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Microsystem Technologies

Erschienen in:

30.11.2015 | Technical Paper

Sandwich structure based on back-side etching silicon (100) wafers for flexible electronic technology

verfasst von: Yong-hua Zhang, Stephen A. Campbell, Liyuan Zhang, Sreejith Karthikeyan

Erschienen in: Microsystem Technologies | Ausgabe 3/2017

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Abstract

An SU-8-silicon(100)-SU-8 flexible composite sandwich structure is studied. Besides preventing corrosion to the thin silicon membrane, SU-8 photoresist coated on the silicon membrane improves its flexibility as shown by an ANSYS finite element simulation. Using a plasma enhanced chemical vapor deposited SiO₂/Si₃N₄ composite film as an etch mask on the polished side, a 4″ (100) silicon wafer was thinned to 26 µm without rupture in a 30 wt% KOH solution. The wafer was coated on both sides with 20 µm of SU-8 photoresist and then bent over cylinders with various diameters, to flex the sandwich in a controlled manner. The determined minimal bending radius of the fabricated thin silicon-based sandwich structure is approximately 3.5 mm. The fabrication of this sandwich structure is compatible with conventional microelectronic fabrication processing. Thus, it allows one to thin fully fabricated devices in a post-fabrication process to make high-performance flexible electronics.

Vorheriger Artikel Rice-like CuO nanostructures for sensitive electrochemical sensing of hydrazine

Nächster Artikel High temperature investigation on a nickel–tin transient liquid-phase wafer bonding up to 600 C

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Ahmed M, Butler DP (2013) Flexible substrate and release layer for flexible MEMS devices. J Vacuum Sci Technol B 31(5):050602CrossRef

Ahmed SM, Hussain AM, Rojas JP, Muhammad Hussain M (2014) Solid state MEMS devices on flexible and semi-transparent silicon (100) platform. In: IEEE 27th international conference on micro electro mechanical systems (MEMS), pp 548–551

Baca AJ et al (2008) ‘Semiconductor wires and ribbons for high-performance flexible electronics. Angewandte Chemie-Int Ed 47:5524–5542CrossRef

Chang JH-C, Liu Y, Kang D, Tai Y-C (2013) Reliable packaging for parylene-based flexible retinal implant, Transducers 2013, Bacelona, Spain, 16–20 June, 2013, pp 2612–2615

Christiaens W, Bosman E, Vanfleteren J (2010) UTCP: a novel polyimide-based ultra-thin chip packaging technology. IEEE Trans Compon Packag Technol 33(4):754–760CrossRef

Gere JM, Timoshenko SP (1984) Mechanics of materials. PWS-Kent Publishing, Boston

Greenwood JC (1998) Silicon in mechanical sensors. J Phys E Sci Instrum 21(12):1114–1128CrossRef

He J, Nuzzo RG, Rogers J (2015) Inorganic materials and assembly techniques for flexible and stretchable electronics. Proc IEEE 103(4):619–632CrossRef

Hu J, Li L, Lin H, Zhang P, Zhou W, Ma Z (2013) Flexible integrated photonics: where materials, mechanics and optics meet. Optical Mater Exp 3(9):1313–1331CrossRef

Hussain M, Rojas JP, Sevilla GAT (2013) Flexible transparent devices from bulk silicon (100), SPIE Newsroom. www.spie.org

Lin C-H, Lee G-B, Chang B-W, Chang G-L (2002) A new fabrication process for ultra-thick microfluidic microstructures utilizing SU-8 photoresist. J Micromech Microeng 12:590–597CrossRef

Mack S, Meitl MA, Baca AJ, Zhu Z-T, Rogers JA (2006) Mechanically flexible thin-film ransistors that use ultrathin ribbons of silicon derived from bulk wafers. Appl Phys Lett 88:213101CrossRef

Mackenzie KD, Johnson DJ, DeVre MW, Westerman RJ, Reelfs BH (2005) Stress control of Si-based PECVD dielectrics, 207th Electrochemical Society Meeting, Quebec City, Canada, May 2005, PV2005-01, pp 148–159

Na K, Kim IH, Lee E, Kim HC, Lee Y-H, Chun K (2006) Wafer level package using polymer bonding of thick SU-8 photoresist, 2006 international conference on MEMS, NANO and smart systems, Cairo, Egypt, 2006, pp 31–34

Someya T, Sekitani T, Iba S, Kato Y, Kawaguchi H, Sakurai T (2004) A large-area, flexible pressure sensor matrix with organic field-effect transistors for artificial skin applications. Proc Natl Acad Sci USA 101(2004):9966–9970CrossRef

Takei K, Takahashi T, Ho JC, Ko H, Gillies AG, Leu PW et al (2010) Nanowire active-matrix circuitry for low-voltage macroscale artificial skin. Nat Mater 9:821–826CrossRef

Tanaka H, Yamashita S, Abe Y, Shikida M, Sato K (2004) Fast etching of silicon with a smooth surface in high temperature ranges near the boiling point of KOH solution. Sens Actuators A 114:516–520CrossRef

Wu F, Tien LW, Chen F, Berke JD, Kaplan DL, Yoon E (2015) Silk-backed structural optimization of high-density flexible intracortical neural probes. J Microelectomech Syst 24(1):62–69CrossRef

Zhang C-H, Yang Y, Wang Y-F, Zhou C-J, Shu Y, Tian H, Ren T-L (2013) A novel fabrication method for flexible SOI substrate based on trench refilling with polydimethylsiloxane. Chinese Phys Lett 30(8):086201

Zhang J, Tank L, Gong HQ (2001) Characterization of the polymerization of SU-8 photoresist and its applications in micro-electro-mechanical systems (MEMS). Polym Test 20(6):693–701CrossRef

Zhang J, Cui H, Chen A, Xie Y, Huang F (2015) Efficient highly flexible dye sensityized solar cells of three dimensional grahene decorated titanium dioxide nanoparticles on plastic substrate. J Power Sources 281:404–410CrossRef

Zheng P, Wu F, Liu H, Zhou L, Wu Y (2009) Substrate materials of flexible MEMS and its application in sensors. Micronanoelectronic Technol 46(10):604–609

Zhou L, Wanga A, Wu S-C, Sun J, Park S, Nelson S et al (2006) All-organic active matrix OLED flexible display. In: Proceedings of SPIE-the international society for optical engineering, defense, security, cockpit, and future displays II, Kissimmee, FL, United states, vol 6225, p 62250E

Zine-El-Abidine I, Okoniewski M (2009) A low-temperature SU-8 based wafer-level hermetic packaging for MEMS devices. IEEE Trans Adv Package 32(2):448–452CrossRef

Zubel I, Kramkowska M (2002) The effect of alcohol additives on etching characteristics in KOH solutions. Sensors Actuators A 101:255–261CrossRef

Titel: Sandwich structure based on back-side etching silicon (100) wafers for flexible electronic technology
verfasst von: Yong-hua Zhang
Stephen A. Campbell
Liyuan Zhang
Sreejith Karthikeyan
Publikationsdatum: 30.11.2015
Verlag: Springer Berlin Heidelberg
Erschienen in: Microsystem Technologies / Ausgabe 3/2017
Print ISSN: 0946-7076
Elektronische ISSN: 1432-1858
DOI: https://doi.org/10.1007/s00542-015-2737-7

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