List of Semiconductor Manufacturing Equipment products
- classification:Semiconductor Manufacturing Equipment
901~945 item / All 4990 items
Reduce the workload from handling heavy objects! Here are five case studies that solved customer challenges! We are also accepting free consultations and tests tailored to your work!
- Other conveying machines
A belt grinding machine that has been in use for about 50 years since 1973. In addition to trust and proven results, the lineup is also extensive.
- Other machine tools
Belt grinding machine "Veda Machine" has high durability and a wide range of service parts.
The "Bader Machine" is our belt grinder that boasts excellent polishing performance for each individual unit. By selecting models and types according to the shape and size of the workpiece, and by equipping it with a polishing belt suitable for the task, it can flexibly accommodate a wide variety of items across various fields. Please make extensive use of it for high-efficiency polishing and grinding, reduction of work time, labor-saving, and standardization of tasks. 【Lineup】 ■ Portable type BP-K (air motor type) ■ Made-to-order machine PC-1 (wheel centerless), BC (standard dust cover) ■ Installed type BM (basic type), SBA-1, BH-2 ■ Wheel type SBD-4S, SBD-7, BWd *For more details, please download the PDF or contact us.
A semi-custom-made thin film experimental device that can be assembled with the desired configuration for processes such as sputtering, EB (electron beam), and annealing.
- Evaporation Equipment
- Sputtering Equipment
- Annealing furnace
☆★☆ Spatter and Vapor Deposition Source Combined Film Formation Device 【nanoPVD-ST15A】 ☆★☆
Sputter Cathode and Co-evaporation Source Mixed Thin Film Experimental Device. Metal deposition, organic deposition, and sputter cathode are installed in a compact frame. A resistance heating evaporation source (for metal deposition), an organic evaporation source (for organic materials), and magnetron sputtering (for metals and insulating materials) are installed in the chamber, allowing for various thin film experimental setups within a single chamber. ◉ Three combinations available: 1. Sputter Cathode + Resistance Heating Evaporation Source x2 2. Sputter Cathode + Organic Evaporation Source x2 3. Sputter Cathode + Resistance Heating Source x1 + Organic Evaporation Source x1 (*DC sputtering only) 【Specifications】 ◉ Compatible substrates: up to Φ4 inches ◉ Sputtering: 2" cathode x up to 3 sources ◉ Vacuum deposition: Resistance heating evaporation (up to 2), organic evaporation (up to 4) ◉ 7" touch panel operation with PLC automatic process control ◉ APC automatic pressure control ◉ 1 line of Ar gas (standard) + expandable with N2, O2 ◉ Connects to a Windows PC via USB for recipe creation and storage. Data logging on PC ◉ Various other options available ◉ Easy operation with a 7" touch panel and PLC automatic process control
A semi-custom-made thin film experimental device that can be assembled with the desired configuration for processes such as evaporation, sputtering, electron beam (EB) deposition, and annealing.
- Evaporation Equipment
- Sputtering Equipment
- Etching Equipment
◇◆◇ nanoPVD-S10A Magnetron Sputtering Device ◇◆◇
This is a research and development RF/DC magnetron sputtering device. Despite its high performance and multifunctionality, it fits into limited laboratory space with a compact size and easy operation via a 7-inch front touch panel. ● Achievable pressure: 5x10^-5 Pa (*fastest 30 minutes to 1x10^-4 Pa!) ● Film uniformity: ±3% ● Various options: up/down rotation, heater, cathode for magnetic materials, and more ● 3-source cathode + 3 MFC systems, with additional RF/DC power supply, allowing for versatile applications such as multilayer films and simultaneous deposition. - Insulating films - Conductive films - Compounds, etc. 【Main Features】 ◉ Compatible substrates: 2" (up to 3 sources) or 1" (1 source) ◉ 2" cathode x up to 3 sources ◉ Easy operation via touch panel with PLC automatic program control ◉ High-precision APC process control with MFC ◉ Up to 3 MFC systems ◉ USB port for Windows PC connection, capable of creating and saving recipes for up to 1000 layers and 50 films. Live data logging on PC. ◉ Vacuum system: TMP + RP (*dry pump option) ◉ Substrate rotation, vertical lift, and heating (Max 500℃) ◉ Quartz crystal film thickness monitor/controller
Compact and space-saving! Ideal for research and development, flexible configuration for purposes such as deposition, sputtering, and annealing.
- Evaporation Equipment
- Sputtering Equipment
- Annealing furnace
☆★☆ Spatter and Vapor Deposition Source Combined Film Formation Device 【nanoPVD-ST15A】 ☆★☆
Sputter Cathode and Co-evaporation Source Mixed Thin Film Experimental Device. Metal deposition, organic deposition, and sputter cathode are installed in a compact frame. A resistance heating evaporation source (for metal deposition), an organic evaporation source (for organic materials), and magnetron sputtering (for metals and insulating materials) are installed in the chamber, allowing for various thin film experimental setups within a single chamber. ◉ Three combinations available: 1. Sputter Cathode + Resistance Heating Evaporation Source x2 2. Sputter Cathode + Organic Evaporation Source x2 3. Sputter Cathode + Resistance Heating Source x1 + Organic Evaporation Source x1 (*DC sputtering only) 【Specifications】 ◉ Compatible substrates: up to Φ4 inches ◉ Sputtering: 2" cathode x up to 3 sources ◉ Vacuum deposition: Resistance heating evaporation (up to 2), organic evaporation (up to 4) ◉ 7" touch panel operation with PLC automatic process control ◉ APC automatic pressure control ◉ 1 line of Ar gas (standard) + expandable with N2, O2 ◉ Connects to a Windows PC via USB for recipe creation and storage. Data logging on PC ◉ Various other options available ◉ Easy operation with a 7" touch panel and PLC automatic process control
Compact and space-saving! Ideal for research and development. Flexible configuration for purposes such as deposition, sputtering, and annealing.
- Evaporation Equipment
- Sputtering Equipment
- Annealing furnace
◇◆◇ nanoPVD-S10A Magnetron Sputtering Device ◇◆◇
This is a research and development RF/DC magnetron sputtering device. Despite its high performance and multifunctionality, it fits into limited laboratory space with a compact size and easy operation via a 7-inch front touch panel. ● Achievable pressure: 5x10^-5 Pa (*fastest 30 minutes to 1x10^-4 Pa!) ● Film uniformity: ±3% ● Various options: up/down rotation, heater, cathode for magnetic materials, and more ● 3-source cathode + 3 MFC systems, with additional RF/DC power supply, allowing for versatile applications such as multilayer films and simultaneous deposition. - Insulating films - Conductive films - Compounds, etc. 【Main Features】 ◉ Compatible substrates: 2" (up to 3 sources) or 1" (1 source) ◉ 2" cathode x up to 3 sources ◉ Easy operation via touch panel with PLC automatic program control ◉ High-precision APC process control with MFC ◉ Up to 3 MFC systems ◉ USB port for Windows PC connection, capable of creating and saving recipes for up to 1000 layers and 50 films. Live data logging on PC. ◉ Vacuum system: TMP + RP (*dry pump option) ◉ Substrate rotation, vertical lift, and heating (Max 500℃) ◉ Quartz crystal film thickness monitor/controller
Compact and space-saving! Ideal for research and development. Flexible configuration for purposes such as deposition, sputtering, and annealing.
- Evaporation Equipment
- Sputtering Equipment
- Etching Equipment
☆★☆ Spatter and Vapor Deposition Source Combined Film Formation Device 【nanoPVD-ST15A】 ☆★☆
Sputter Cathode and Co-evaporation Source Mixed Thin Film Experimental Device. Metal deposition, organic deposition, and sputter cathode are installed in a compact frame. A resistance heating evaporation source (for metal deposition), an organic evaporation source (for organic materials), and magnetron sputtering (for metals and insulating materials) are installed in the chamber, allowing for various thin film experimental setups within a single chamber. ◉ Three combinations available: 1. Sputter Cathode + Resistance Heating Evaporation Source x2 2. Sputter Cathode + Organic Evaporation Source x2 3. Sputter Cathode + Resistance Heating Source x1 + Organic Evaporation Source x1 (*DC sputtering only) 【Specifications】 ◉ Compatible substrates: up to Φ4 inches ◉ Sputtering: 2" cathode x up to 3 sources ◉ Vacuum deposition: Resistance heating evaporation (up to 2), organic evaporation (up to 4) ◉ 7" touch panel operation with PLC automatic process control ◉ APC automatic pressure control ◉ 1 line of Ar gas (standard) + expandable with N2, O2 ◉ Connects to a Windows PC via USB for recipe creation and storage. Data logging on PC ◉ Various other options available ◉ Easy operation with a 7" touch panel and PLC automatic process control
Due to its modular embedded design, it is possible to flexibly assemble dedicated machines according to the required film formation methods. A compact thin-film experimental device that can accommodat...
- Sputtering Equipment
- Evaporation Equipment
- Annealing furnace
☆★☆ Spatter and Vapor Deposition Source Combined Film Formation Device 【nanoPVD-ST15A】 ☆★☆
Sputter Cathode and Co-evaporation Source Mixed Thin Film Experimental Device. Metal deposition, organic deposition, and sputter cathode are installed in a compact frame. A resistance heating evaporation source (for metal deposition), an organic evaporation source (for organic materials), and magnetron sputtering (for metals and insulating materials) are installed in the chamber, allowing for various thin film experimental setups within a single chamber. ◉ Three combinations available: 1. Sputter Cathode + Resistance Heating Evaporation Source x2 2. Sputter Cathode + Organic Evaporation Source x2 3. Sputter Cathode + Resistance Heating Source x1 + Organic Evaporation Source x1 (*DC sputtering only) 【Specifications】 ◉ Compatible substrates: up to Φ4 inches ◉ Sputtering: 2" cathode x up to 3 sources ◉ Vacuum deposition: Resistance heating evaporation (up to 2), organic evaporation (up to 4) ◉ 7" touch panel operation with PLC automatic process control ◉ APC automatic pressure control ◉ 1 line of Ar gas (standard) + expandable with N2, O2 ◉ Connects to a Windows PC via USB for recipe creation and storage. Data logging on PC ◉ Various other options available ◉ Easy operation with a 7" touch panel and PLC automatic process control
Storage-compatible glove box PVD flexible thin film experimental device, featuring a tall chamber with a height of 570mm, contributes to improved uniformity during deposition.
- Evaporation Equipment
- Sputtering Equipment
- Etching Equipment
◇◆◇ nanoPVD-S10A Magnetron Sputtering Device ◇◆◇
This is a research and development RF/DC magnetron sputtering device. Despite its high performance and multifunctionality, it fits into limited laboratory space with a compact size and easy operation via a 7-inch front touch panel. ● Achievable pressure: 5x10^-5 Pa (*fastest 30 minutes to 1x10^-4 Pa!) ● Film uniformity: ±3% ● Various options: up/down rotation, heater, cathode for magnetic materials, and more ● 3-source cathode + 3 MFC systems, with additional RF/DC power supply, allowing for versatile applications such as multilayer films and simultaneous deposition. - Insulating films - Conductive films - Compounds, etc. 【Main Features】 ◉ Compatible substrates: 2" (up to 3 sources) or 1" (1 source) ◉ 2" cathode x up to 3 sources ◉ Easy operation via touch panel with PLC automatic program control ◉ High-precision APC process control with MFC ◉ Up to 3 MFC systems ◉ USB port for Windows PC connection, capable of creating and saving recipes for up to 1000 layers and 50 films. Live data logging on PC. ◉ Vacuum system: TMP + RP (*dry pump option) ◉ Substrate rotation, vertical lift, and heating (Max 500℃) ◉ Quartz crystal film thickness monitor/controller
Max 1000℃, maximum 3 systems for MFC, APC pressure control, compatible with 4" or 6" substrates, high vacuum annealing equipment (<5 × 10^-7 mbar)
- Annealing furnace
◇◆◇ nanoPVD-S10A Magnetron Sputtering Device ◇◆◇
This is a research and development RF/DC magnetron sputtering device. Despite its high performance and multifunctionality, it fits into limited laboratory space with a compact size and easy operation via a 7-inch front touch panel. ● Achievable pressure: 5x10^-5 Pa (*fastest 30 minutes to 1x10^-4 Pa!) ● Film uniformity: ±3% ● Various options: up/down rotation, heater, cathode for magnetic materials, and more ● 3-source cathode + 3 MFC systems, with additional RF/DC power supply, allowing for versatile applications such as multilayer films and simultaneous deposition. - Insulating films - Conductive films - Compounds, etc. 【Main Features】 ◉ Compatible substrates: 2" (up to 3 sources) or 1" (1 source) ◉ 2" cathode x up to 3 sources ◉ Easy operation via touch panel with PLC automatic program control ◉ High-precision APC process control with MFC ◉ Up to 3 MFC systems ◉ USB port for Windows PC connection, capable of creating and saving recipes for up to 1000 layers and 50 films. Live data logging on PC. ◉ Vacuum system: TMP + RP (*dry pump option) ◉ Substrate rotation, vertical lift, and heating (Max 500℃) ◉ Quartz crystal film thickness monitor/controller
Flexible configuration available upon request for processes such as evaporation, sputtering, and EB. Adopts a tall chamber with a height of 570mm, contributing to improved uniformity during evaporatio...
- Evaporation Equipment
◇◆◇ nanoPVD-S10A Magnetron Sputtering Device ◇◆◇
This is a research and development RF/DC magnetron sputtering device. Despite its high performance and multifunctionality, it fits into limited laboratory space with a compact size and easy operation via a 7-inch front touch panel. ● Achievable pressure: 5x10^-5 Pa (*fastest 30 minutes to 1x10^-4 Pa!) ● Film uniformity: ±3% ● Various options: up/down rotation, heater, cathode for magnetic materials, and more ● 3-source cathode + 3 MFC systems, with additional RF/DC power supply, allowing for versatile applications such as multilayer films and simultaneous deposition. - Insulating films - Conductive films - Compounds, etc. 【Main Features】 ◉ Compatible substrates: 2" (up to 3 sources) or 1" (1 source) ◉ 2" cathode x up to 3 sources ◉ Easy operation via touch panel with PLC automatic program control ◉ High-precision APC process control with MFC ◉ Up to 3 MFC systems ◉ USB port for Windows PC connection, capable of creating and saving recipes for up to 1000 layers and 50 films. Live data logging on PC. ◉ Vacuum system: TMP + RP (*dry pump option) ◉ Substrate rotation, vertical lift, and heating (Max 500℃) ◉ Quartz crystal film thickness monitor/controller
We have incorporated all the latest vacuum deposition technology into a compact benchtop-sized device that can effectively utilize limited lab space.
- Evaporation Equipment
◇◆◇ nanoPVD-S10A Magnetron Sputtering Device ◇◆◇
This is a research and development RF/DC magnetron sputtering device. Despite its high performance and multifunctionality, it fits into limited laboratory space with a compact size and easy operation via a 7-inch front touch panel. ● Achievable pressure: 5x10^-5 Pa (*fastest 30 minutes to 1x10^-4 Pa!) ● Film uniformity: ±3% ● Various options: up/down rotation, heater, cathode for magnetic materials, and more ● 3-source cathode + 3 MFC systems, with additional RF/DC power supply, allowing for versatile applications such as multilayer films and simultaneous deposition. - Insulating films - Conductive films - Compounds, etc. 【Main Features】 ◉ Compatible substrates: 2" (up to 3 sources) or 1" (1 source) ◉ 2" cathode x up to 3 sources ◉ Easy operation via touch panel with PLC automatic program control ◉ High-precision APC process control with MFC ◉ Up to 3 MFC systems ◉ USB port for Windows PC connection, capable of creating and saving recipes for up to 1000 layers and 50 films. Live data logging on PC. ◉ Vacuum system: TMP + RP (*dry pump option) ◉ Substrate rotation, vertical lift, and heating (Max 500℃) ◉ Quartz crystal film thickness monitor/controller
Due to its modular embedded design, it is possible to flexibly assemble dedicated equipment according to the required film deposition method. A compact thin-film experimental device that can accommoda...
- Sputtering Equipment
- Evaporation Equipment
- Etching Equipment
☆★☆【nanoETCH】Soft Etching Device☆★☆
<30W Low Power Control for Damage-Free Etching Achieves delicate etching processes with an output control precision of 10mW. A jointly developed product with the graphene research group at the University of Manchester, led by Nobel Prize winners who discovered graphene in 2010. 【Features】 • 2D (Transition Metal Chalcogenides, graphene delamination after material transfer): Surface modification cleaning • Removal of polymer resists such as PMMA and PPA • Surface modification and etching on substrates prone to damage, such as Teflon substrates • h-BN sidewall etching (*Option for "Fluorine Gas Supply Module," requires SF6 gas system) • SiO2 etching (*Option for "Fluorine Gas Supply Module," requires CHF3 gas system) 【Specifications】 ◉ Compatible substrates: Up to Φ6 inches ◉ Easy operation with a 7" touch panel and PLC automatic sequencing ◉ Automatic pressure control (APC) ◉ One Ar gas line (standard) + up to three additional lines for N2 and O2 ◉ Connects to a Windows PC with a USB port for automatic etching recipe creation and storage. Data logging on PC.
High-performance multi-sputtering device 6-element multi-sputter (for Φ4 inch) 4-element multi-sputter (for Φ6, 8 inch)
- Sputtering Equipment
- Evaporation Equipment
- Etching Equipment
◇◆◇ nanoPVD-S10A Magnetron Sputtering Device ◇◆◇
This is a research and development RF/DC magnetron sputtering device. Despite its high performance and multifunctionality, it fits into limited laboratory space with a compact size and easy operation via a 7-inch front touch panel. ● Achievable pressure: 5x10^-5 Pa (*fastest 30 minutes to 1x10^-4 Pa!) ● Film uniformity: ±3% ● Various options: up/down rotation, heater, cathode for magnetic materials, and more ● 3-source cathode + 3 MFC systems, with additional RF/DC power supply, allowing for versatile applications such as multilayer films and simultaneous deposition. - Insulating films - Conductive films - Compounds, etc. 【Main Features】 ◉ Compatible substrates: 2" (up to 3 sources) or 1" (1 source) ◉ 2" cathode x up to 3 sources ◉ Easy operation via touch panel with PLC automatic program control ◉ High-precision APC process control with MFC ◉ Up to 3 MFC systems ◉ USB port for Windows PC connection, capable of creating and saving recipes for up to 1000 layers and 50 films. Live data logging on PC. ◉ Vacuum system: TMP + RP (*dry pump option) ◉ Substrate rotation, vertical lift, and heating (Max 500℃) ◉ Quartz crystal film thickness monitor/controller
Plasma CVD equipment compatible with wafer sizes of Φ3 inch and Φ4 inch. Rapid synthesis of clean, high-quality graphene while suppressing impurities.
- CVD Equipment
◇◆◇ nanoPVD-S10A Magnetron Sputtering Device ◇◆◇
This is a research and development RF/DC magnetron sputtering device. Despite its high performance and multifunctionality, it fits into limited laboratory space with a compact size and easy operation via a 7-inch front touch panel. ● Achievable pressure: 5x10^-5 Pa (*fastest 30 minutes to 1x10^-4 Pa!) ● Film uniformity: ±3% ● Various options: up/down rotation, heater, cathode for magnetic materials, and more ● 3-source cathode + 3 MFC systems, with additional RF/DC power supply, allowing for versatile applications such as multilayer films and simultaneous deposition. - Insulating films - Conductive films - Compounds, etc. 【Main Features】 ◉ Compatible substrates: 2" (up to 3 sources) or 1" (1 source) ◉ 2" cathode x up to 3 sources ◉ Easy operation via touch panel with PLC automatic program control ◉ High-precision APC process control with MFC ◉ Up to 3 MFC systems ◉ USB port for Windows PC connection, capable of creating and saving recipes for up to 1000 layers and 50 films. Live data logging on PC. ◉ Vacuum system: TMP + RP (*dry pump option) ◉ Substrate rotation, vertical lift, and heating (Max 500℃) ◉ Quartz crystal film thickness monitor/controller
High-performance multi-sputtering device 6-element multi-sputter (for Φ4 inch) 4-element multi-sputter (for Φ6, 8 inch)
- Sputtering Equipment
- Evaporation Equipment
- Etching Equipment
Wafer Annealing Equipment [ANNEAL] Max 1000℃ APC Automatic Pressure Control MFC x3 System Compatible with Φ4 to 6 inch Substrates
Max 1000℃, MFC up to 3 systems, APC pressure control, compatible with substrates from 4" to a maximum of 6", high vacuum annealing device (<5 × 10-7 mbar) [ANNEAL] is a research and development annealing device capable of high-temperature heat treatment of substrates such as wafers in a stable process atmosphere. It allows high-temperature processing up to 1000℃ using a heating stage installed in a high vacuum water-cooled SUS chamber. A heat shield is installed inside the chamber to ensure safety through interlock. The mass flow controller can be expanded to a maximum of 3 systems, enabling firing operations with precisely adjusted process gas pressure (APC automatic process control system option). Additionally, there are many options available, including a front view port, dry scroll pump, special substrate holder, and additional thermocouples. The heating stage inside the chamber has three variations depending on the process gas atmosphere and treatment temperature: - Halogen lamp heater: Max 500℃ - C/C composite heater: Max 1000℃ (in vacuum, inert gas only) - SiC coating heater: Max 1000℃ (vacuum, inert gas, O2)
Compact multi-film device that incorporates sputtering, deposition, EB, and annealing thin film modules in a 60L volume chamber, suitable for various applications.
- Sputtering Equipment
- Evaporation Equipment
- CVD Equipment
Wafer Annealing Equipment [ANNEAL] Max 1000℃ APC Automatic Pressure Control MFC x3 System Compatible with Φ4 to 6 inch Substrates
Max 1000℃, MFC up to 3 systems, APC pressure control, compatible with substrates from 4" to a maximum of 6", high vacuum annealing device (<5 × 10-7 mbar) [ANNEAL] is a research and development annealing device capable of high-temperature heat treatment of substrates such as wafers in a stable process atmosphere. It allows high-temperature processing up to 1000℃ using a heating stage installed in a high vacuum water-cooled SUS chamber. A heat shield is installed inside the chamber to ensure safety through interlock. The mass flow controller can be expanded to a maximum of 3 systems, enabling firing operations with precisely adjusted process gas pressure (APC automatic process control system option). Additionally, there are many options available, including a front view port, dry scroll pump, special substrate holder, and additional thermocouples. The heating stage inside the chamber has three variations depending on the process gas atmosphere and treatment temperature: - Halogen lamp heater: Max 500℃ - C/C composite heater: Max 1000℃ (in vacuum, inert gas only) - SiC coating heater: Max 1000℃ (vacuum, inert gas, O2)
High-efficiency magnetron sputtering cathode compatible with RF, DC, and pulse DC for depositing metals and insulators without impurities. It also excels in maintainability.
- Sputtering Equipment
◇◆◇ nanoPVD-S10A Magnetron Sputtering Device ◇◆◇
This is a research and development RF/DC magnetron sputtering device. Despite its high performance and multifunctionality, it fits into limited laboratory space with a compact size and easy operation via a 7-inch front touch panel. ● Achievable pressure: 5x10^-5 Pa (*fastest 30 minutes to 1x10^-4 Pa!) ● Film uniformity: ±3% ● Various options: up/down rotation, heater, cathode for magnetic materials, and more ● 3-source cathode + 3 MFC systems, with additional RF/DC power supply, allowing for versatile applications such as multilayer films and simultaneous deposition. - Insulating films - Conductive films - Compounds, etc. 【Main Features】 ◉ Compatible substrates: 2" (up to 3 sources) or 1" (1 source) ◉ 2" cathode x up to 3 sources ◉ Easy operation via touch panel with PLC automatic program control ◉ High-precision APC process control with MFC ◉ Up to 3 MFC systems ◉ USB port for Windows PC connection, capable of creating and saving recipes for up to 1000 layers and 50 films. Live data logging on PC. ◉ Vacuum system: TMP + RP (*dry pump option) ◉ Substrate rotation, vertical lift, and heating (Max 500℃) ◉ Quartz crystal film thickness monitor/controller
We have incorporated all the latest vacuum deposition technology into a compact benchtop-sized device that can effectively utilize limited lab space.
- Evaporation Equipment
Sputtering/Dual Chamber System【MiniLab-E080A/S060A】
Two thin-film experimental devices are connected via a load lock mechanism. Different film deposition devices (sputtering - evaporation, etc.) are seamlessly connected through the load lock. With Moorfield's unique load lock system, connections to the left, right, and rear process chambers are also possible (see photo below). 1. MiniLab-E080A (Evaporation Device) - EB Evaporation: 7cc crucible x 6 - Resistance Heating Evaporation x 2 - Organic Evaporation Limit x 2 2. MiniLab-S060A (Sputtering Device) - Φ2" Magnetron Cathode x 4 sources for simultaneous sputtering - Compatible with both DC and RF power supplies 3. Load Lock Chamber - Plasma Etching Stage In the load lock chamber, plasma cleaning of the substrate surface is performed using the "RF/DC substrate bias stage," and the company's unique 'soft etching' technology allows for a <30W low-power, damage-free plasma etching stage. This enables delicate etching processes that are prone to damage, such as 2D (removal of resists like PMMA), graphene delamination, and etching of Teflon substrates. (*This can also be installed in the main chamber stage.)
Two thin-film experimental devices are connected with a load-lock mechanism. Different film deposition devices (sputtering, evaporation, etc.) are seamlessly connected with the load-lock.
- Sputtering Equipment
- Evaporation Equipment
- Etching Equipment
◇◆◇ nanoPVD-S10A Magnetron Sputtering Device ◇◆◇
This is a research and development RF/DC magnetron sputtering device. Despite its high performance and multifunctionality, it fits into limited laboratory space with a compact size and easy operation via a 7-inch front touch panel. ● Achievable pressure: 5x10^-5 Pa (*fastest 30 minutes to 1x10^-4 Pa!) ● Film uniformity: ±3% ● Various options: up/down rotation, heater, cathode for magnetic materials, and more ● 3-source cathode + 3 MFC systems, with additional RF/DC power supply, allowing for versatile applications such as multilayer films and simultaneous deposition. - Insulating films - Conductive films - Compounds, etc. 【Main Features】 ◉ Compatible substrates: 2" (up to 3 sources) or 1" (1 source) ◉ 2" cathode x up to 3 sources ◉ Easy operation via touch panel with PLC automatic program control ◉ High-precision APC process control with MFC ◉ Up to 3 MFC systems ◉ USB port for Windows PC connection, capable of creating and saving recipes for up to 1000 layers and 50 films. Live data logging on PC. ◉ Vacuum system: TMP + RP (*dry pump option) ◉ Substrate rotation, vertical lift, and heating (Max 500℃) ◉ Quartz crystal film thickness monitor/controller
Compact and space-saving! Ideal for organic thin film development, all processes such as deposition, sputtering, and annealing can be seamlessly performed within the glove box.
- Evaporation Equipment
◇◆◇ nanoPVD-S10A Magnetron Sputtering Device ◇◆◇
This is a research and development RF/DC magnetron sputtering device. Despite its high performance and multifunctionality, it fits into limited laboratory space with a compact size and easy operation via a 7-inch front touch panel. ● Achievable pressure: 5x10^-5 Pa (*fastest 30 minutes to 1x10^-4 Pa!) ● Film uniformity: ±3% ● Various options: up/down rotation, heater, cathode for magnetic materials, and more ● 3-source cathode + 3 MFC systems, with additional RF/DC power supply, allowing for versatile applications such as multilayer films and simultaneous deposition. - Insulating films - Conductive films - Compounds, etc. 【Main Features】 ◉ Compatible substrates: 2" (up to 3 sources) or 1" (1 source) ◉ 2" cathode x up to 3 sources ◉ Easy operation via touch panel with PLC automatic program control ◉ High-precision APC process control with MFC ◉ Up to 3 MFC systems ◉ USB port for Windows PC connection, capable of creating and saving recipes for up to 1000 layers and 50 films. Live data logging on PC. ◉ Vacuum system: TMP + RP (*dry pump option) ◉ Substrate rotation, vertical lift, and heating (Max 500℃) ◉ Quartz crystal film thickness monitor/controller
Two thin film experimental devices are connected with a load lock mechanism. Different film deposition devices (sputtering, evaporation, etc.) are seamlessly connected with the load lock.
- Sputtering Equipment
- Evaporation Equipment
- Etching Equipment
Wafer Annealing Equipment [ANNEAL] Max 1000℃ APC Automatic Pressure Control MFC x3 System Compatible with Φ4 to 6 inch Substrates
Max 1000℃, MFC up to 3 systems, APC pressure control, compatible with substrates from 4" to a maximum of 6", high vacuum annealing device (<5 × 10-7 mbar) [ANNEAL] is a research and development annealing device capable of high-temperature heat treatment of substrates such as wafers in a stable process atmosphere. It allows high-temperature processing up to 1000℃ using a heating stage installed in a high vacuum water-cooled SUS chamber. A heat shield is installed inside the chamber to ensure safety through interlock. The mass flow controller can be expanded to a maximum of 3 systems, enabling firing operations with precisely adjusted process gas pressure (APC automatic process control system option). Additionally, there are many options available, including a front view port, dry scroll pump, special substrate holder, and additional thermocouples. The heating stage inside the chamber has three variations depending on the process gas atmosphere and treatment temperature: - Halogen lamp heater: Max 500℃ - C/C composite heater: Max 1000℃ (in vacuum, inert gas only) - SiC coating heater: Max 1000℃ (vacuum, inert gas, O2)
Flexible configuration available upon request for methods such as deposition, sputtering, and EB. Adopts a tall chamber with a height of 570mm, contributing to improved uniformity during deposition.
- Evaporation Equipment
- Sputtering Equipment
- Etching Equipment
Sputtering/Dual Chamber System【MiniLab-E080A/S060A】
Two thin-film experimental devices are connected via a load lock mechanism. Different film deposition devices (sputtering - evaporation, etc.) are seamlessly connected through the load lock. With Moorfield's unique load lock system, connections to the left, right, and rear process chambers are also possible (see photo below). 1. MiniLab-E080A (Evaporation Device) - EB Evaporation: 7cc crucible x 6 - Resistance Heating Evaporation x 2 - Organic Evaporation Limit x 2 2. MiniLab-S060A (Sputtering Device) - Φ2" Magnetron Cathode x 4 sources for simultaneous sputtering - Compatible with both DC and RF power supplies 3. Load Lock Chamber - Plasma Etching Stage In the load lock chamber, plasma cleaning of the substrate surface is performed using the "RF/DC substrate bias stage," and the company's unique 'soft etching' technology allows for a <30W low-power, damage-free plasma etching stage. This enables delicate etching processes that are prone to damage, such as 2D (removal of resists like PMMA), graphene delamination, and etching of Teflon substrates. (*This can also be installed in the main chamber stage.)
![[Nanofurnace] BWS-NANO Thermal CVD ...](https://image.mono.ipros.com/public/product/image/0d0/2000191194/IPROS99314670218218380543.jpeg?w=280&h=280){kind=small}
Hot Wall Type Thermal CVD Equipment: A compact, high-performance CVD device ideal for fundamental research.
- CVD Equipment
- Annealing furnace
- Heating device
◇◆◇ nanoPVD-S10A Magnetron Sputtering Device ◇◆◇
This is a research and development RF/DC magnetron sputtering device. Despite its high performance and multifunctionality, it fits into limited laboratory space with a compact size and easy operation via a 7-inch front touch panel. ● Achievable pressure: 5x10^-5 Pa (*fastest 30 minutes to 1x10^-4 Pa!) ● Film uniformity: ±3% ● Various options: up/down rotation, heater, cathode for magnetic materials, and more ● 3-source cathode + 3 MFC systems, with additional RF/DC power supply, allowing for versatile applications such as multilayer films and simultaneous deposition. - Insulating films - Conductive films - Compounds, etc. 【Main Features】 ◉ Compatible substrates: 2" (up to 3 sources) or 1" (1 source) ◉ 2" cathode x up to 3 sources ◉ Easy operation via touch panel with PLC automatic program control ◉ High-precision APC process control with MFC ◉ Up to 3 MFC systems ◉ USB port for Windows PC connection, capable of creating and saving recipes for up to 1000 layers and 50 films. Live data logging on PC. ◉ Vacuum system: TMP + RP (*dry pump option) ◉ Substrate rotation, vertical lift, and heating (Max 500℃) ◉ Quartz crystal film thickness monitor/controller
Tabletop small-sized experimental furnace - space-saving with a maximum operating temperature of 2000℃! We also manufacture metal furnaces for reducing atmospheres.
- Heating device
- Electric furnace
- Annealing furnace
【MiniLab-125】 Multi-target sputtering system (compatible with Φ8") equipped with a 1000℃ heater stage (SiC coating)! Compact size!
Multifunctional Multi-Sputtering Device (Compatible with Φ8inch Substrates) - Triple-source simultaneous deposition + Single-source Pulse DC sputtering - Flexible arrangement of RF500W and DC850W power supplies to the three-source cathodes (Source 1, 2, 3) - Equipped with a 5KW Pulse DC power supply → Used with dedicated cathode (4) - Substrate heating stage Max 800℃ (SiC-coated heater can achieve Max 1000℃) - MFC x 3 systems (Ar, O2, N2) for reactive sputtering - Main chamber RIE etching stage RF300W - LL chamber <30W low-power controlled soft etching - Unique "Soft-Etching" technology reduces substrate damage through substrate bias - Touch panel or Windows PC operation: All operations can be performed via touch panel/PC without dispersing control. - Equipment installation dimensions: 1,960(W) x 1,100(D) x 1,700(H) mm - Multi-chamber configurations are also possible. ● Mixed specifications for resistance heating deposition, organic material deposition, EB deposition, PECVD, etc., can also be configured.
Sputter Cathode and Co-evaporation Source Mixed Thin Film Experimental Device: Metal deposition, organic deposition, and sputter cathode installed in a compact frame.
- Sputtering Equipment
- Evaporation Equipment
- Annealing furnace
Wafer Annealing Equipment [ANNEAL] Max 1000℃ APC Automatic Pressure Control MFC x3 System Compatible with Φ4 to 6 inch Substrates
Max 1000℃, MFC up to 3 systems, APC pressure control, compatible with substrates from 4" to a maximum of 6", high vacuum annealing device (<5 × 10-7 mbar) [ANNEAL] is a research and development annealing device capable of high-temperature heat treatment of substrates such as wafers in a stable process atmosphere. It allows high-temperature processing up to 1000℃ using a heating stage installed in a high vacuum water-cooled SUS chamber. A heat shield is installed inside the chamber to ensure safety through interlock. The mass flow controller can be expanded to a maximum of 3 systems, enabling firing operations with precisely adjusted process gas pressure (APC automatic process control system option). Additionally, there are many options available, including a front view port, dry scroll pump, special substrate holder, and additional thermocouples. The heating stage inside the chamber has three variations depending on the process gas atmosphere and treatment temperature: - Halogen lamp heater: Max 500℃ - C/C composite heater: Max 1000℃ (in vacuum, inert gas only) - SiC coating heater: Max 1000℃ (vacuum, inert gas, O2)
Consider the ion trajectories in electrostatic and magnetic fields, dielectrics, electrodes, conductors, coils, magnets, magnetic materials, and space charge!
- Electron beam lithography equipment
Consider the ion trajectories in electrostatic and magnetic fields, dielectrics, electrodes, conductors, coils, magnets, magnetic materials, and space charge!
- Electron beam lithography equipment
Consider the ion trajectories in electrostatic and magnetic fields, dielectrics, electrodes, conductors, coils, magnets, magnetic materials, and spatial electrification!
- Electron beam lithography equipment
Consider the ion trajectories in electrostatic and magnetic fields, dielectrics, electrodes, conductors, coils, magnets, magnetic materials, and space charge!
- Electron beam lithography equipment
CE marking compliant product for peace of mind! Quality and trust with ultra-low-speed dip coater.
- Other semiconductor manufacturing equipment
- Surface treatment contract service
- Other surface treatment equipment
We will answer your questions about the essential item for polishing pad correction, the "super lightweight DP-equipped correction carrier."
- Wafer processing/polishing equipment
Achievements in the semiconductor industry worldwide, including the United States and Japan. A range of PFA products that contribute with outstanding reliability and purity.
- Other semiconductor manufacturing equipment
Suitable for the film formation of nanomaterials (metal nanoparticles, nanowires, nanosheets, materials for nanoelectronics)!
- Sputtering Equipment
High-end sputtering process for optical films used in aerospace engineering and medical/bio applications is possible!
- Sputtering Equipment
Ion beam sputtering equipment for research and development as well as small-scale production!
- Sputtering Equipment
DC pulse sputtering is possible (reactive sputtering of insulating films using conductive targets)!
- Sputtering Equipment
Demonstrates excellent high-precision mounting accuracy in mass production and prototype development. *Technical materials related to bonding are currently being distributed.
- Other semiconductor manufacturing equipment
Complete cleaning to spin drying in a single chamber. Space-saving design suitable for research and development as well as small lot production.
- Other semiconductor manufacturing equipment
A small etching machine equipped with pressure gauges on both the top and bottom of the spray!
- Etching Equipment
By using stainless steel stands and bases, we reduce mechanical corrosion and achieve long-term stable operation.
- Wafer processing/polishing equipment
When it comes to modifying grinding pads, the DP-equipped correction carrier is used as a matter of course, but it actually has significant disadvantages as well. Do you know what they are?
- Wafer processing/polishing equipment
The basics of polishing involve the maintenance and management of the precision of the polishing pads. It is dangerous if symptoms such as the following are observed.
- Wafer processing/polishing equipment
In grinding, precision management of the pad is important, but are you using a modified carrier that takes into account the type of PAD? Customizing it will also make precision management easier.
- Wafer processing/polishing equipment
- mirror
- Photomask
Introducing the benefits of shortening development time and cost advantages! Integration of complex-shaped assembled parts, hollowing, and lightweighting through material reduction also lead to reduce...
- Other semiconductor manufacturing equipment
For applications in solar cells, organic devices, and bio-related fields! Comprehensive catalog of deposition equipment giveaway!
- Evaporation Equipment
We will introduce research and development equipment suitable for the development of organic EL devices.
- Evaporation Equipment