Microstructuring characteristics of a chemically amplified photoresist synthesized for ultra-thick UV-LIGA applications

Yang, Chii Rong; Hsieh, Gen-Wen; Hsieh, Yu Sheng; Lee, Yu Der

doi:10.1088/0960-1317/14/8/002

Cited by 8 publications

(7 citation statements)

References 24 publications

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“…Usually silicon or glass wafers are used as substrate for the microsystem. On such planar systems the UV-LIGA process is well-investigated (Liu et al 2004;Yang et al 2004).…”

Section: Introductionmentioning

confidence: 99%

Mechanical and electrical properties of electroplated copper for MR-imaging coils

2005

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Mechanical and electrical properties of electroplated copper films were investigated to be used in an active tracking system for the patient-safe localisation of a catheter in intravascular interventions using magnetic resonance imaging. For this system spiral micro coils with high aspect ratio are fabricated on a planar polyimide foil to be wrapped around a catheter tip. Due to this special assembly method the coils and the copper, respectively, have to withstand high mechanical forces. The influence of the electroplating parameters as current density and shape, temperature and sample motion on the mechanical and electrical properties is investigated. These samples were characterised using nanoindentation, tensile tests, laser profiler and four-point prober. Results show that a low constant current density at a temperature of 40°C and sample motion generate flexible and high-Q copper coils.

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“…Usually silicon or glass wafers are used as substrate for the microsystem. On such planar systems the UV-LIGA process is well-investigated (Liu et al 2004;Yang et al 2004).…”

Section: Introductionmentioning

confidence: 99%

Mechanical and electrical properties of electroplated copper for MR-imaging coils

2005

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“…DFR excels in elasticity, corrosion resistance, photosensitivity, excellent adhesion, and also DFR have been used in micro-blasting, LIGA (lithography galvanoformung abformung) process, PCB processes, photochemical processes, and electroplating process [10][11][12] . Figure 2 shows the location of the DFR between a polyethylene separator sheet and a polyester support.…”

Section: An Ingredient and The Structure Of Dfr (Dry Film Resist)mentioning

confidence: 99%

“…Meanwhile, Fabrication technique of DFR using micro channels can form hundreds micro thickness channels with only the photo-lithography process without an etching process [10][11][12] . Also, DFR is confirmed as having low power consumption because DFR has very lower thermal conductivity (2.33 W/mK), in comparison with silicon which has 168 W/mK thermal conductivity, therefore it display's a high performance for heating an internal sample.…”

Section: Introductionmentioning

confidence: 99%

Fabrications of a continuous-flow DNA amplifier using dry film resist

et al. 2010

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The fabrication technique of DFR using micro channels can form hundreds micro thickness channels with only a photo-lithography process without any etching. Also, DFR is confirmed low consumption power because DFR has very lower thermal conductivity (2.33 W/mK) in comparison with silicon (168 W/mK) therefore displays high performance in heating an internal sample. As DFR is hydrophilic, it can bond with glasses without any treatment. Therefore, anodic bonding process using silicon bulk micromachining or an RIE process used in the PDMS fabrication technique using O 2 plasma is not necessary. According to these advantages, it is expected that production cost can be decreased because fabrication costs of the PCR chamber is decreased. In this paper, a soda-lime glass substrate coated with a DFR of the fluid to cycle through different temperature zones was used to form a micro-channel structure and integrated Pt heater continuous-flow PCR.

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“…In illuminated area a monomer has been polymerized, but from non illuminated area it is dissolved out by special solvent [5].…”

Section: Introductionmentioning

confidence: 99%

UV optical record and electron beam lithography in polymer films

Gerbreders¹,

Shimane²,

Kolobjonoks³

et al. 2012

IOP Conf. Ser.: Mater. Sci. Eng.

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Abstract. Possibility of UV optical record and electron beam lithography in different type of organic polymer films was studied. Mechanisms of molecular structure changes: photoisomerization, destruction, cross-linking and oxidation have been discussed. The results of UV illumination of polyurethanes, polyacrilates, and some block-copolymers are described. The element analysis of polyisoprene block copolymer was performed before and after UV illumination, and the changes in transmission spectra of the polymer film were measured. The resolution of electron beam lithography on polymer films was studied. In the polyisoprene block copolymer film the oxidation polymerization was ascertain at UV-illumination.

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Microstructuring characteristics of a chemically amplified photoresist synthesized for ultra-thick UV-LIGA applications

Cited by 8 publications

References 24 publications

Mechanical and electrical properties of electroplated copper for MR-imaging coils

Mechanical and electrical properties of electroplated copper for MR-imaging coils

Fabrications of a continuous-flow DNA amplifier using dry film resist

UV optical record and electron beam lithography in polymer films

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