研究業績
Publication
1. Ichikawa K, Iitani K, Kawase G, Toma K, Arakawa T, Dao D, Mitsubayashi K, Mouthguard-Type Wearable Sensor for Monitoring Salivary Turbidity to Assess Oral Hygiene, Sensors 2024; 24; 5; 1436. (10.3390/s24051436)
2. Zhang, G., Maeno, Y., Iitani, K., Arakawa, T., Iwasaki, Y., Toma, K., Mitsubayashi, K. Enhanced sensitivity of a fluorometric biosensor for alcohol metabolites with an enzymatic cycling reaction. Sensors and Actuators B: Chemical, 401, 135031. 2024. https://doi.org/10.1016/j.snb.2023.135031
3. Sato, M., Kamiyama, T., Iitani, K., Yano, K., Mitsubayashi, K., Arakawa, T., Wearable Biosensor Utilizing Chitosan Biopolymer for Uric Acid Monitoring. Journal of Robotics and Mechatronics, 35(5), 1131–1134, 2023. https://doi.org/10.20965/jrm.2023.p1131
4. Iitani, K., Mori, H., Ichikawa, K., Toma, K., Arakawa, T., Iwasaki, Y., Mitsubayashi, K., Gas-Phase Biosensors (Bio-Sniffers) for Measurement of 2-Nonenal, the Causative Volatile Molecule of Human Aging-Related Body Odor, Sensors, 23(13), 5857, 2023. https://doi.org/10.3390/s23135857
5. Matsumoto, H., Tomoto, K., Kawase, G., Iitani, K., Toma, K., Arakawa, T., Mitsubayashi, K., Moriyama, K., Real-Time Continuous Monitoring of Oral Soft Tissue Pressure with a Wireless Mouthguard Device for Assessing Tongue Thrusting Habits, Sensors, 23(11), 2023. https://doi.org/10.3390/s23115027
6. Toma K., Satomura Y., Iitani K., Arakawa T., Mitsubayashi K.,Long-range surface plasmon aptasensor for label-free monitoring of vancomycin, Biosensors and Bioelectronics, 114959, 2023. https://doi.org/10.1016/j.bios.2022.114959
7. Iitani, K., Kishima, K., Kasuga, Y., Yokota, K., Nitta, H., Onchi, K., Kawase, G., Umezawa, K., Toma, K., Arakawa, T., Dao, D. V., Mitsubayashi, K, Wireless Unconstrained Monitoring of Intra-oral Temperature Using Thermistor and Telemeter Sealed in Mouthguard, Sensors and Materials, 35(4), 1315-1325, 2023. https://doi.org/10.18494/SAM4218
8. Arakawa T, Ishikawa R, Iitani K, Toma K, Iwasaki Y, Mitsubayashi K, Headset bio-sniffer with wireless CMOS camera for percutaneous ethanol vapor from the ear canal. Biosensors and Bioelectronics: X, 11, 100169, 2022.
9. Iitani K, Nakaya M, Tomono T, Toma K, Arakawa T, Tsuchido Y, Mitsubayashi K, Takeda N, Enzyme-embedded electrospun fiber sensor of hydrophilic polymer for fluorometric ethanol gas imaging in vapor phase, Biosensors and Bioelecronics, 114453, 2022.
10.Gessei T, Monkawa A, Arakawa T, Mitsubayashi K, Blood sorbitol measurement in diabetic rats treated with an aldose reductase inhibitor using an improved fiber-optic sorbitol biosensor. Talanta, 248, 123595, 2022.
11.Toma K, Oishi K, Iitani K, Arakawa T, Mitsubayashi K, Surface plasmon-enhanced fluorescence immunosensor for monitoring cardiac troponin I. Sensors and Actuators: B Chemical, 368, 132132, 2022.
12.Arakawa T, Kurihara K, Mori D, Toma K, Yano K, Mitsubayashi K, Glucose-driven Monolithic Polydimethylsiloxane Decompression Unit for Drug Release Device Using Plasma-activated Bonding Technology. Sensors and Materials 34, 1501–1514, 2022.
13.Arakawa T, Mizukoshi N, Iitani K, Toma K, Mitsubayashi K, A Bio-Fluorometric Acetone Gas Imaging System for the Dynamic Analysis of Lipid Metabolism in Human Breath. Chemosensors, 9; 258, 2021.
14.Toma K, Suzuki S, Arakawa T, Iwasaki Y, Mitsubayashi K, External ears for non-invasive and stable monitoring of volatile organic compounds in human blood. Scientific Reports, 11, 10415, 2021.
15.Toma K, Iwasaki K, Arakawa T, Iwasaki Y, Mitsubayashi K, Sensitive and selective methanol biosensor using two-enzyme cascade reaction and fluorometry for non-invasive assessment of intestinal bacteria activity. Biosensors and Bioelectronics, 181, 113136, 2021.
16.Toma K, Tsujii M, Arakawa T, Iwasaki Y, Mitsubayashi K. Dual-target gas-phase biosensor (bio-sniffer) for assessment of lipid metabolism from breath acetone and isopropanol, Sensors and Actuators B: Chemical, 129260, 2021.
17.Toma K, Kishikawa C, Arakawa T, Mitsubayashi K, Reusable surface plasmon resonance immunosensor for temporal information of protein biomarkers. Sensors and Materials, 33: 251-260, 2021.
18.Arakawa T, Tomoto K, Nitta H, Toma K, Takeuchi S, Sekita T, Minakuchi S, Mitsubayashi K. A wearable cellulose acetate-coated mouthguard biosensor for in vivo salivary glucose measurement, Analytical Chemistry, 92, 18, 12201–12207, 2020.
19.Arakawa T, Aota T, Iitani K, Toma K, Mitsubayashi K. Skin ethanol gas measurement system with a biochemical gas sensor and gas concentrator toward monitoring of blood volatile compounds, Talanta, 219, 121187, 2020.
20.Mizukoshi K, Arakawa T, Mitsubayashi K, Convenience biosensing approach of lactic acid in stratum corneum for skin care assessment. Skin Research & Technology, 26, 4, 455-464, 2020.
21.Chien PJ, Suzuki T, Ye M, Toma K, Arakawa T, Iwasaki Y, Mitsubayashi K. Ultra-sensitive isopropanol biochemical gas sensor (Bio-sniffer) for monitoring of human volatiles, Sensors, 20, 23, 2020.
22.Iitani K, Naisierding M, Toma K, Arakawa T, Mitsubayashi K. Evaluation for regional difference of skin-gas ethanol and sweat rate using alcohol dehydrogenase-mediated fluorometric gas-imaging system (sniff-cam). Analyst, 145(8), 2915–24, 2020.
23.Iitani K, Toma K, Arakawa T, Mitsubayashi K. Transcutaneous Blood VOC Imaging System (Skin-Gas Cam) with Real-Time Bio-Fluorometric Device on Rounded Skin Surface. ACS Sensors, 5(2):338–45, 2020.
24.Arakawa T, Suzuki T, Tsujii M, Chien P-J, Ye M, Toma K, Iwasaki Y, Mitsubayashi K, Real-time monitoring of skin ethanol gas by a high-sensitivity gas phase biosensor (bio-sniffer) for the non-invasive evaluation of volatile blood compounds. Biosensors and Bioelectronics, 129: 245-253, 2019.
25.Iitani K, Toma K, Arakawa T, Mitsubayashi K, Ultrasensitive Sniff-Cam for biofluorometric-imaging of breath ethanol caused by metabolism of intestinal flora. Analytical Chemistry, 91, 9458-9465, 2019.
26.Toma K, Oishi K, Kato M, Kurata K, Yoshimura N, Arakawa T, Yatsuda H, Kanamori K, Precipitate-enhanced SAW immunosensor for sensitive monitoring of mite allergens. Sensors and Actuators B: Chemical, 296: 126579, 2019.
27.Toma K, Oishi K, Yoshimura N, Arakawa T, Yatsuda H, Mitsubayashi K, Repeated immunosensing by a dithiobis (succinimidyl propionate)-modified SAW device. Talanta, 203: 274-279, 2019.
28.Iitani K, Hayakawa Y, Toma K, Arakawa T, Mitsubayashi K, Switchable sniff-cam (gas-imaging system) based on redox reactions of alcohol dehydrogenase for ethanol and acetaldehyde in exhaled breath. Talanta, 197: 249-256, 2019.
29.Toda K, Mizutani K, Minami I, Ye M, Arakawa T, Mitsubayashi K, Ogawa Y, Araki K, Shinada K, Effects of oral health instructions on glycemic control and oral health status of periodontitis patients with type 2 diabetes mellitus: A preliminary observation, Journal of Dental Sciences, 14(2), 171-177, 2019.
30.Arakawa T, Xie R, Seshima F, Toma K, Mitsubayashi K, Air bio-battery with a gas/liquid porous diaphragm cell for medical and health care devices, Biosensors and Bioelectronics, 103, 171-175, 2018.
31.Toma K, Tomoto K, Yokota K, Yasuda N, Ishikawa T, Arakawa T, Mitsubayashi K, Mouthguard controller for unconstrained controlling of external devices. Sensors and Materials, 30: 3053-3060, 2018.
32.Iitani K, Sato T, Naisierding M, Hayakawa Y, Toma K, Arakawa T, Mitsubayashi K, Fluorometric sniff-cam (gas-imaging system) utilizing alcohol dehydrogenase for imaging concentration distribution of acetaldehyde in breath and transdermal vapor after drinking, Analytical Chemistry, 90, 2678-2685, 2018.
33.Iitani K, Chien P-J, Suzuki T, Toma K, Arakawa T, Iwasaki Y, Mitsubayashi K, Fiber-optic bio-sniffer (biochemical gas sensor) using ADH reverse reaction for exhaled acetaldehyde, ACS Sensors, 3, 2, 425-431, 2018.
34.Arakawa T, Sato T, Iitani K, Toma K, Mitsubayashi K. Fluorometric Bio-sniffer Camera “Sniff-cam” for Direct Imaging of Gaseous Ethanol in Breath and Transdermal Vapor, Analytical Chemistry, 89, 4495−4501, 2017.
35.Chien PJ, Suzuki T, Tsujii M, Ming Y, Minami I, Toda K, Otsuka H, Toma K, Arakawa T, Araki K, Iwasaki Y, Shinada K, Ogawa Y, Mitsubayashi K, Biochemical gas sensors (biosniffers) using forward and reverse reactions of secondary alcohol dehydrogenase for breath isopropanol and acetone as potential volatile biomarkers of diabetes mellitus, Analytical Chemistry, 89, 12261–12268, 2017.
36.Toma K, Harashima Y, Yoshimura N, Arakawa T, Yatsuda H, Kanamori K, Mitsubayashi K, Semicontinuous measurement of mite allergen (Der f 2) using a surface acoustic wave immunosensor under moderate pH for long sensor lifetime, Sensors and Materials, 29, 1679-1687, 2017.
37.Iitani K, Sato T, Munire N, Hayakawa Y, Toma K, Arakawa T, Mitsubayashi K, Fluorometric gas-imaging system (sniff-cam), using the extinction of NADH with an ADH reverse reaction, for acetaldehyde in the gas phase, The Analyst, 142, 3830–3836, 2017.
38.Ye M, Arakawa T, PJ Chien, Suzuki T, Toma K, Mitsubayashi K, Acetone biosensor based on fluorometry of reduced nicotinamide adenine dinucleotide consumption in reversible reaction by secondary alcohol dehydrogenase, IEEE Sensors, 17, 5419–5425, 2017.
39.Iitani K, Chien P-J, Suzuki T, Toma K, Arakawa T, Iwasaki Y, Mitsubayashi K, Improved sensitivity of acetaldehyde biosensor by detecting ADH reverse reaction-mediated NADH fluoro-quenching for wine evaluation, ACS Sensors, 2, 940–946, 2017.
40.Toma K, Miki D, Kishikawa C, Yoshimura N, Arakawa T, Yatsuda H, Mitsubayashi K, A gold nanoparticle-assisted sensitive SAW (surface acoustic wave) immunosensor with a regeneratable surface for monitoring of dust mite allergens, Sensors and Actuators B: Chemical, 249, 685-690, 2017.
41.Toma K, Horibe M, Kishikawa C, Yoshimura N, Arakawa T, Yatsuda H, Shimomura H, Mitsubayashi K, Rapid and repetitive immunoassay with a surface acoustic wave device for monitoring of dust mite allergens, Sensors and Actuators: B. Chemical, 248, 924–929, 2017.
42.Chien PJ, Suzuki T, Tsuji M, Ye M, Toma K, Arakawa T, Iwasaki Y, Mitsubayashi K, Bio-sniffer (gas-phase biosensor) with secondary alcohol dehydrogenase (S-ADH) for determination of isopropanol in exhaled air as a potential volatile biomarker, Biosensors and Bioelectronics, 91, 341–346, 2017.
43.Arakawa T, Iitani K, Sato A, Toma K, Mitsubayashi K, Ethanol vapor imaging system “sniffer camera” for evaluation of alcohol metabolism from breath and palm skin gas, Procedia Engineering, 168 , 522–528, 2016.
44.Arakawa T, Kuroki Y, Nitta H, Chouhan P, Toma K, Sawada S, Takeuchi S, Sekita T, Akiyoshi K, Minakuchi S, Mitsubayashi K, Mouthguard biosensor with telemetry system for monitoring of saliva glucose: A novel cavitas sensor., Biosensors and Bioelectronics, 84, 106-111, 2016.
45.Chien PJ, Ye M, Suzuki T, Toma K, Arakawa T, Iwasaki Y, Mitsubayashi K, Optical isopropanol biosensor using NADH-dependent secondary alcohol dehydrogenase (S-ADH), Talanta, 159, 418-424, 2016.
46.Toma K, Miyajima K, Sawada S, Arakawa T, Kudo H, Akiyoshi K, Mitsubayashi K, Direct measurement of gaseous formaldehyde from food with a fiber-optic biochemical gas sensor (bio-sniffer), Sensors and Materials, 28, 1265-1272, 2016.
47.Saito H, Hashimoto Y, Minamide T, Kon T, Toma K, Arakawa T, Mitsubayashi K, Fiber optic bio-sniffer (biochemical gas sensor) for gaseous dimethyl sulfide, Sensors and Materials, 28, 1295-1301, 2016.
48.Arakawa T, Kita K, Wang X, Miyajima K, Toma K, Mitsubayashi K, Chemiluminescent imaging of transpired ethanol from the palm for evaluation of alcohol metabolism, Biosensors and Bioelectronics, 67, 570-575, 2015.
49.Munkhjargal M, Hatayama K, Matsuura Y, Toma K, Arakawa T, Mitsubayashi K, Glucose-driven chemo-mechanical autonomous drug-release system with multi-enzymatic amplification toward feedback control of blood glucose in diabetes, Biosensors and Bioelectronics, 67, 315-320, 2015.
50.Gessei T, Arakawa T, Kudo H, Mitsubayashi K, A fiber-optic sorbitol biosensor based on NADH fluorescence detection toward rapid diagnosis of diabetic complications, Analyst, 140, 6335-6342, 2015.
51.Toma K, Miki D, Kishikawa C, Yoshimura N, Miyajima K, Arakawa T, Yatsuda H, Mitsubayashi K, Repetitive immunoassay with a surface acoustic wave device and a highly stable protein monolayer for on-site monitoring of airborne dust mite allergens, Analytical Chemistry, 87, 10470-10474, 2015.
52.Ye M, Chien PJ, Toma K, Arakawa T, Mitsubayashi K, An acetone bio-sniffer (gas phase biosensor) enabling assessment of lipid metabolism from exhaled breath, Biosensors and Bioelectronics, 73, 208-213, 2015.
53.Arakawa T, Iitani K, Wang X, Kajiro T, Toma K, Yano K, Mitsubayashi K, A sniffer-camera for imaging of ethanol vaporization from wine: the effect of wine glass shape, Analyst, 140, 2881-2886, 2015.
54.Toma K, Suzuki Y, Kishikawa C, Saito M, Miyajima K, Arakawa T, Shimomura H, Mitsubayashi K, Chemifluorescent optical fiber immunosensor for on-site bioaerosol monitoring system, Sensors and Materials, 27, 1113–1122, 2015.
55.Suzuki Y, Ye M, Miyajima K, Arakawa T, Kudo H, Mitsubayashi K, A fluorometric biochemical gas sensor (biosniffer) for acetaldehyde vapor based on catalytic reaction of aldehyde dehydrogenase, Sensors and Materials, 27, 1123–1130, 2015.
56.Miyajima K, Kon H, Arakawa T, Shiba K, Mitsubayashi K, Fluoroimmunoassay system for fiber-optic measurement of house dust mite allergen (Der f1), Sensors and Materials, 27, 871-880, 2015.
57.Iitani K, Sato T, Wang X, Toma K, Arakawa T, Mitsubayashi K, "Sniffer-camera" using enzyme reaction for visualization of transpired ethanol from palm skin, Journal of Advanced Science, 26, 20-22, 2015.
58.Saito H, Goto T, Miyajima K, Munkhjargal M, Arakawa T, Mitsubayashi K, Odourless Watermark (Digital Chemocode) System with Biochemical Sniff Scanner, Sensors and Materials, 26, 109-119, 2014.
59.Saito H, Suzuki Y, Gessei T, Miyajima K, Arakawa T, Mitsubayashi K, Bioelectronic Sniffer (Biosniffer) Based on Enzyme Inhibition of Butyrylcholinesterase for Toluene Detection, Sensors and Materials, 26, 121-129, 2014.
60.Gessei T, Arakawa T, Kudo H, Saito H, Mitsubayashi K, Amperometric Biosensor based on Enzyme Immobilization with Post Process for Medical and Multiple Applications, Analytical Letters, 47, 1361-1374, 2014.
61.Miyajima K, Suzuki Y, Miki D, Arai M, Arakawa T, Shimomura H, Shiba K, Mitsubayashi K, Direct analysis of airborne mite allergen (Der f1) in the residential atmosphere by chemifluorescent immunoassay using bioaerosol sampler, Talanta, 123, 241-246, 2014.
62.Miyajima K, Suzuki Y, Miki D, Arai M, Arakawa T, Shimomura H, Shiba K, Mitsubayashi K, Direct analysis of airborne mite allergen (Der f1) in the residential atmosphere by chemifluorescent immunoassay using bioaerosol sampler, Talanta, 123, 241-246, 2014.
63.Arakawa T, Ando E, Wang X, Miyajima K, Takeuchi S, Kudo H, Saito H, Takahashi M, Mitani T, Mitsubayashi K, Chemiluminescent visualization for evaluation of gaseous ethanol distribution during 'La France' pear maturation, IEEE Sensors, 13, 8, 2842-2848, 2013.
64.Arakawa T, Wang X, Kajiro K, Miyajima K, Takeuchi S, Kudo H, Yano K, Mitsubayashi K, A direct gaseous ethanol imaging system for analysis of alcohol metabolism from exhaled breath, Sensors and Actuators B: Chemical, 186, 27–33, 2013.
65.Munkhjargal M, Matsuura Y, Hatayama K, Miyajima K, Arakawa T, Kudo H, Mitsubayashi K, Glucose-sensing and glucose-driven “organic engine” with co-immobilized enzyme membrane toward autonomous drug release systems for diabetes, Sensors and Actuators B: Chemical, vol. 188, 831–836, 2013
66.Miyajima K, Miki D, Arakawa T, Kudo H, Saito H, Mitsubayashi K, Fiber-optic Fluoroimmunoassay for Determination of Dermatophagoides farinae Allergen by Flow Analysis Technique, Sensors and Materials, 25, 9, 591-599, 2013.
67.Miyajima K, Miki D, Arakawa T, Kudo H, Saito H, Mitsubayashi K, Fiber-optic Fluoroimmunoassay for Determination of Dermatophagoides farinae Allergen by Flow Analysis Technique, Sensors and Materials, 25(9):591-599, 2013.
68.Munkhjargal M, Matsuura Y, Hatayama K, Miyajima K, Arakawa T, Kudo H, Mitsubayashi K, Glucose-sensing and glucose-driven “organic engine” with co-immobilized enzyme membrane toward autonomous drug release systems for diabetes, Sensors and Actuators B: Chemical, vol. 188, 831–836, 2013.
69.Miyajima K, Koshida T, Arakawa T, Kudo H, Saito H, Yano K, Mitsubayashi K, Fiber-optic fluoroimmunoassay system with a flow-through cell for rapid on-site determination of escherichia coli O157:H7 by monitoring fluorescence dynamics, Biosensors, 3, 120-131, 2013.
70.Arakawa T, Ando E, Wang X, Miyajima K, Kudo H, Saito H, Mitani T, Takahashi M, Mitsubayashi K, A highly sensitive and temporal visualization system for gaseous ethanol with chemiluminescence enhancer, Luminescence, 27, 328–333, 2012.
71.Kudo H, Wang X, Suzuki Y, Ye M, Yamashita T, Gessei T, Miyajima K, Arakawa T, Mitsubayashi K, Fiber-optic biochemical gas sensor (bio-sniffer) for sub-ppb monitoring of formaldehyde vapor, Sensors and Actuators B: Chemical, 161(1), 486-492, 2012.
72.Wang X, Ando E, Takahashi D, Arakawa T, Kudo H, Saito H, Mitsubayashi K, Non-invasive spatial visualization system of exhaled ethanol for real-time analysis of ALDH2 related alcohol metabolism, Analyst, 136(18), 3680-3685, 2011.
73.Chu MX, Shirai T, Takahashi D, Arakawa T, Kudo H, Sano K, Sawada S, Yano K, Iwasaki Y, Akiyoshi K, Mochizuki M, Mitsubayashi K, Biomedical soft contact-lens sensor for in situ ocular biomonitoring of tear contents, Biomedical Microdevices, 13, 603–611, 2011.
74.Miyajima K, Itabashi G, Koshida T, Tamari K, Takahashi D, Arakawa T, Kudo H, Saito H, Yano K, Shiba K, Mitsubayashi K, Fluorescence immunoassay using an optical fiber for determination of Dermatophagoides farinae (Der f 1), Environmental Monitoring and Assessment, 182(1-4), 233-41, 2011.
75.Arakawa T, Koshida T, Gessei T, Miyajima K, Takahashi D, Kudo H, Yano K, Mitsubayashi K, Biosensor for L-phenylalanine based on the optical detection of NADH using a UV light emitting diode, Microchimica acta, 173, 199-205, 2011.
76.Arakawa T, Noguchi M, Sumitomo K, Yamaguchi Y, Shoji S, High-throughput single-cell manipulation system for a large number of target cells, Biomicrofluidics, 5, 014114, 2011.
77.Yoon DH, Bahk YK, Kwon BH, Kim SS, Kim YD, Arakawa T, Go JS, Shoji S, Improvement of filtration performance using self-tuning of flow resistance, Japanese Journal of Applied Physics, 50, 1, 017201, 2011.
78.Kwon BH, Kim HH, Cha J, Ahn CH, Arakawa T, Shoji, S, Go JS, Improvement of the size-selective separation of microbeads in a curved microchannel using particle focusing, Japanese Journal of Applied Physics, 50, 9, 097301, 2011.
79.Chu MX, Miyajima K, Takahashi D, Arakawa T, Sano K, Sawada S, Kudo H, Iwasaki Y, Akiyoshi K, Mochizuki M, Mitsubayashi K, Soft contact lens biosensor for in situ monitoring of tear glucose as non-invasive blood sugar assessment, Talanta, 83, 960-965, 2011.
80.Kato R, Munkhjargal M, Takahashi D, Arakawa T, Kudo H, Mitsubayashi K, An autonomous drug-release system based on chemo-mechanical energy conversion “Organic Engine” for feedback control of blood glucose, Biosensors and Bioelectronics, 26, 1455–1459, 2010.
81.Kudo H, Suzuki Y, Gessei T, Takahashi D, Arakawa T, Mitsubayashi K, Biochemical gas sensor (bio-sniffer) for ultrahigh-sensitive gaseous formaldehyde monitoring, Biosensors and Bioelectronics, 26,854-858, 2010.
82.Iguchi S, Chu MX, Takahashi D, Arakawa T, Kudo H, Mitsubayashi K, Soft-MEMS glucose sensor with functional polymers, Journal of Photopolymer Science and Technology, 23, 2, pp.167-170, 2010.
83.Wang X, Ando E, Takahashi D, Arakawa T, Kudo H, Saito H, Mitsubayashi K, 2D spatiotemporal visualization system of expired gaseous ethanol after oral administration for real-time illustrated analysis of alcohol metabolism, Talanta, 82, 892–898, 2010.
84.Kudo H, Sawai M, Suzuki Y, Wang X, Gessei T, Takahashi D, Arakawa T, Mitsubayashi K, Fiber optic bio-sniffer (biochemical gas sensor) for high selective monitoring of ethanol vapor using 335 nm UV-LED, Sensors and Actuator B: Chemical, 147, 676-680, 2010.
85.Koshida T, Arakawa T, Gessei T, Takahashi D, Kudo H, Saito H, Yano K, Mitsubayashi K, Fluorescence biosensing system with a UV-LED excitation for L-leucine detection, Sensors and Actuator B: Chemical, 146, 177-182, 2010.
86.Ozaki K, Sugino H, Shirasaki Y, Aoki T, Arakawa T. Funatsu T, Shoji S, Microfluidic cell sorter with flow switching triggered by a sol–gel transition of a thermo-reversible gelation polymer, Sensors and Actuators B: Chemical, 150, 449–455, 2010.
87.Sugino H, Arakawa T, Nara Y, Shirasaki Y, Ozaki K, Shoji S, Funatsu T, Integration in a multilayer microfluidic chip of 8 parallel cell sorters with flow control by sol-gel transition of thermoreversible gelation polymer, Lab Chip, 10, 2559-2565, 2010.
88.Sugino H, Ozaki K, Shirasaki Y, Arakawa T, Shoji S, Funatsu T, On-chip microfluidic sorting with fluorescence spectrum detection and multiway separation, Lab Chip, 9, 1254-1260, 2009.
89.Yamaguchi Y, Arakawa T, Takeda N, Edagawa Y, Shoji S, Development of a poly-dimethylsiloxane microfluidic device for single cell isolation and incubation, Sensors and Actuator B: Chemical, 136, 555-561, 2009.
90.Arakawa T, Yamamoto T, Shoji S, Micro-bubble formation with organic membrane in a multiphase microfluidic system, Sensors and Actuators A: Physical, 143, 58–63, 2008.
91.Lee JH, Ha JB, Bahk YK, Yoon SH, Arakawa T, Ko JS, Shin BS, Shoji S, Go JS, Microfluidic centrifuge of nano-particles using rotating flow in a microchamber, Sensors and Actuators B: Chemical, 132, 525–530, 2008.
92.Arakawa T, Sameshima T, Sato Y, Ueno T, Shirasaki Y, Funatsu T, Shoji S, Rapid multi-reagents exchange TIRFM microfluidic system for single biomolecular imaging, Sensors and Actuators B: Chemical, 128, 218–225, 2007.
93.Arakawa T, Shirasaki Y, Aoki, T, Funatsu T, Shoji S, Three-dimensional sheath flow sorting microsystem using thermosensitive hydrogel”, Sensors and Actuators A: Physical, 135, 99–105, 2007.
94.Arakawa T, Shirasaki Y, Izumi T, Aoki, Sugino H, Funatsu T, Shoji S, High speed particles and biomolecules sorting microsystem using thermosensitive hydrogel, Measurement Science and Technology, 17, 3141-3146, 2006.
95.Jeong EH, Arakawa T, Kim KC, Boo JS, Ko JS, Shin BS, Shoji S, Go JS, Realization of A Chip-Level Batch Process Chemical Plant with Quantitative Performance Evaluation, Key Engineering Materials, 262-272, 2006.
96.Abraham S, Jeong EH, Arakawa T, Shoji S, Kim KC, Kim I, Go JS, Microfluidics assisted synthesis of well-defined spherical polymeric microcapsules and their utilization as potential encapsulants, Lab Chip, 6, 752-757, 2006.
97.Harada T, Suzuki Y, Koshizuka S, Arakawa T, Shoji S, Simulation of Droplet Generation in Micro Flow using MPS Method, Japan Society of Mechanical Engineering International Journal Series B, 49, No.3, 731-736, 2006.
98.Kudo H, Nakamura T, Arakawa T, Ohtsuka S, Izumi T, Shoji S, Sato H, Kobayashi H, Mori K, Homma T, Osaka T, Mitsuda K, Yamasaki NY, Fujimoto R, Iyomoto N, Oshima T, Futamoto K, Takei Y, Ichitsubo T, Fujimori T, Ishisaki Y, Morita U, Koga T, Sato K, Ohashi T, Kuroda Y, Onishi M, Otake K, Beppu F, Prototype of the high sensitive x-ray microcalorimeter for x-ray imaging, Sensors and Actuators A: Physical, 114, 171-175, 2004.
99.Kudo H, Arakawa T, Ohtsuka S, Izumi T, Shoji S, Sato H, Kobayashi H, Mori K, Homma T, Osaka T, Mitsuda K, Yamasaki NY, Fujimoto R, Iyomoto N, Oshima T, Futamoto K, Takei Y, Ichitsubo T, Fujimori T, Ishisaki Y, Morita U, Koga T, Sato K, Ohashi T, Kuroda Y, Onishi M, Otake K, Beppu F, High sensitive X-ray microcalorimeter using Bi-Au microabsorber for imaging applications, Japanese Journal of Applied Physics, Part 1, 43, 1190-1195, 2004.
100. Arakawa T, Kudo H, Sato H, Kobayashi H, Izumi T, Ohtsuka S, Shoji S, Sato H, Mori K, Osaka T, Homma T, Mitsuda K, Yamasaki NY, Fujimoto R, Iyomoto N, Oshima T, Futamoto K, Takei Y, Ichitsubo T, Fujimori T, Ishisaki Y, Morita U, Koga T, Sato K, Ohashi T, Kuroda Y, Onishi M, Otake K, Beppu F, Fabrication of multi-pixel TES micro calorimeters with an electrodeposited Sn absorber and Bi absorber, Nuclear Instruments and Methods in Physics Research Section A, 520, 566-569, 2004.
101. Ishisaki Y, Morita U, Koga T, Shinozaki K, Sato K, Takai N, Ohashi T, Arakawa T, Kudo H, Sato H, Kobayashi H, Izumi T, Ohtsuka S, Mori K, Shoji S, Osaka T, Homma T, Mitsuda K, Yamasaki NY, Fujimoto R, Iyomoto N, Oshima T, Futamoto K, Takei Y, Ichitsubo T, Fujimori T, Ohashi T, Kuroda Y, Onishi M, Otake K, Beppu F, Performance analyses of TES microcalorimeters with mushroom shaped X-ray absorbers made of Sn and Bi, Nuclear Instruments and Methods in Physics Research Section A, 520, 456-459, 2004.
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