Systematic Characterization of Plasma-Etched Trenches on 4H-SiC Wafers

Pirnaci, Massimo D; Spitaleri, Luca; Tenaglia, Dario; Perricelli, Francesco; Fragalà, Maria Elena; Bongiorno, Corrado; Gulino, Antonino

doi:10.1021/acsomega.1c02905

Cited by 12 publications

(5 citation statements)

References 44 publications

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“…1,2 The newest generation of microelectronic devices is characterized by the increase in device density and fabrication complexity but, simultaneously, by the decrease in thickness and dimensions. 3 This condition represents a challenge for the fan-out waferlevel package, which requires the employment of electronic packaging materials with low dielectric properties, also able to dissipate heat. 4 Microelectronic packaging represents an important step during the fabrication of microelectronic devices because it provides the electrical connection/isolation, mechanical support, thermal cooling, and physical protection of the electronic components.…”

Section: ■ Introductionmentioning

confidence: 99%

“…In recent years, the fabrication of integrated circuits (ICs) has increased in response to the growing demand for microelectronic devices, such as smartphones, tablets, laptops, flexible electronics, and electric vehicles. , The newest generation of microelectronic devices is characterized by the increase in device density and fabrication complexity but, simultaneously, by the decrease in thickness and dimensions . This condition represents a challenge for the fan-out wafer-level package, which requires the employment of electronic packaging materials with low dielectric properties, also able to dissipate heat …”

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Chemical and Morphological Modifications Induced by Argon Plasma Treatments on Fluorinated Polybenzoxazole Films

et al. 2023

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Fluorinated photodefinable polymers are widely employed as re-distribution layers in wafer-level packaging to produce microelectronic devices because of their suitable low dielectric constant and moisture absorption, high mechanical toughness, thermal conductivity and stability, and chemical inertness. Typically, fluorinated photodefinable polybenzoxazoles (F-PBOs) are the most used in this field. In the present work, we investigated by atomic force microscopy, X-ray photoelectron spectroscopy, and Fourier transform infrared spectroscopy the morphological and chemical modifications induced by Ar plasma treatments on F-PBO films. This process, used to remove surface contaminant species, as well as increase the polymeric surface roughness, to improve the adhesion to the other components during electronic packaging, is a crucial step during the manufacturing of some microelectronic devices. We found that argon plasma treatments determine the wanted drastic increase of the polymer surface roughness but, in the presence of a patterned silver layer on F-PBO, needed for the fabrication of electric contacts in microelectronic devices, also induce some unwanted formation of silver fluoride species.

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Section: ■ Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Chemical and Morphological Modifications Induced by Argon Plasma Treatments on Fluorinated Polybenzoxazole Films

et al. 2023

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“…Plasma etch technology would be compatible with other materials for the creation of MN, given the right process flow. Although significantly more expensive, Silicon Carbide (SiC) [194,195] is one such material of interest due to its compatibility with dry etch processing [196][197][198] and the mechanical advantages it holds over silicon [195].…”

Section: Other Materialsmentioning

confidence: 99%

“…The use of SiC for microneedles would require a new design and process flow, due to the differences between etching Si and SiC. The history of etching SiC is also less explored than Si, and although plasma-based SiC etches have been developed for specific applications [198,204] significant process work would be required to produce MN devices in SiC.…”

Section: Other Materialsmentioning

confidence: 99%

Creation and Optimisation of Plasma Etch Processes for the Manufacture of Silicon Microstructures

Bolton¹

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Microneedles are an area of growing interest for applications in transdermal delivery. Small, minimally invasive medical or cosmetic devices, microneedles are intended to penetrate the skin's outer protective layer (stratum corneum) to facilitate delivery of active formulations into the skin. Delivery of solution via microneedles has the benefits associated with hypodermic injection, i.e. avoiding the first-pass metabolism systems, with the added advantages of painless delivery and dose sparing from the reduced solution volumes required.Advancements in semiconductor processing technologies and equipment have enabled the creation of devices and structures that could not have been fabricated in the past. This is also true for the fabrication of microneedles, where previous manufacturing methods have relied on hazardous chemicals such as Hydrofluoric Acid and Potassium Hydroxide to create the sharp tip of the needle, required to reduce insertion force.In this thesis, the realisation of a hollow bevelled silicon microneedle fabricated using only plasma processing techniques is presented, providing a route to scalable manufacture of high-performance, sharp-tipped microneedles. The microneedle fabrication process consists of three main etch steps in the process flow to create hollow structures. For each of the Bevel, Bore, and Shaft processes the development and optimisation is detailed. Throughout the process development, several unexpected processing issues were encountered, including depth non-uniformity, "notching", and "silicon grass". Investigations have been performed to determine the root cause of each issue and fine-tune processes to optimise the final devices. A discussion of the process hardware is also presented, with reference to the benefits for each specific application process.Following development and optimisation of each individual process, the Bevel, Bore, and Shaft processes were integrated in the manufacturing flow to create the final hollow silicon microneedle device. Issues arising from the combination of the three processes have been investigated, resolved, and optimised. This includes the conception and execution of a novel process for the plasma smoothing of an angled silicon surface, which improved the quality of lithography on the non-planar bevel surface and minimised grass formation.Preliminary testing, undertaken to assess the suitability of these devices for transdermal use, included mechanical fracture force, skin penetration, and injection testing. The microneedles were found to be strong enough to remain intact during insertion, and demonstrate successful penetration and injection through the stratum corneum and into the deeper skin layers.

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Nanosecond laser structuring for enhanced pool boiling performance of SiC surfaces

Kim,

Jung,

Ryu

et al. 2024

Applied Surface Science

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Systematic Characterization of Plasma-Etched Trenches on 4H-SiC Wafers

Cited by 12 publications

References 44 publications

Chemical and Morphological Modifications Induced by Argon Plasma Treatments on Fluorinated Polybenzoxazole Films

Chemical and Morphological Modifications Induced by Argon Plasma Treatments on Fluorinated Polybenzoxazole Films

Creation and Optimisation of Plasma Etch Processes for the Manufacture of Silicon Microstructures

Nanosecond laser structuring for enhanced pool boiling performance of SiC surfaces

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