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Digest of Technical Papers - SID International Symposium

Volumn 45, Issue 1, 2014, Pages 122-125

Imperceptible electronic skin

(4) Sekitani, Tsuyoshi a,b Kaltenbrunner, Martin a,b Yokota, Tomoyuki a,b Someya, Takao a,b

a UNIVERSITY OF TOKYO (Japan)

b JAPAN SCIENCE AND TECHNOLOGY AGENCY (Japan)

Author keywords

electronic skins; flexible electronics; organic transistors; thin film plastics; transistor active matrix

Indexed keywords

FLEXIBLE ELECTRONICS;

ACTIVE MATRIXES; ELECTRONIC SKIN; MECHANICAL CHARACTERISTICS; ORGANIC ELECTRONICS; ORGANIC SOLAR CELL; ORGANIC TRANSISTOR; PLASTIC SUBSTRATES; POLYMER LIGHT-EMITTING DIODES;

LIGHT EMITTING DIODES;

EID: 84904970628 PISSN: 0097966X EISSN: 21680159 Source Type: Conference Proceeding
DOI: 10.1002/j.2168-0159.2014.tb00034.x Document Type: Article

Times cited : (10)

References (15)

1
- 84858774006
- Materials for stretchable electronics
- S. Wagner, S. Bauer, "Materials for stretchable electronics," MRS Bulletin 37 (03), 207-213 (2012).
- (2012) MRS Bulletin , vol.37 , Issue.3 , pp. 207-213
- Wagner, S.¹ Bauer, S.²

2
- 0001156970
- Amorphous silicon transistors on ultrathin steel foil substrates
- E. Y. Ma, S. Wagner, "Amorphous silicon transistors on ultrathin steel foil substrates," Applied Physics Letters 74 (18), 2661-2662 (1999).
- (1999) Applied Physics Letters , vol.74 , Issue.18 , pp. 2661-2662
- Ma, E.Y.¹ Wagner, S.²

3
- 28344450634
- Ultraflexible organic field-effect transistors embedded at a neutral strain position
- T. Sekitani, et al, "Ultraflexible organic field-effect transistors embedded at a neutral strain position," Applied Physics Letters 87 (17), 173502 (2005).
- (2005) Applied Physics Letters , vol.87 , Issue.17 , pp. 173502
- Sekitani, T.¹

4
- 78649976514
- Flexible organic transistors and circuits with extreme bending stability
- T. Sekitani, U. Zschieschang, H. Klauk, T. Someya, "Flexible organic transistors and circuits with extreme bending stability," Nature Materials 9 (12), 1015-1022 (2010).
- (2010) Nature Materials , vol.9 , Issue.12 , pp. 1015-1022
- Sekitani, T.¹ Zschieschang, U.² Klauk, H.³ Someya, T.⁴

5
- 84872111074
- Extremely flexible nanoscale ultrathin body silicon integrated circuits on plastic
- D. Shahrjerdi, S. W. Bedell, "Extremely flexible nanoscale ultrathin body silicon integrated circuits on plastic," Nano Letters 13 (1), 315-320 (2013).
- (2013) Nano Letters , vol.13 , Issue.1 , pp. 315-320
- Shahrjerdi, D.¹ Bedell, S.W.²

6
- 42549116193
- Stretchable and foldable silicon integrated circuits
- D. H. Kim, et al, "Stretchable and foldable silicon integrated circuits," Science 320 (5875), 507-511 (2008).
- (2008) Science , vol.320 , Issue.5875 , pp. 507-511
- Kim, D.H.¹

7
- 51749096677
- A rubberlike stretchable active matrix using elastic conductors
- T. Sekitani, et al, "A rubberlike stretchable active matrix using elastic conductors," Science 321 (5895), 1468-1472 (2008).
- (2008) Science , vol.321 , Issue.5895 , pp. 1468-1472
- Sekitani, T.¹

8
- 79953849197
- Silicone substrate with in situ strain relief for stretchable thin-film transistors
- I. M. Graz, D. P. J. Cotton, A. Robinson, S. P. Lacour, "Silicone substrate with in situ strain relief for stretchable thin-film transistors," Applied Physics Letters 98 (12), 124101 (2011).
- (2011) Applied Physics Letters , vol.98 , Issue.12 , pp. 124101
- Graz, I.M.¹ Cotton, D.P.J.² Robinson, A.³ Lacour, S.P.⁴

9
- 84881168392
- An ultra-lightweight design for imperceptible plastic electronics
- M. Kaltenbrunner, et al, "An ultra-lightweight design for imperceptible plastic electronics," Nature 499, 458-463 (2013).
- (2013) Nature , vol.499 , pp. 458-463
- Kaltenbrunner, M.¹

10
- 84885022214
- Ultrathin, highly flexible, and stretch-compatible PLEDs
- M. S. White, et al, "Ultrathin, highly flexible, and stretch-compatible PLEDs," Nature Photonics 7, 811-816 (2013).
- (2013) Nature Photonics , vol.7 , pp. 811-816
- White, M.S.¹

11
- 84860289329
- Ultrathin and lightweight organic solar cells with high flexibility
- doi:10.1038/ncomms1772
- M. Kaltenbrunner, et al, "Ultrathin and lightweight organic solar cells with high flexibility," Nature Communications 3, 770 doi:10.1038/ncomms1772 (2012).
- (2012) Nature Communications , vol.3 , pp. 770
- Kaltenbrunner, M.¹

12
- 84876576453
- 1μm thickness 64 channel surface electromyogram measurement sheet with 2V organic transistors for prosthetic hand control
- San Francisco, USA
- H. Fuketa, et al, "1μm thickness 64 channel surface electromyogram measurement sheet with 2V organic transistors for prosthetic hand control," Digest of Technical Papers of IEEE International Solid-State Circuits Conference (ISSCC), San Francisco, USA, 104-105 (2013).
- (2013) Digest of Technical Papers of IEEE International Solid-State Circuits Conference (ISSCC) , pp. 104-105
- Fuketa, H.¹

13
- 33847111592
- Ultralow-power organic complementary circuits
- H. Klauk, et al, "Ultralow-power organic complementary circuits," Nature 445 (7129), 745-748 (2007).
- (2007) Nature , vol.445 , Issue.7129 , pp. 745-748
- Klauk, H.¹

14
- 33847689723
- Facile synthesis of highly pi-extended heteroarenes, dinaphtho[2,3-b: 2″,3″-f]chalcogenopheno[3,2-b]chalcogenophenes, and their application to field-effect transistors
- T. Yamamoto, K. Takimiya, "Facile synthesis of highly pi-extended heteroarenes, dinaphtho[2,3-b:2″,3″-f]chalcogenopheno[3,2-b] chalcogenophenes, and their application to field-effect transistors," Journal of the American Chemical Society 129 (8), 2224-2225 (2007).
- (2007) Journal of the American Chemical Society , vol.129 , Issue.8 , pp. 2224-2225
- Yamamoto, T.¹ Takimiya, K.²

15
- 84870300629
- Sheet-type flexible organic active matrix amplifier system using pseudo-CMOS circuits with floating-gate structure
- T. Yokota, et al, "Sheet-type flexible organic active matrix amplifier system using pseudo-CMOS circuits with floating-gate structure," IEEE Transactions on Electron Devices 59, 3434-3441 (2012).
- (2012) IEEE Transactions on Electron Devices , vol.59 , pp. 3434-3441
- Yokota, T.¹

* 이 정보는 Elsevier사의 SCOPUS DB에서 KISTI가 분석하여 추출한 것입니다.