Cationic electron‐beam curing of a high‐functionality epoxy: effect of post‐curing on glass transition and conversion

Rath, Sangram K.; Boey, Freddy; Abadie, M. J. M.

doi:10.1002/pi.1383

Cited by 28 publications

(28 citation statements)

References 15 publications

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“…Feng and Farris [28] found that the Tg is approximately identical to the baking temperature when the processing temperature is less than 220°C and increasing in deviation at higher temperature ranges to a maximum Tg of 238°C at a baking temperature of 300°C, which corroborates with the finding of LaBianca [29]. The Tg of post cured SU8 films has been reported to be always higher than the PEB curing temperature of about 40-70°C [30].…”

Section: Glass Transition Temperaturesupporting

confidence: 79%

“…It can be observed that the Tg is always higher than the PEB temperatures by about 80°C for the HP and HY processed samples and approximately 100°C for the VFM samples. Similar findings have been made by Rath et al [30] who reported Tg of about 40-70°C above the PEB temperature. The Tg values predicted by the Di Benedetto equation seem to be reasonable, although maybe higher than those found in literature.…”

Section: Glass Transition Temperaturesupporting

confidence: 79%

“…(2) [32]. (2) where  is the degree of polymer conversion or degree of cure, Tgo and Tg  are the Tg values at zero and 100% conversion respectively and λ is an adjustable structure dependent parameter which was found to be ~0.88 by Rath et al [2004] for SU8. Using this modified Di Benedetto equation and the results of the degree of cure obtained from the DSC studies, the glass transition temperature for the cured SU8 films were calculated and shown in Fig.…”

Section: Glass Transition Temperaturementioning

confidence: 99%

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Comparison of Conventional and Variable Frequency Microwave Curing of SU8 Photoresist: Effects on the Dielectric, Thermal, and Morphological Properties

Wattanachai

Antonio

2016

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Abstract. Variable Frequency Microwave (VFM) is known to be a rapid, volumetric, and selective form of heating which has shown potential as an alternative technique for the processing of negative-tone SU8 photoresist in the Micro-Electro-Mechanical System (MEMS) industry. A comparison of thermal properties of the films cured during the softbake and post exposure bake process using different techniques, i.e. conventional thermal curing, VFM curing, and a combination of both (referred to as hybrid, HY), was investigated using a Differential Scanning Calorimeter (DSC) and Thermogravimetric Analysis (TGA). A significant increase on the degree of cure (between 13-23%) was observed using the VFM over the hybrid and hotplate curing which means that SU8 curing at lower temperatures or rapid curing is possible. The increase in cure rates can be attributed to a combination of heat transfer and the unique capability of microwave to couple with the sample (selective heating). The improvement in curing at the same processing temperatures has important implications for processing thick films. It was found that regardless of curing methods, crosslink densities increased as the baking temperature increased, resulting in lower dielectric properties. Despite higher crosslinking contents, VFM cured samples decomposed at 2-4°C lower temperatures. In addition to better thermal properties, VFM offered satisfactory microstructure at lower curing temperatures; however, high processing temperatures could result in film cracking.

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Section: Glass Transition Temperaturesupporting

confidence: 79%

Section: Glass Transition Temperaturesupporting

confidence: 79%

Section: Glass Transition Temperaturementioning

confidence: 99%

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Comparison of Conventional and Variable Frequency Microwave Curing of SU8 Photoresist: Effects on the Dielectric, Thermal, and Morphological Properties

Wattanachai

Antonio

2016

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“…This approach is superior to radical polymerization, in which the fast diffusion of radicals and the accompanied refractive index change during polymerization result in less control over microstructure formation. 32,33 Poly(HEMA) is a widely used hydrogel that swells in aqueous solution and has been used in many biomedical applications, such as tissue implant, drug delivery, and contact-lens applications. 34 In this negativetone resist system, the structure can be written by lightinduced cross-linking of the hydroxyl groups of poly(HEMA) via a cross-linker (TMMGU, tetramethoxymethyl glycoluril) which in turn is activated by a photoacid generator.…”

mentioning

confidence: 99%

Three-Dimensionally-Patterned Submicrometer-Scale Hydrogel/Air Networks That Offer a New Platform for Biomedical Applications

et al. 2008

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Phase mask interference lithography was employed to fabricate three-dimensional (3D) hydrogel structures with high surface area on neural prosthetic devices. A random terpolymer of poly(hydroxyethyl methacrylate-ran-methyl methacrylate-ran-methacrylic acid) was synthesized and used as a negative-tone photoresist to generate bicontinuous 3D hydrogel structures at the submicrometer scale. We demonstrated that the fully open 3D hydrogel/air networks can be used as a pH-responsive polymeric drug-release system for the delivery of neurotrophins to enhance the performance of neural prosthetic devices. Additionally an open hydrogel structure will provide direct access of neuronal growth to the device for improved electrical coupling.

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“…The use of radiation curing has been shown to give faster cure rates. This includes the use of microwave curing [19][20][21], UV [22][23] and ebeam [24][25][26] for curing of thin film thermosetting polymers have been shown to give practical and effective advantages [19][20][21]. N-acryloylmorpholine shows a capability to dissolve traditional BMI with high concentration.…”

Section: Introductionmentioning

confidence: 99%

UV curing of a liquid based bismaleimide-containing polymer system

Fan¹,

Boey²,

Abadie³

2007

Express Polym. Lett.

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Abstract.A new liquid formulation of commercial bismaleimide and n-acryloylmorpholine was prepared that could be UV cured as an alternative to traditional thermal cure methods presently used for BMI in the industry. UV curing was shown to be an efficient method which promoted the reaction rate significantly and was able to achieve this at low temperatures (30-50°C). A free radical polymerization approach has been used to explain the cure mechanism and cure kinetics, using data elucidated from the DPC and FTIR. The cured thin film was shown to achieve very high thermal stability (~400°C), with the BMI shown to retard the thermal degradation temperature and rate.

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Cationic electron‐beam curing of a high‐functionality epoxy: effect of post‐curing on glass transition and conversion

Cited by 28 publications

References 15 publications

Comparison of Conventional and Variable Frequency Microwave Curing of SU8 Photoresist: Effects on the Dielectric, Thermal, and Morphological Properties

Comparison of Conventional and Variable Frequency Microwave Curing of SU8 Photoresist: Effects on the Dielectric, Thermal, and Morphological Properties

Three-Dimensionally-Patterned Submicrometer-Scale Hydrogel/Air Networks That Offer a New Platform for Biomedical Applications

UV curing of a liquid based bismaleimide-containing polymer system

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