Uchiyama laboratory (Analytical Chemistry) Japanese

Department of Applied Chemistry, Graduate School of Urban Environmental Sciences,

Tokyo Metropolitan University

 

A Basic of the Science is to visualize the object to be concerned, like the microscope does.

Great advancement of science was always based upon the establishment of new analytical tool.

Aim of the Uchiyama laboratory is to develop new analytical tool or method for the understanding of environmental issues, biological phenomena and also for making the impossible things into possible things.

 

Place1-1, Minami-ohsawa, Hachioji, Tokyo 192-0397, Japan, 9th building, 3F Room 337 ~ 347

Topics

The paper on the encapsulation of a cell by inkjet was published on Small. (In collaboration with Tsinghua University) 
“Concentrating Single Cells in Picoliter Droplets for Phospholipid Profiling on a Microfluidic System”, Weifei Zhang, Nan Li, Ling Lin, Qiushi Huang, Katsumi Uchiyama, Jin-Ming Lin, Small, 2020, 16, 1903402.
The paper on the selective fabrication of nano-wire for temperature sensing will be published on Analytical Chemistry, 
Selective Fabrication of Nanowires with High Aspect Ratios Using a Diffusion Mixing Reaction System for Applications in Temperature Sensing”, 
Haifeng Lin, Sifeng Mao, Hulie Zeng, Yong Zhang, Masato Kawaguchi, Yumi Tanaka, Jin-Ming Lin, Katsumi Uchiyama*, 
Analytical Chemistry, 2019, 91, 7346-7352. 
The paper on the droplet sensitized fluorescence for ELISA was published on Analytical Chemistry. 
Droplet Sensitized fluorescence detection for enzyme-linked immune sorbent assays on microwell plate”, 
Tsuguhiro Kaneko, Yue Sun, Hizuru Nakajima, Katsumi Uchiyama, Hulie Zeng, Analytical Chemistry, 2019, 91(9), 5685-5689.
Dr Zeng Hulie was moved to Fudan University Faculty of Pharmaceutical Sciences as a professor. (2019, Feb 21~)
Plenary Lecture on nano-wire sensing at 2018 China-Japan-Korea Symposium on Analytical Chemistry
    (Fabrication of nano-wire by nano-chemical pen and possible application to sensing device, Dec. 2st, Xiamen, China, Prof Uchiyama)
Invited lecture on nano-wire fabrication at The 9th International Forum on Chemistry of Functional Organic chemicals
    (Direct and Regio-selective fabrication of nano wire by chemical Pen, 2018, Nov. 19th, Tokyo University, Prof. Uchiyama)
Invited lecture on nano-wire sensing at 9th International Symposium on Analytical Chemistry, 
(Position Selective fabrication of nano-wire and its application to sensing device, 2018, November, 1st, Shanghai, Prof. Uchiyama)
Invited lecture on digital PCR at The 1st Symposium for Cell analysis on Micro/Nano-fluidics.
 (Inkjet printing based droplet generation for integrated online digital polymerase chain reaction, 2018, Sept. 25th, Beijing, Prof. Uchiyama)
The paper that enables adhesion force of a cell on the substrate in single cell was published on Analytical Chemistry.
 (International collaboration with Tsinghua University, Prof. J-M. Lin)
“Measurement of Cell−Matrix Adhesion at Single-Cell Resolution for Revealing the Functions of Biomaterials for Adherent Cell Culture”, 
Sifeng Mao, Qiang Zhang, Haifang Li, Qiushi Huang, Mashooq Khan, Katsumi Uchiyama, and Jin-Ming Lin, Analytical Chemistry, 2018, 90(15), pp 9637-9643.
   DOI: 10.1021/acs.analchem.8b02653  
The paper on on-line digital PCR system with droplets was published in Analytical Chemistry.
(International collaboration with Tsinghua University, Prof. J-M. Lin)
  “Inkjet printing-based droplet generation for integrated on-line digital PCR”, 
Weifei Zhang, Nan Li, Daisuke Koga, Yong Zhang, Hulie Zeng, Hizuru Nakajima, Jin-Ming Lin, and Katsumi Uchiyama,
 Analytical Chemistry, 2018, 90(8), pp 5329 – 5334. DOI: 10.1021/acs.analchem.8b00463
The paper related to chemical pen was published as a Hot paper
(International collaboration with Tsinghua University, Prof. J-M. Lin)
   In situ scatheless cell detachment reveals connections between adhesion strength and viability at single-cell resolution, 
S. Mao, W. Zhang, K. Uchiyama, J-M. Lin, et, Angew. Chem. Int. Ed., 2018, 57, 236-240. 
The paper on nano-chemical fabrication was appeared on the rear cover page of Chemical Communication.(above right image)
Elaborately programmed nanowires fabricated by tapered push-pull nozzle system, 
Y. Zhang, S. Mao, Y. Suzuki, Y. Tanaka, M. Kawaguchi, W. Zhang, H. Zeng, H. Nakajima, M. Yang, K. Uchiyama, Chem. Comm., 54(7), 2018, 697–850.

 

Member

Position

Name

Room

Ex

Phone

E-mail(PLS replace ‘&’ to ‘@’

Professor

Katsumi Uchiyama

339

4877

042-677-2835

uchiyama-katsumitmu.ac.jp

Assoc. Prof.

Hizuru Nakajima

343

4882

042-677-2836

nakajima-hizurutmu.ac.jp

Assoc. Prof.

Shungo Kato

338

4875

042-677-2833

shungotmu.ac.jp

Professor

Nahoko Kasai*

2-209

1921

042-677-1111

kasaintmu.ac.jp

Assist. Prof

Sifeng Mao

344

4883

 

maosifengtmu.ac.jp

Assist. Prof.

Hidetomi Noritomi

148

4838

 

noritomitmu.ac.jp

Secretary

Keiko Yanagita

339

4877

042-677-2835

yanagitatmu.ac.jp

D3

Haifeng Lin

D2

Lin Zhou

D1

Satoshi Sakurai

Paper Doctor

Xu Ning (Tsinghua University)

M2

Tsuguhiro Kaneko, Takuya Nojo, Masato Kawaguchi, Daisuke Koga, Shun Chishima

M1

Tomoki Takahashi, Momoka Kondo, Nao Azuma, Natsumi Yamazaki, Hikaru Kamiki

B4

Hiroki Tatsumi, Yuki Nishitani, Azusa Okamoto, Takahiro Yoshida, Haruka Sato, Hinako Yagi, Yuna Yamadear, Syunsuke Yamanaka

Research Student

Zuizhi Qu

* Prof. Nahoko Kasai: TMU Education center

** Dr. Sifeng Mao will be enrolled from January 2020.

 

Research Interest

Pictures

Publication List

Presentations on Academic Society

Social activity

Lecture in TMU (not available so far)

Links

Tokyo Metropolitan Univerisity

Chemical Society Japan

JSAC