Resonac to expand production capacity for semiconductor materials – Chemical Engineering
| By Mary Bailey
Resonac Corp. (Tokyo) has decided to increase its capacity to produce materials for high-performance semiconductor chips, which are to be used mainly as CPUs for artificial intelligence (AI), to 3.5 to 5 times of the current level. Resonac will increase production of non-conductive film (NCF) and thermal conductive sheet (thermal interface material: TIM) both of which have already been adopted by Resonac’s customers for use in high-performance semiconductor chips. Resonac plans to invest 15 billion yen in facilities to produce these materials and will commence operation of the expanded facilities in and after 2024 step-by-step. Scale of the market for AI chips in 2027 is expected to expand to 2.7 times of that in 2022. Resonac will increase its capacities to produce NCF and TIM in a timely manner, thereby strengthening the company’s predominance over other competitive companies in the market.
NCF is utilized for connecting and stacking multilayers of high bandwidth memories (HBM*2), which is installed into high-performance semiconductor chips. NCF is required to have adhesive strength, realize reliable connection of devices, and have precise thickness with tolerance less than microns. Resonac has been producing NCF satisfying quality requirements by making the most of the company’s technologies and experience piled up over many years of development and production of die-bonding film, which is a predecessor of NCF.
TIM is utilized for expediting heat radiation from high-performance semiconductor chips. TIM is required to have high thermal conductivity to expedite heat radiation from chips generating heat, reliability to endure repeated changes in temperature, and flexibility to adhere closely to fine asperities of chips and radiators*3. Resonac has been producing TIM satisfying performance requirements by utilizing the company’s original technology to add graphite particles to flexible sheet materials with special placement*4.
Recently, it is said that evolution of high-performance semiconductor chips in the front-end process of semiconductor manufacturing is reaching the limits of improvement in technologies and cost performance in the front-end process. Therefore, in recent years, 2.xD and 3D semiconductor packaging technologies*5 are becoming key technologies in manufacturing of semiconductor chips. In addition, utilization of 2.xD and 3D semiconductor packaging technologies is enabling semiconductor manufacturers to realize high-density mounting of semiconductor chips in the back-end process of semiconductor manufacturing and improve performance of chips.
Resonac has been promoting R&D on next generation semiconductor packaging materials by utilizing Packaging Solution Center (PSC)*6 and JOINT2*6 consortium. Resonac will continue supporting evolution of high-performance semiconductor chips by promoting co-creation with semiconductor related companies inside and outside Japan and developing leading-edge materials.