Literature DB >> 20548352

Dynamic manipulation and patterning of microparticles and cells by using TiOPc-based optoelectronic dielectrophoresis.

Shih-Mo Yang1, Tung-Ming Yu, Hang-Ping Huang, Meng-Yen Ku, Long Hsu, Cheng-Hsien Liu.   

Abstract

We develop light-driven optoelectronic tweezers based on the organic photoconductive material titanium oxide phthalocyanine. These tweezers function based on negative dielectrophoresis (nDEP). The dynamic manipulation of a single microparticle and cell patterning are demonstrated by using this light-driven optoelectronic DEP chip. The adaptive light patterns that drive the optoelectronic DEP onchip are designed by using Flash software to approach appropriate dynamic manipulation. This is also the first reported demonstration, to the best of our knowledge, for successfully patterning such delicate cells from human hepatocellular liver carcinoma cell line HepG2 by using any optoelectronic tweezers.

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Year:  2010        PMID: 20548352     DOI: 10.1364/OL.35.001959

Source DB:  PubMed          Journal:  Opt Lett        ISSN: 0146-9592            Impact factor:   3.776


  14 in total

1.  A microfluidic co-culture system to monitor tumor-stromal interactions on a chip.

Authors:  Nishanth V Menon; Yon Jin Chuah; Bin Cao; Mayasari Lim; Yuejun Kang
Journal:  Biomicrofluidics       Date:  2014-12-05       Impact factor: 2.800

2.  Inducing self-rotation of cells with natural and artificial melanin in a linearly polarized alternating current electric field.

Authors:  Mengxing Ouyang; Wing Ki Cheung; Wenfeng Liang; John D Mai; Wing Keung Liu; Wen Jung Li
Journal:  Biomicrofluidics       Date:  2013-10-03       Impact factor: 2.800

3.  Size-dependent dielectrophoretic crossover frequency of spherical particles.

Authors:  Ping-You Weng; I-An Chen; Che-Kai Yeh; Pin-Yi Chen; Jia-Yang Juang
Journal:  Biomicrofluidics       Date:  2016-02-11       Impact factor: 2.800

4.  Optoelectronic tweezers integrated with lensfree holographic microscopy for wide-field interactive cell and particle manipulation on a chip.

Authors:  Kuo-Wei Huang; Ting-Wei Su; Aydogan Ozcan; Pei-Yu Chiou
Journal:  Lab Chip       Date:  2013-05-09       Impact factor: 6.799

5.  Towards Microfluidic-Based Exosome Isolation and Detection for Tumor Therapy.

Authors:  Jie Wang; Peng Ma; Daniel H Kim; Bi-Feng Liu; Utkan Demirci
Journal:  Nano Today       Date:  2021-01-13       Impact factor: 20.722

6.  An integrated actuating and sensing system for light-addressable potentiometric sensor (LAPS) and light-actuated AC electroosmosis (LACE) operation.

Authors:  Hsin-Yin Peng; Chia-Ming Yang; Yu-Ping Chen; Hui-Ling Liu; Tsung-Cheng Chen; Dorota G Pijanowska; Po-Yu Chu; Chia-Hsun Hsieh; Min-Hsien Wu
Journal:  Biomicrofluidics       Date:  2021-04-12       Impact factor: 2.800

7.  Manipulating and assembling metallic beads with Optoelectronic Tweezers.

Authors:  Shuailong Zhang; Joan Juvert; Jonathan M Cooper; Steven L Neale
Journal:  Sci Rep       Date:  2016-09-07       Impact factor: 4.379

Review 8.  A Review on Optoelectrokinetics-Based Manipulation and Fabrication of Micro/Nanomaterials.

Authors:  Wenfeng Liang; Lianqing Liu; Junhai Wang; Xieliu Yang; Yuechao Wang; Wen Jung Li; Wenguang Yang
Journal:  Micromachines (Basel)       Date:  2020-01-10       Impact factor: 2.891

Review 9.  Cell patterning for liver tissue engineering via dielectrophoretic mechanisms.

Authors:  Wan Nurlina Wan Yahya; Nahrizul Adib Kadri; Fatimah Ibrahim
Journal:  Sensors (Basel)       Date:  2014-07-02       Impact factor: 3.576

10.  Self-Locking Optoelectronic Tweezers for Single-Cell and Microparticle Manipulation across a Large Area in High Conductivity Media.

Authors:  Yajia Yang; Yufei Mao; Kyeong-Sik Shin; Chi On Chui; Pei-Yu Chiou
Journal:  Sci Rep       Date:  2016-03-04       Impact factor: 4.379
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