Micro-nano Fluidic Systems, Micro-nano Devices, Bio-machine

Posters at Conferences (Examples)


37th Cheminas

・Fractionation and measurement of lymphocytes from 1 μL peripheral blood (Taisuke Masuda)


・Platelet production using bioreactor having three dimensional microchannel (Hiroki Kumon)


・On-Chip Mixing Using High-Speed Flow Control(Yusuke Kasai)



Robomech2018

・Optical Environment Sensing: Multimodal Measurement of Cell Culture Conditions (Hisataka Maruyama)


・Optical environment sensing:Three dimensional oxygen concentration monitoring of environment around cell aggregation (Yusuke Akita)



MHS2017

・Mechanical Characterization of a Single Synechocystis sp. Strain PCC 6803 Cell in Different Osmolarity Solutions (Chang Di)


35th Cheminas

・Oxygen measurement inside 3D tissue using fluorescence oxygen sensor (Hisataka Maruyama)

Robomech2017

・On-chip multi-sorting using flow path switching by local-flow control (Yusuke Kasai)


・On-chip cell sorting by high-speed local-flow control using dual membrane pumps (Yusuke Kasai)



MEMS2017

・Mechanical Characterization of cyanobacteria under osmotic stress (Shinya Sakuma)



MHS2016
・Multi Fluorescence Microsensors for Spatiotemporal Measurement of Culture Environment in a Microfluidic Chip (高木慶佑)



Robomech2016

・On-Chip Force Sensor for Mechanical Properties Measurement of Synechocystis sp. PCC 6803(Chang Di)


・Temporal Transition of Mechanical Characteristics of HUVEC/MSC Spheroids Using a Microfluidic Chip with Force Sensor Probes(Keitaro Ito)



Robomech2015

On-chip Measurement of Mechanical Characteristics of a Single Cyanobacterium (Takayuki Hasegawa)
Romech2015_Hasegawa

Transportation of oocyte using vibration-induced flow and measurement of mechanical characteristics (Kou Nakahara)
Robomech2015_nakahara

Robomec2014 & 29th Cheminas

Rapidself-layout of rare cells by air-liquid interface control on open-channel microfluidic chip(Song Woneui)
29thcheminas_Song

Single-cell picking by integratedmicropipette having sensor for passage detection of cell(Kazuya Tashiro)
Robomech2014_Tashiro

Single Cell Separation Device by Using Bioresist(Takeshi Hayakawa)
Robomech2014_Hayakawa

蛍光酸素センサを用いたオンチップ単一卵子酸素計測(鬼頭雅伸)
Robomech2014_Kito

28th Cheminas

Multi-fluorescent particle sensor for optical sensing of pH and temperature of cell(Hengjun Liu)
28thCheminas_Liu

MHS2013

Cell Layouter : Label-Free Cell Isolation and Aspiration System of Circulating Tumor Cells (Taisuke Masuda) 
MicroTAS2013_Masuda

MicroTAS2013

Local Environment Control by World-to-Chip interface Microchip and Pipette (Kosuke Nogawa) 
MHS2013_Nogawa

Compiled Chip for All Pretreatment Processes of Virus Gene Analysis (Miyako Niimi) 
MHS2013_Niimi

27th Cheminas

Virus RNA Extraction Using Microfluidic having Microicrocolumn (Miyako Niimi) 
27th_cheminas_Niimi_virus

μTAS2012

In-Situ Measurement of Photosynthesis Using Single Synechocystis SP. PCC 6803 in a Microchamber with Gas Barrier Wall (Hisataka Maruyama)
mTAS2012_Maruyama_Web

Virus Detection by On-chip Hydroxyapatite Chromatography (Miyako Niimi)
MicroTAS_niimi

25th Cheminas

ハイドロキシアパタイトへの吸着特性を用いたウイルス検出チップ(Miyako Niimi) 
Cheminas25_Niimi

Robomec2011

Geometry Control of Cellular Aggregate  -The formation method of toroidal multicellular aggregates for Three-dimensional cellular integration - (Natsuki Takei)
Robomec2011_Takei

Bedside Cancer Cell Collector- On-chip Enrichment of Ultra Low-Concentrated Cancer Cells in Peritoneal Washing- (Miyako Niimi) 
Robomec2011_Niimi

Evaluation of Thermal Conductivity of Single Carbon Nanotube in Liquid by Using Gel Temperature Sensor (Kyohei Tomita) 
Robomec2011_Tomita

Local Temperature Measurement Using Cell Investigation Tool for Physiological Measurement of Single Cell (Hisataka Maruyama) 
Robomec2011_Maruyama

FNTS2011

Evaluation of Thermal Conductivity of Single Carbon NanotubeUsing Fluorescent Gel Temperature Sensor in Liquid (Kyohei Tomita)
40th_FNTS_Tomita

MEMS2011

・ACTIVE VIRUS FILTER FOR ENRICHMENT AND MANIPULATION OF VIRUS (益田泰輔) 
Cheminas_Masuda

22st Cheminas

・Control of Virus concentration by Active virus filter (Taisuke Masuda)
Cheminas_Masuda

MicroTAS2010

ON-CHIP NANOMANIPULATION OF SINGLE INFLUENZA VIRUSUSING DIELECTROPHORETIC CONCENTRATION AND OPTICAL TWEEZERS (Hisataka Maruyama) 
uTAS2010_Maruyama_Virus

OPTICAL INJECTION AND MANIPULATION OF FUNCTIONAL NANOTOOL USING PHOTO-RESPONSIVE CHEMICAL AND OPTICAL TWEEZERS FOR INTRACELLULAR MEASUREMENT (Hisataka Maruyama) 
uTAS2010_Maruyama_pH

Robomec2010 & 21stCheminas

On-chip Cellular Measurement -Part1: Manipulation of Single Virus in Microfluidic Chip- (Hisataka Maruyama)
Robomec2010_maruyama_virus

・Adhesion Force Measurement of Adhered Cell by Functional Gel Tool (Hisataka Maruyama) 
21Cheminas_maruyama

On-chip Automatic Cell Ejection System (Tomohiro Kawahara)
Robomec2010_kawahara_inkjet

Fabrication of Funcional Microfludic Devices by Three-dimensional Mask-less Exposure Technology (Yoko Yamanishi)
21Cheminas_yamanishi

MicroTAS 2009

On-Chip Temperature Control under Suspended Microbridge for Cell Immobilization and Culture System - (Yoko Yamanishi)
yamanishi_bridge

19th Cheminas

Size Ordered Particle Separation System (SO-PASS Filter) - (Tatsuya Shioiri)
shioiri_19thCheminas09

ROBOMEC2009

All-in-One Unified Microfluidic Chip for Automation of Embryonic Cell Manipulation Based on Micro-Robotics (Fumihito Arai)
Robomec09_Sakuma

Magnetically Driven Robot-on-a-chip (MDRoC) -Part 3: Continuous Microparticle Filtration Using Magnetically Driven Microtool- (Hisataka Maruyama)
Robomec09_Maruyama

Local temperature measurement on microfluidic chip having world-to-chip interface (Takahiro Kato)
Robomec09_Kato

On-chip micro-droplet dispenser with disposable structure (Takehito Mizunuma)
Robomec09_Mizunuma

23th IEEE International Conference on Micro Electro Mechanical Systems (MEMS2009)

SIZE-DEPENDENT PARTICLE FILTERATION USING MAGNETICALLY DRIVEN MICROTOOL AND CENTRIFUGAL FORCE IN MICROCHIP
MEMS2009_Maruyama

ROBOMEC2008

On-chip cell observation system using micropattern of hydrogel
Robomec08_matsumoto

Robomech2007

On-chip cell manipulation systems: On-demand supply of fluorescence reagent (Naoki Inomata)
Robomec2008_inomata

On-chip cell manipulation systems: Fabrication of microtools using photo-fabricastion and on-chip laser manipulation (Hideyuki Matsumoto)
Robomec2008_matsumoto

On-chip cell manipulation systems: Local temperature measurement and cell immobilization with thermosensitive gel (Yu-Ching Lin)
Robomec2008_lin