Advanced search
Publication Cover
Ferroelectrics Volume 320, 2005 - Issue 1
Submit an article Journal homepage
259
Views
33
CrossRef citations to date
0
Altmetric
SECTION J: APPLICATIONS AND DEVICES

Novel Tweezers for Biological Cells Using Piezoelectric Polylactic Acid Fibers

Y. Tajitsu Smart Structures and Materials Laboratory, Graduate School of Engineering, Kansai University, 3-3-35, Yamate, Suita, Osaka, 564-8680, Japan
,
M. Kanesaki Smart Structures and Materials Laboratory, Graduate School of Engineering, Kansai University, 3-3-35, Yamate, Suita, Osaka, 564-8680, Japan
,
M. Tsukiji Smart Structures and Materials Laboratory, Graduate School of Engineering, Kansai University, 3-3-35, Yamate, Suita, Osaka, 564-8680, Japan
,
K. Imoto Smart Structures and Materials Laboratory, Graduate School of Engineering, Kansai University, 3-3-35, Yamate, Suita, Osaka, 564-8680, Japan
,
M. Date Kobayashi Institute of Physical Research, Higashi-Motomachi, Kokubunji, Tokyo, 185-0022, Japan
&
E. Fukada Kobayashi Institute of Physical Research, Higashi-Motomachi, Kokubunji, Tokyo, 185-0022, Japan
Pages 133-139 | Received 06 Sep 2004, Published online: 09 Mar 2011

Citations (33)

Keep up to date with the latest research on this topic with citation updates for this article.

Subscribe to citation updates

Read on this site (7)

Masayuki Ishihara, Yuhei Uesugi, Yoshihiro Ootao & Yoshitaka Kameo. (2018) Electroelastic field in sheared piezoelectric bodies with D∞ symmetry disturbed by transient thermal field. Journal of Thermal Stresses 41:10-12, pages 1346-1363.
Read now
Masayuki Ishihara, Yoshihiro Ootao & Yoshitaka Kameo. (2018) Analytical technique for thermoelectroelastic field in piezoelectric bodies with D∞ symmetry in cylindrical coordinates. Journal of Thermal Stresses 41:1, pages 17-36.
Read now
Masayuki Ishihara, Yoshihiro Ootao & Yoshitaka Kameo. (2016) Analytical technique for thermoelectroelastic field in piezoelectric bodies with D∞ symmetry. Journal of Thermal Stresses 39:10, pages 1283-1300.
Read now
Masayuki Ishihara, Yoshihiro Ootao & Yoshitaka Kameo. (2016) Electroelastic Response of Cylindrical Fiber with D∞ Symmetry Exposed to Local Electric Field Through Opposed Electrode Pair. Polymer-Plastics Technology and Engineering 55:9, pages 900-910.
Read now
B. Ashok, S. Naresh, K. Obi Reddy, K. Madhukar, J. Cai, L. Zhang & A. Varada Rajulu. (2014) Tensile and Thermal Properties of Poly(lactic acid)/Eggshell Powder Composite Films. International Journal of Polymer Analysis and Characterization 19:3, pages 245-255.
Read now
Y. Tajitsu. (2011) Piezoelectric Properties of Ferroelectret. Ferroelectrics 415:1, pages 57-66.
Read now
Y. Tajitsu. (2009) Basic Study of Controlling Piezoelectric Motion of Chiral Polymeric Fiber. Ferroelectrics 389:1, pages 83-94.
Read now

Articles from other publishers (26)

Kailiang Ren, Yue Shen & Zhong Lin Wang. (2023) Piezoelectric Properties of Electrospun Polymer Nanofibers and Related Energy Harvesting Applications. Macromolecular Materials and Engineering 309:3.
Crossref
Richard Schönlein, Mercedes Fernández, Itxaso Calafel, Mikel Azkune, Guoming Liu, Alejandro J. Müller, Jone M. Ugartemendia & Robert Aguirresarobe. (2024) Flow-induced crystallization of piezoelectric poly(L-lactide) fibers by a one-step melt-spinning process. Materials & Design 237, pages 112525.
Crossref
Fawad Ali & Muammer Koc. (2023) 3D Printed Polymer Piezoelectric Materials: Transforming Healthcare through Biomedical Applications. Polymers 15:23, pages 4470.
Crossref
Ting Liu, Yuan Wang, Min Hong, Jeffrey Venezuela, Wei Shi & Matthew Dargusch. (2023) Advances in biodegradable piezoelectrics for medical implants. Nano Today 52, pages 101945.
Crossref
Mohsin Ali, Mohammad Javad Bathaei, Emin Istif, Seyed Nasir Hosseini Karimi & Levent Beker. (2023) Biodegradable Piezoelectric Polymers: Recent Advancements in Materials and Applications. Advanced Healthcare Materials 12:23.
Crossref
Masayuki ISHIHARA, Yuto NAKADA & Yoshitaka KAMEO. (2023) Electroelastic analysis for a sheared <i>D</i><sub>∞</sub> piezoelectric cylinder disturbed by transient temperature distribution. Mechanical Engineering Journal 10:4, pages 23-00096-23-00096.
Crossref
Meysam T. Chorsi, Thinh T. Le, Ritopa Das, Tra Vinikoor, Hamid T. Chorsi, Kazem Kazerounian, Horea Ilies & Thanh D. Nguyen. 2023. Encyclopedia of Materials: Electronics. Encyclopedia of Materials: Electronics 180 198 .
Masayuki ISHIHARA, Hirohito SUZUKIYoshitaka KAMEO. (2022) Electroelastic field in a piezoelectric strip with <i>D</i><sub>∞</sub> symmetry subjected to surface shear. Mechanical Engineering Journal 9:5, pages 22-00165-22-00165.
Crossref
Angelika Zaszczyńska, Arkadiusz Gradys & Paweł Sajkiewicz. (2020) Progress in the Applications of Smart Piezoelectric Materials for Medical Devices. Polymers 12:11, pages 2754.
Crossref
Jun Li, Yin Long, Fan Yang & Xudong Wang. (2020) Degradable piezoelectric biomaterials for wearable and implantable bioelectronics. Current Opinion in Solid State and Materials Science 24:1, pages 100806.
Crossref
Eli J. CurryThinh T. LeRitopa DasKai KeElise M. SantorellaDebayon PaulMeysam T. ChorsiKhanh T. M. TranJeffrey BaroodyEmily R. BorgesBrian KoAsiyeh GolabchiXiaonan XinDavid RoweLixia YueJianlin FengM. Daniela Morales-AcostaQian WuI-Ping Chen, X. Tracy CuiJoel PachterThanh D. Nguyen. (2019) Biodegradable nanofiber-based piezoelectric transducer. Proceedings of the National Academy of Sciences 117:1, pages 214-220.
Crossref
Meysam T. Chorsi, Eli J. Curry, Hamid T. Chorsi, Ritopa Das, Jeffrey Baroody, Prashant K. Purohit, Horea Ilies & Thanh D. Nguyen. (2018) Piezoelectric Biomaterials for Sensors and Actuators. Advanced Materials 31:1.
Crossref
Michael Smith, Yonatan Calahorra, Qingshen Jing & Sohini Kar-Narayan. (2017) Direct observation of shear piezoelectricity in poly- l -lactic acid nanowires . APL Materials 5:7.
Crossref
Masayuki ISHIHARA, Yoshihiro OOTAO & Yoshitaka KAMEO. (2017) Electroelastic field in a piezoelectric solid cylinder with D<sub>∞</sub> symmetry subjected to transverse mechanical load. Mechanical Engineering Journal 4:5, pages 17-00210-17-00210.
Crossref
Masayuki ISHIHARA, Yoshihiro OOTAO, Yoshitaka KAMEO & Takuro SAITO. (2017) Thermoelectroelastic response of a piezoelectric cylinder with D<sub>∞</sub> symmetry under axisymmetric mechanical and thermal loading. Mechanical Engineering Journal 4:5, pages 16-00609-16-00609.
Crossref
Masayuki Ishihara, Yoshihiro Ootao & Yoshitaka Kameo. (2016) Electroelastic response of a piezoelectric cylinder with D∞ symmetry under axisymmetric mechanical loading. Mechanics Research Communications 74, pages 1-7.
Crossref
Yao Chen, Haoran Mu, Pengfei Li, Shenghuang Lin, Bannur N. Shivananju & Qiaoliang Bao. (2016) Optically driven black phosphorus as a saturable absorber for mode-locked laser pulse generation. Optical Engineering 55:8, pages 081317.
Crossref
Reza Khazaeinezhad, Sahar Hosseinzadeh Kassani, Tavakol Nazari, Hwanseong Jeong, Jongki Kim, Kyujin Choi, Jae-Ung Lee, Jae Hoon Kim, Hyeonsik Cheong, Dong-Il Yeom & Kyunghwan Oh. (2015) Saturable optical absorption in MoS2 nano-sheet optically deposited on the optical fiber facet. Optics Communications 335, pages 224-230.
Crossref
Yoshikazu Koike, Hitoshi Takeuchi, Hiroki Hagiwara, Tomoki Ogura, Daichi Aoki, Ken Kumagai, Taku Ishikawa & Hiroyuki Nishikawa. (2012) Micro fabrication of poly L lacid and its application. Micro fabrication of poly L lacid and its application.
Y. Tajitsu. (2010) Basic study on controlling piezoelectric motion of chiral polymeric fiber. IEEE Transactions on Dielectrics and Electrical Insulation 17:4, pages 1050-1055.
Crossref
Tingting Lin, Xiang-Yang Liu & Chaobin He. (2010) Ab Initio Elasticity of Poly(lactic acid) Crystals. The Journal of Physical Chemistry B 114:9, pages 3133-3139.
Crossref
Michiya Sawano, Komei Tahara, Yoshihiro Orita, Mesatoshi Nakayama & Yoshiro Tajitsu. (2010) New design of actuator using shear piezoelectricity of a chiral polymer, and prototype device. Polymer International 59:3, pages 365-370.
Crossref
Masahiro Honda, Michiya Sawano, Yasuhiro Uenaka, Katsunori Morii, Ken Yamamoto & Yoshiro Tajitsu. (2008) Electrically Controlled Piezoelectric Motion of Piezoelectric Chiral Polymeric Fibers. Japanese Journal of Applied Physics 47:9S, pages 7642.
Crossref
Y. Tajitsu. (2008) Piezoelectricity of chiral polymeric fiber and its application in biomedical engineering. IEEE Transactions on Ultrasonics, Ferroelectrics and Frequency Control 55:5, pages 1000-1008.
Crossref
Masahiro Honda, Kazuto Hayashi, Katsunori Morii, Syuji Kawai, Yu Morimoto & Yoshiro Tajitsu. (2007) Piezoelectricity of Chiral Polymeric Fibers. Japanese Journal of Applied Physics 46:10S, pages 7122.
Crossref
Yoshiro Tajitsu. (2006) Development of electric control catheter and tweezers for thrombosis sample in blood vessels using piezoelectric polymeric fibers. Polymers for Advanced Technologies 17:11-12, pages 907-913.
Crossref

Reprints and Corporate Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

To request a reprint or corporate permissions for this article, please click on the relevant link below:

Order Reprints Request Corporate Permissions

Academic Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

Obtain permissions instantly via Rightslink by clicking on the button below:

Request Academic Permissions

If you are unable to obtain permissions via Rightslink, please complete and submit this Permissions form. For more information, please visit our Permissions help page.

Related research

People also read lists articles that other readers of this article have read.

Recommended articles lists articles that we recommend and is powered by our AI driven recommendation engine.

Cited by lists all citing articles based on Crossref citations.
Articles with the Crossref icon will open in a new tab.