Market Trends of Global Substrate Industry
In FHR Market, Industrial to Account for a Significant Share in the Market
- Also, FHE-enabled soft robots have found applications in the Industry 4.0 era. Robotic exoskeletons designed to give mobility back to those who have lost it and assist with moving and lifting objects (e.g., crates, cartons, and boxes) to reduce workplace injury are early soft robotic applications.
- One of the most critical uses for FHE is in communication, as wireless technology is essential for data transmission and system control (IoT). The term "Internet of Things" (IoT) refers to an emerging idea that encompasses a futuristic perspective on everyday life. It connects a vast array of intelligent devices (embedded with sensors and information transmitters) to enable machine-to-machine communication, which necessitates frequent data exchange and updates to the cloud without human intervention, allowing successful innovation in areas like smart homes, smart healthcare, smart cities, industry, and transportation systems.
- Another application area for FHE is precision agriculture in the environmental landscape. Researchers printed a flexible strain sensor directly on the fruits using chitosan-based ink. These sensors provided good adhesion to the fruit and identified mechanical injuries. A graphene-on-tape adjustable sensor can measure water flow through plants. The sensor is developed by dropping a graphene film on a pre-patterned polydimethylsiloxane (PDMS) surface and then transferring the patterned graphene surface onto a target tape.
- Another research area is developing a flexible and stretchable device with multiple sensing capabilities for plant health monitoring. Further, the reported plant wearable is designed by integrating temperature, humidity, and strain sensors. The strain sensors were developed by depositing a thin gold metal film on the PDMS substrate. The temperature and humidity sensors were fabricated on the same flexible PI/PDMS platform.
- A multifunctional agricultural monitoring sensor is being developed to measure strain, impedance, temperature, and light intensity. The sensor is fabricated by combining CMOS, printable electronics, and transfer printing techniques, leading to hydration, temperature, strain, and light illuminance sensing capabilities on leaves. Unlike other reported sensors, these stretchable sensors can grow with the leaves, making them compatible with long-term monitoring.
Surge in Demand for Smart Consumer Electronics and Wearable Devices ​is Expected to Drive the SLP Market
- Consumer electronics mostly include smartphones, smart bands, fitness devices, and wearables. Increasing demand for consumer electronics is expected to provide prospects for players in the SLP market. Due to the increasing power consumption in consumer electronics applications, batteries need to get bigger, while boards need to get smaller.
- Smartphones would not exist without the compact, thin IC packaging substrates Compact, thin IC packaging substrates enable multiple electronic devices to function, as does the multilayer, thin PCB that connects all the devices. The advancement of smartphone functions and battery capacity requires higher densities and smaller, lighter motherboards. According to IBIDEN, it has achieved a micro-wiring technology employing the Modified Semi-Adaptive Process (MSAP) and a technique using the filled-via stack-up structure they have been offering in conventional full-via stacked structures (FVSS).
- According to Yoon, fan-out wafer-level packaging is for high-end application processors going into premium products, the flagship smartphone models for handset vendors. SLP is meant for the motherboard of phones, reducing the space needed for such assemblies. Ball grid arrays or flip-chip packages are typically used for fine-pitch slots in a phone.
- Flexible electronics typically consist of electrical circuits installed on a flexible plastic substrate, such as polyester or polyether ether ketone (PEEK). For the electrical contact to remain intact even after numerous flexing cycles, the conductive traces must either be made of a flexible metal with high fatigue strength or conductive polyester. The ideal material for the job is often a polymer.
- Flexible electronics will actively participate in this expanding industry with fitness trackers, smartwatches, and tiny, real-time medical monitoring devices. Since every human body is slightly distinct in shape, flexible electronics are especially well adapted to this environment. Instead of being compelled to wear equipment too tightly to ensure contact, sensors may now conform to the skin's natural curves thanks to flexible electronics. Medical applications have been the focus of recent research in flexible electronics. Blood pressure monitors, oxygen monitors, glucose meters, and even blood-alcohol meters are being created in addition to step counters and calorie counters.
- Efficient, flexible solar panels might become a reality as technology progresses exponentially. Flexible solar panels can be installed on surfaces other than roof-mounted racks, such as telephone poles, well casings, fence posts, and other similar structures.
- Furthermore, Zhen Ding Technology, reportedly among the suppliers of Apple, has discussed its vision of SLP demand for smartphones, wearables, and other mobile devices requiring an ultra-thin and lightweight profile. The use of SLP enables compact design without sacrificing computing performance. Zhen Ding plans to build additional SLP production lines at its factory site in China.