□■□【MiniLab-026】Flexible Thin Film Experimental 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℃, 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)

<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-efficiency and high-precision process control using cold wall method ◉ Rapid heating: 1100℃ in approximately 3 minutes ◉ High-precision temperature control: ±1℃ ◉ High-precision APC automatic pressure control system: 3 gas lines (Ar, H2, CH4) ◉ Standard recipe for graphene production included ◉ Compact size: 405(W) x 415(D) x 280(H) mm ◆Features◆ - Easy operation! Operation and recipe management via 5-inch touch panel - Up to 30 recipes and 30-step program creation possible - PC software included for USB cable connection, offline recipe creation on PC → upload/download to device, CSV data output - Maximum sample size: 40 x 40 mm: Copper (nickel) foil, SiO2/Si, Al2O3/Si substrates, etc. ◆Model: nanoCVD-8G◆ - Standard program for graphene included - High vacuum process, high-precision process pressure control - Rotary pump included as standard - 3 gas supply lines (Ar, H2, CH4) - Sample heating stage (high-purity graphite) Max 1100℃ - K-type thermocouple