Temperature-Invariant Large Broadband Polyimide Dielectrics with Multimodal Porous Networks

Khim, Seongjun; Hwang, Yun Chan; Choi, Jaewon; Park, Hyunjin; Nam, Ki-Ho

doi:10.1021/acsapm.3c00369

Cited by 8 publications

(6 citation statements)

References 49 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…However, the original honeycomb-patterned mesoporous scaffold was not destroyed during the post-grafting amination. Thermogravimetric weight loss curves for MS and AMS are shown in Figure 1 d. The TGA curve of the AMS exhibits three weight loss intervals that are distinct from MS: (i) desorption of the water linked to the silica surface in the range of 50–150 °C, (ii) fragmentation of the organic functionalities attached to the AMS surface in the range of 200–600 °C, and (iii) mesoporous structure disruption above 600 °C [ 24 , 30 ].…”

Section: Resultsmentioning

confidence: 99%

“…Mesoporous silica, such as polyhedral oligomeric silsesquioxanes, Santa Barbara Amorphous-15, or Mobil Composition of Matter No. 41 (MCM-41), has emerged as a research hotspot for reducing D k and improving other properties [ 22 , 23 , 24 ]. Among them, MCM-41 exhibits an intrinsically low D k of 1.4–2.1 due to its regular arrangement of cylindrical mesopores (3–4 nm) that form a one-dimensional pore system.…”

Section: Introductionmentioning

confidence: 99%

See 1 more Smart Citation

Frequency-Dependent Dielectric Permittivity and Water Permeability in Ordered Mesoporous Silica-Grafted Fluorinated Polyimides

Son,

Park,

Kim

et al. 2024

Polymers

Self Cite

View full text Add to dashboard Cite

Polymers with a low dielectric constant (Dk) are promising materials for high-speed communication networks, which demand exceptional thermal stability, ultralow Dk and dissipation factor, and minimum moisture absorption. In this paper, we prepared a series of novel low-Dk polyimide films containing an MCM-41-type amino-functionalized mesoporous silica (AMS) via in situ polymerization and subsequent thermal imidization and investigated their morphologies, thermal properties, frequency-dependent dielectric behaviors, and water permeabilities. Incorporating 6 wt.% AMS reduced the Dk at 1 MHz from 2.91 of the pristine fluorinated polyimide (FPI) to 2.67 of the AMS-grafted FPI (FPI-g-AMS), attributed to the free volume and low polarizability of fluorine moieties in the backbone and the incorporation of air voids within the mesoporous AMS particles. The FPI-g-AMS films presented a stable dissipation factor across a wide frequency range. Introducing a silane coupling agent increased the hydrophobicity of AMS surfaces, which inhibited the approaching of the water molecules, avoiding the hydrolysis of Si–O–Si bonds of the AMS pore walls. The increased tortuosity caused by the AMS particles also reduced water permeability. All the FPI-g-AMS films displayed excellent thermooxidative/thermomechanical stability, including a high 5% weight loss temperature (>531 °C), char residue at 800 °C (>51%), and glass transition temperature (>300 °C).

show abstract

Section: Resultsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Frequency-Dependent Dielectric Permittivity and Water Permeability in Ordered Mesoporous Silica-Grafted Fluorinated Polyimides

Son,

Park,

Kim

et al. 2024

Polymers

Self Cite

View full text Add to dashboard Cite

show abstract

“…The porous structure can be formed by selectively removing one of the phases by separating it as a gas or liquid when the temperature or other external conditions are changed. With the continuous research and exploration in recent years, the family of phase separation mainly has expanded to water vapor induced phase separation (WVIPS), , nonsolvent induced phase separation (NIPS), − and thermally induced phase separation (TIPS) …”

Section: Construction Of Porous Structuresmentioning

confidence: 99%

Versatile Landscape of Low-k Polyimide: Theories, Synthesis, Synergistic Properties, and Industrial Integration

Dong,

Wan,

Zha

2024

Chem. Rev.

View full text Add to dashboard Cite

The development of microelectronics and large-scale intelligence nowadays promotes the integration, miniaturization, and multifunctionality of electronic and devices but also leads to the increment of signal transmission delays, crosstalk, and energy consumption. The exploitation of materials with low permittivity (low-k) is crucial for realizing innovations in microelectronics. However, due to the high permittivity of conventional interlayer dielectric material (k ∼ 4.0), it is difficult to meet the demands of current microelectronic technology development (k < 3.0). Organic dielectric materials have attracted much attention because of their relatively low permittivity owing to their low material density and low single bond polarization. Polyimide (PI) exhibits better application potential based on its well permittivity tunability (k = 1.1−3.2), high thermal stability (>500 °C), and mechanical property (modulus of elasticity up to 3.0−4.0 GPa). In this review, based on the synergistic relationship of dielectric parameters of materials, the development of nearly 20 years on low-k PI is thoroughly summarized. Moreover, process strategies for modifying low-k PI at the molecular level, multiphase recombination, and interface engineering are discussed exhaustively. The industrial application, technological challenges, and future development of low-k PI are also analyzed, which will provide meaningful guidance for the design and practical application of multifunctional low-k materials.

show abstract

“…Up to now, various polymers including modified polyimide (mPI) and liquid crystal polymer (LCP) have been widely studied as polymeric substrates and dielectric layers for FCCL. − Despite significant progress being made on this front, achieving the aforementioned prerequisite properties still remains a major challenge. In detail, mPI, which has been widely used as electrical insulation layers, has high D f at high-frequency regimes and water uptake, limiting its usage in high-frequency applications. − While LCP demonstrates the potential for exceptional dielectric properties for FCCL in high-frequency regimes and reduced water absorption, the LCP film produced using traditional processing methods inherently showed anisotropic mechanical properties . Furthermore, the cost efficiency of LCP presents a hindrance to their widespread application. − Given these, developing new dielectric polymeric layers presenting low D k , low D f , thermal/mechanical stability, and low water uptake is an interesting issue.…”

Section: Introductionmentioning

confidence: 99%

Graft Architectured Poly(phenylene oxide)-Based Flexible Films with Superior Dielectric Properties for High-Frequency Communication Above 100 GHz

Kim,

Park,

Yoo

et al. 2024

ACS Appl. Polym. Mater.

View full text Add to dashboard Cite

The surge of fifth-generation communication has intensified the demand for advanced dielectric layers in flexible copper-clad laminates (FCCL). These layers must ensure a low dielectric constant (D k) and dielectric loss (D f) at high frequencies while meeting essential criteria, including thermal and chemical stability, flexibility, and low water uptake to achieve signal transmission efficiency and FCCL reliability. Herein, we have developed flexible dielectric layers based on poly(phenylene oxide)-g-poly(butadiene) (PPO-g-PB) that exhibit low D k and Df values at high-frequency regimes. Two PPO-g-PB samples with different PB graft densities were synthesized to explore the effect of PB side chains on the thermophysical properties of the resulting PPO-g-PB film. The as-synthesized PPO-g-PB demonstrated excellent film-forming ability, allowing for straightforward fabrication through a simple casting process followed by thermal curing. To determine the potential of these dielectric polymers in high-frequency communication applications, dielectric properties of thermally cured PPO-g-PB (TC-PPO-g-PB) were investigated at high-frequency regimes (from 10 to 110 GHz). Furthermore, we also monitored the water uptake behavior and changes in dielectric properties during an 85 °C and 85% relative humidity reliability test to demonstrate the practical application of these dielectric polymers as advanced dielectric materials.

show abstract

Temperature-Invariant Large Broadband Polyimide Dielectrics with Multimodal Porous Networks

Cited by 8 publications

References 49 publications

Frequency-Dependent Dielectric Permittivity and Water Permeability in Ordered Mesoporous Silica-Grafted Fluorinated Polyimides

Frequency-Dependent Dielectric Permittivity and Water Permeability in Ordered Mesoporous Silica-Grafted Fluorinated Polyimides

Versatile Landscape of Low-k Polyimide: Theories, Synthesis, Synergistic Properties, and Industrial Integration

Graft Architectured Poly(phenylene oxide)-Based Flexible Films with Superior Dielectric Properties for High-Frequency Communication Above 100 GHz

Contact Info

Product

Resources

About