Smart Industrial Platform
Semiconductor Manufacturing Industry Solutions
Technological advancements in 5G, augmented reality, IoT, and autonomous vehicles are fueling unprecedented demand for smaller, more functional devices with expanded memory and speed capacities. Semiconductors play a pivotal role in fulfilling these new-age requirements, and it is incumbent upon manufacturers to pioneer solutions. This is where Smartmore comes in. From fabrication and advanced packaging to component packaging and manufacturing equipment maintenance, our objective is to enhance product performance, process efficiency and yield so you can confidently step into the future.
Leveraging decades of science-based expertise across a spectrum of semiconductor manufacturing materials and equipment solutions, Smartmore’s innovations are employed in etching and deposition, CMP and wafer processing surface-finishing, advanced packaging materials, chip transportation tape and reel, alongside materials for wafer doping and ion implantation. For equipment support, we have engineered proprietary fluid technologies for cleaning and thermal regulation.
We aspire for our innovations to assist you in shaping the semiconductor industry's future. Smartmore’s material specialists are here to utilize extensive R&D to address your needs and deliver solutions through our global manufacturing capabilities. With access to over 50 technology platforms, no challenge is too complex. We are ready to help.
Equipment, Manufacturing And Packaging Solutions
Here at Smartmore, we can help you navigate material challenges intrinsic to semiconductor manufacturing processes, equipment, and handling.
Drive productivity, reduce ownership costs, and refine yields in current and next-gen CMP semiconductor fabrication processes with Smartmore’s CMP pads and pad conditioners.
Advanced Packaging Procedures
Solutions for cutting-edge IC packaging enable the latest wafer- and panel-level packaging processes and protect vital components during intense high-temperature processing techniques.
Shipping and storage can damage fragile components. Smartmore’s high-precision tape and reel semiconductor solutions can prevent harm and elevate productivity.
Benefits of Working with Smartmore
Intelligent Robotics with Omnidirectional Awareness And Precision
Smartmore's advanced robotics leverage semiconductors to enable multifaceted environmental perception and motion control, improving processing security. The robots use semiconductor processors to gather environmental data through image capture, infrared detection, audio detection, temperature measurement, humidity monitoring, motion tracking, and positioning. The multifaceted sensory fusion enhances intelligent robots' capabilities for autonomous obstacle avoidance and precise localization. Semiconductor processors also reinforce security against intrusions and internal data transfers. With 360-degree sensory coverage and real-time adaptive motion planning, Smartmore's semiconductor-powered robotics achieve reliable autonomous operation in complex settings.
Purifying Solutions for Semiconductor Manufacturing
Smartmore provides leading semiconductor manufacturing solutions, including process fume exhaust ducts, high-purity gas, and chemical blending/distribution systems to ensure a purified production environment. Its patented PSP-coated stainless steel process exhaust duct system utilizes anti-corrosive and anti-kinking coatings for smooth gas emissions. Smartmore also offers air curtains, dehumidifiers, wafer-cutting exhaust systems, gas scrubbers, and fume hoods to purify the workshop comprehensively. This integrated solution guarantees filtration and removal of particulate pollutants, differentiating Smartmore with advantages in clean production for semiconductor manufacturing.
Tailored Process Equipment for Pioneering Semiconductor Manufacturing
Smartmore offers customized process chamber systems catered to major semiconductor and microchip manufacturers' advanced production needs. Drawing from decades of experience serving cutting-edge sectors, Smartmore provides tailored equipment, including
- Plasma treatment systems leveraging industrial-grade technologies for surface activation and cleaning.
- Photolithography and chemical etching systems enable precision patterning and material removal.
- Laser etching and ion beam deposition systems for ultra-fine surface modification.
- Industrial plasma treatment solutions allow large-area, high-volume processing.
Smartmore empowers semiconductor leaders to push boundaries in next-generation technologies with process-specific chambers optimized for clients' requirements. Our bespoke systems integrate with clients' sophisticated manufacturing workflows for maximum compatibility and performance.
People May Ask
Simply said, semiconductor devices are a class of electronic parts created, developed, and produced using semiconductor materials like silicon (Si), germanium (Ge), and gallium arsenide (GaAs).
The reason a material is called a semiconductor is because it has an electrical resistance that is between the resistance typical of insulators and metals, or that "semi"-conducts electricity in a way.
Negatively charged electron imbalance is what causes semiconductors to function. At two ends of surfaces of the semiconductor material, this imbalance of electrons generates positive charges (where there are surplus protons) and negative charges (where there are excess electrons). In this way, semiconductors function.
In addition to consumer devices, semiconductors are essential to the operation of trains, bank ATMs, the internet, communications, and other facets of the social infrastructure, including, among other things, the medical network utilized for aged care.
A light-sensitive metal oxide semiconductor (MOS) capacitor, which consists of a silicon dioxide insulating film, a silicon substrate, and a metal electrode (or gate), is at the core of all charge-coupled devices (CCDs).
Four of the 14 electrons surrounding the silicon atom's nucleus, or valence electrons, are located on the outermost orbital. This is a substance that can be used to make single crystals that are utilized to make semiconductor products. The nuclei bond with eight more electrons around each other as it crystallizes because they share electrons.
a method used in semiconductor production that seeks to eliminate flaws from the silicon wafer's surrounding area, either by removing them entirely or shifting them to areas where they won't affect the functionality of the devices.
Certain substances are employed in the production of semiconductors. The primary electric chemicals include trichloroethylene, acetone, isopropanol, and other alcohols like denatured ethanol because they can aid enhance semiconductor performance.Aug. 20, 2021
Semiconductors can be pure elements like germanium or silicon or compounds like gallium arsenide. The ideas, characteristics, and mathematical strategy governing semiconductors are explained by physics. Semiconductors include, for example: Silicon, germanium, and gallium arsenide are three of the most popular semiconductors.
Any member of the family of crystalline solids known as a semiconductor falls into the range of conductors and insulators in terms of electrical conductivity. Diodes, transistors, and integrated circuits are just a few of the electrical devices that use semiconductors in their production.
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