T. Suzuki, F. Simokawa, H. Takao*:
“A Post-CMOS Formation Process of High Adhesion SU-8 Structures for Reliable Fabrication of Integrated MEMS Microsensors”
Japanese Journal of Applied Physics, 52, 06GL18 (2013). >>>

[15] T. Suzuki*, K. Terao, H. Suzuki, Y. Nitta, H. Takao, F. Shimokawa, F. Oohira, D. Hiramaru, H. Kotera:
“Development of a High-Throughput DNA Fiber Analysis Device Using MEMS Technology”
IEEJ Transactions on Sensors and Micromachines, 133(5), 139-146 (2013).>>>
[電気学会 第70回電気学術振興賞 論文賞 受賞]

[14] M. Akamatsu, K. Terao, H. Takao, F. Shimokawa, F. Oohira, T. Suzuki*:
“Development of High Accuracy Spray Coating Method using Multi-layer Coat”
IEEJ Transactions on Sensors and Micromachines, 133(5), 170-176 (2013).>>>

2012

[13] N. Nagase, K. Terao*, N. Miyanishi, N. Tamai, N. Uchiyama, T. Suzuki, H. Takao, F. Shimokawa, F. Oohira:
“Signal Enhancement of Protein Binding by Electrodeposited Gold Nanostructures for Application in Kretschmann-Type SPR Sensor”
Analyst, 137(21), 5034-5040 (2012)>>>

[12] M. Inoue, A. Okonogi, K. Terao, H. Takao, F. Shimokawa, F. Oohira, H. Kotera, and T. Suzuki*:
“Cell Culture on MEMS Materials in Micro-Environment Limited by a Physical Condition”
Micro & Nano Letters, 7(8), 725-728 (2012). >>>

[11] R. Yokokawa*, Y. Kitazawa, K. Terao, A. Okonogi, I. Kanno H. Kotera:
“A Perfusable microfluidic device with on-chip total internal reflection fluorescence microscopy (TIRFM) for in situ and real-time monitoring of live cells”
Biomedical Microdevices, 14(4), 791-797 (2012).>>>

[10] K. Oda, H. Takao, K. Terao, T. Suzuki, F. Shimokawa, I. Ishimaru, F. Oohira*:
“Vertical Comb-Drive MEMS Mirror with Sensing Function for Phase-Shift Device”
Sensors and Actuators A: Physical, 181, 61-69 (2012). >>>

[9] K. Terao*, K. Shimizu, N. Miyanishi, S. Shimamoto, T. Suzuki, H. Takao, F. Oohira:
“Size-Exclusion SPR Sensor Chip: Application to Detection of Aggregation and Disaggregation of Biological Particles”
Analyst, 137(9), 2192-2198 (2012). >>>

[8] K. Terao*, C. Kakita, N. Nagase, N. Miyanishi, T. Suzuki, H. Takao, F. Shimokawa, F. Oohira:
“Evaluation of Electrodeposited Gold Nanostructures for Applications in QCM Sensing”
Analytical Sciences, 28(3), 291-294 (2012).>>>

[7] K. Terao*, A. Okonogi, A. Fuke, T. Okitsu, T. Suzuki, M. Washizu, H. Kotera:
“Localized substance delivery to single cell and 4D imaging of its uptake using a flow channel with a lateral aperture”
Microfluidics and Nanofluidics, 12(1), 423-429 (2012).>>>

2011

[6] K. Terao*, Y. Kitazawa, R. Yokokawa, A. Okonogi, H. Kotera:
“Open-Access and Multi-Directional Electroosmotic Flow Chip for Positioning Heterotypic Cells”
Lab on a Chip, 11(8), 1507-1512(2011). >>>

[5] K. Okada, H. Watanabe, F. Oohira*, K. Terao, Y. Mihara, T. Suzuki, K. Ogawa:
“Fabrication of AWG for the CWDM by the Casting Method using a Micro Die (2nd Report) -Improvement of Fabrication Process of Arrayed Waveguide Grating and Characteristic Evaluation-“
Journal of the Japan Society of Precision Engineering, 77(2), 213-217 (2011). >>>

[4] H. Morii, F. Oohira*, T. Suzuki, K. Terao, M. Sasaki, T. Ochi, A. Yuzuriha, K. Wani:
“Proposal of high-density packaging construction and conductive pattern forming method on vertical wall using spray coating technology”
IEEJ Transactions on Sensors and Micromachines, 131(1), 40-44 (2011).>>>

2006~2010

[3] H. Mukai, S. Kawakami, Y. Kamiya, F. Ma, H. Takahashi, K. Satake, K. Terao, H. Kotera, F. Yamashita, M. Hashida*:
“Pressure-Mediated Transfection of Murine Spleen and Liver.”
Human Gene Therapy, 20(10), 1-11 (2009).>>>

[2] K. Terao*, M. Washizu, H. Oana:
“On-Site Manipulation of Single Chromosomal DNA Molecules by using Optically Driven Microstructures”
Lab on a Chip, 8(8), 1280-4 (2008).>>>
[selected as Hot Articles 2008 in Lab on a Chip]>>>
[Most accessed article in July 2008]

[1] K. Terao, H. Kabata, M. Washizu*:
“Extending chromosomal DNA in microstructures using electro-osmotic flow”
Journal of Physics: Condensed Matter, 18(18), S653-63 (2006).>>>