Equipment | Description | Research Area |
|---|---|---|
 | Quantum Analyser with Dispenser This system is a globally leading next-generation biomolecular interaction analysis platform, built upon the revolutionary material and technological innovation of titanium nitride nano cube (TiNC) quantum optical chips. It breaks through the detection limits and throughput bottlenecks of traditional surface plasmon resonance technology, offering single-molecule level detection sensitivity and a throughput of thousands of interaction analysis per hour. Utilising precise allocation and microarray technology, it can perform real-time, label-free kinetic analysis of 144 target molecules in parallel within a single experiment. It provides an unprecedentedly powerful tool for cutting-edge research such as antibody screening, drug discovery, and pathogen diagnosis, representing the future direction of biosensing technology.
| Quantum Technology |
 | Floor-model Ultracentrifuge A floor-model ultracentrifuge for high-g separations of subcellular fractions, macromolecules, vesicles, and viruses. The model features a modern touchscreen interface, rotor/library tools, and biosafety-minded design; paired rotors reach very high rpm/RCF for rapid pelleting or density-gradient work. | Biomedical Life Science |
 | Automated Live-Cell Fluorescence Imaging System An incubator-resident imaging platform that maintains temperature, CO₂, O₂, and humidity while automatically acquiring phase/brightfield and fluorescence images over hours to weeks. The model is suitable for capturing kinetic cell behaviors (growth, apoptosis, migration, killing) and quantifying them with built-in analysis, minimising disturbance to cultures. This setup enables longitudinal assays in standard plates and dishes. | Biomedical Life Science |
 | Elemental Analyser An Elemental Analyser employs advanced dynamic combustion chromatography to perform precise quantification and percentage analysis of five elements ─ Carbon (C), Hydrogen (H), Nitrogen (N), Sulfur (S), and Oxygen (O) ─ in micro-amount samples. Its highly precise modular design provides reliable element data support for chemical synthesis, pharmaceutical development, energy materials research, environmental science, and agricultural research. It is a trusted instrument for compound structure identification and quality control in the laboratory. | Net Zero and Environmental Technologies |
 | Flow Cytometer A compact, benchtop flow cytometry analyser that is designed for routine single-cell assays. It fits in a small footprint and supports common applications like cell counting, viability, immunophenotyping, and basic cell-cycle analysis. It is an ideal platform for enhancing laboratory single-cell analysis throughput and standardisation levels, particularly suitable for efficient research in immunology, microbiology, and cell biology. | Biomedical Life Science |
 | Quantitative Real-Time Polymerase Chain Reaction (qPCR) System A thermal cycler with real-time fluorescence detection (e.g., intercalating dyes or probe chemistries) to quantify nucleic acids during amplification via cycle-threshold (Ct) analysis. Core uses include gene-expression profiling, pathogen detection, genotyping, and melt-curve analysis; qPCR is a well-established standard across clinical, veterinary, and food safety labs. | Biomedical Life Science |
 | Benchtop Ultracentrifuge A benchtop ultracentrifuge offering exceptionally high throughput and flexibility. Its large capacity of up to 40.8 mL together with adaptability for volumes as low as 1.75 µL perfectly cover the full range of needs from large-scale sample preparation to the recovery of precious micro samples. It is widely applicable in key steps of biopharmaceutical production and cutting-edge research such as viral vector purification (e.g., AAV, lentivirus), plasmid DNA extraction, RNA preparation, and nanoparticle separation. It is a strategic instrument for laboratories aiming to increase preparation yield and efficiency. | Net Zero and Environmental Technologies |
 | ChemiDoc Gel Imaging System A camera-based station for documenting and quantifying fluorescence, chemiluminescence, colorimetric, and stained gel imaging. Coupled with an ultra-sensitive CCD camera and the powerful Image Lab software, it enables precise analysis of Western Blots, DNA/RNA gels, etc., making it a reliable and efficient endpoint detection platform in biochemistry and molecular biology research. | Biomedical Life Science |
 | Multi-Mode Microplate Reader A fully functional microplate reader that combines the advantages of both monochromator and filter-based systems. It supports various detection technologies, including absorbance, fluorescence, luminescence, time-resolved fluorescence (TRF), fluorescence polarisation (FP), and AlphaScreen/AlphaLISA. This unparalleled flexibility makes it ideally suited for diverse applications such as ELISA, high-throughput drug screening, reporter gene assays, cell viability and cytotoxicity analysis, and kinetic studies. It is a core detection platform for drug development and life sciences research. | Net Zero and Environmental Technologies |
 | 2-Qubit Desktop NMR Quantum Computer A 2-qubit desktop nuclear magnetic resonance (NMR) quantum computer is a bridge for quantum computing, moving from theory to practice in teaching and research. This platform integrates a large-scale NMR system into a desktop unit, allowing researchers and students to manually control real qubits and perform core experiments such as quantum state preparation, logic gate operations, quantum algorithm verification, and state tomography. It is a unique experimental platform for frontier exploration in quantum programming, quantum error correction, quantum machine learning, etc., providing the hardware foundation for cultivating the next generation of quantum technology talent. | Quantum Technology |
 | 7-Axis Collaborative Robotic Arm (xArm 7) The xArm 7 is a highly flexible 7-axis collaborative robotic arm. Featuring a human-like redundant degree-of-freedom (DOF) design, high operational precision, and built-in safety features, it is designed to work safely alongside researchers in shared workspaces. As a laboratory automation platform, it seamlessly integrates with various instruments and sensors to automate and streamline repetitive experimental processes in fields such as biology, chemistry, and materials science, significantly enhancing research efficiency and reproducibility. | Digital Fabrication and Art-Tech |
 | Optical Profiler The Zeiss O-INSPECT 322 is a multi-sensor coordinate measuring machine that integrates optical rapid scanning with high-precision contact probing capabilities, particularly adept at measuring tiny, delicate, or complex three-dimensional precision components. Equipped with the VAST gold high-performance scanning probe and COLOR intelligent focus-zoom technology, this system enables non-destructive, high-precision three-dimensional reconstruction of complex freeform surfaces, transparent materials, and micro-gears, establishing itself as an authoritative platform for precision quality control and three-dimensional topography analysis in high-end manufacturing, micro-engineering, and cutting-edge materials research. | Quantum Technology |
 | Benchtop High-Vacuum Magnetron Sputtering System The nanoPVD-S10A is a high-performance benchtop magnetron sputtering system designed for the fabrication of nanoscale functional thin films. Featuring an ultra-high vacuum base and precise process control, it can deposit uniform, dense, and high-quality films on various substrates. With its compact footprint, intelligent operation, and user-friendly maintenance, this system serves as an ideal tool for new material development, micro-nano device fabrication, and cutting-edge physicochemical research, providing laboratory-grade thin film deposition capabilities at an industrial standard. | Quantum Technology |
 | Thermal Evaporator The MBraun OPTIvap 4 is a fully inert atmosphere-protected multi-source thermal evaporation coating system. By seamlessly integrating the evaporation chamber with a glovebox, it ensures that highly water- and oxygen-sensitive functional materials such as organic compounds and perovskites can achieve high-quality thin film deposition in an ultra-high purity environment (O₂/H₂O < 1 ppm). This system serves as the industry gold standard for the preparation and study of cutting-edge devices such as high-performance organic light-emitting diodes, photovoltaics, and thin-film transistors. | Quantum Technology |
Quantum Analyser with Dispenser
This system is a globally leading next-generation biomolecular interaction analysis platform, built upon the revolutionary material and technological innovation of titanium nitride nano cube (TiNC) quantum optical chips. It breaks through the detection limits and throughput bottlenecks of traditional surface plasmon resonance technology, offering single-molecule level detection sensitivity and a throughput of thousands of interaction analysis per hour. Utilising precise allocation and microarray technology, it can perform real-time, label-free kinetic analysis of 144 target molecules in parallel within a single experiment. It provides an unprecedentedly powerful tool for cutting-edge research such as antibody screening, drug discovery, and pathogen diagnosis, representing the future direction of biosensing technology.
Quantum Technology
Floor-model Ultracentrifuge
A floor-model ultracentrifuge for high-g separations of subcellular fractions, macromolecules, vesicles, and viruses. The model features a modern touchscreen interface, rotor/library tools, and biosafety-minded design; paired rotors reach very high rpm/RCF for rapid pelleting or density-gradient work.
Biomedical Life Science
Automated Live-Cell Fluorescence Imaging System
An incubator-resident imaging platform that maintains temperature, CO₂, O₂, and humidity while automatically acquiring phase/brightfield and fluorescence images over hours to weeks. The model is suitable for capturing kinetic cell behaviors (growth, apoptosis, migration, killing) and quantifying them with built-in analysis, minimising disturbance to cultures. This setup enables longitudinal assays in standard plates and dishes.
Biomedical Life Science
Elemental Analyser
An Elemental Analyser employs advanced dynamic combustion chromatography to perform precise quantification and percentage analysis of five elements ─ Carbon (C), Hydrogen (H), Nitrogen (N), Sulfur (S), and Oxygen (O) ─ in micro-amount samples. Its highly precise modular design provides reliable element data support for chemical synthesis, pharmaceutical development, energy materials research, environmental science, and agricultural research. It is a trusted instrument for compound structure identification and quality control in the laboratory.
Net Zero and Environmental Technologies
Flow Cytometer
A compact, benchtop flow cytometry analyser that is designed for routine single-cell assays. It fits in a small footprint and supports common applications like cell counting, viability, immunophenotyping, and basic cell-cycle analysis. It is an ideal platform for enhancing laboratory single-cell analysis throughput and standardisation levels, particularly suitable for efficient research in immunology, microbiology, and cell biology.
Biomedical Life Science
Quantitative Real-Time Polymerase Chain Reaction (qPCR) System
A thermal cycler with real-time fluorescence detection (e.g., intercalating dyes or probe chemistries) to quantify nucleic acids during amplification via cycle-threshold (Ct) analysis. Core uses include gene-expression profiling, pathogen detection, genotyping, and melt-curve analysis; qPCR is a well-established standard across clinical, veterinary, and food safety labs.
Biomedical Life Science
Benchtop Ultracentrifuge
A benchtop ultracentrifuge offering exceptionally high throughput and flexibility. Its large capacity of up to 40.8 mL together with adaptability for volumes as low as 1.75 µL perfectly cover the full range of needs from large-scale sample preparation to the recovery of precious micro samples. It is widely applicable in key steps of biopharmaceutical production and cutting-edge research such as viral vector purification (e.g., AAV, lentivirus), plasmid DNA extraction, RNA preparation, and nanoparticle separation. It is a strategic instrument for laboratories aiming to increase preparation yield and efficiency.
Net Zero and Environmental Technologies
ChemiDoc Gel Imaging System
A camera-based station for documenting and quantifying fluorescence, chemiluminescence, colorimetric, and stained gel imaging. Coupled with an ultra-sensitive CCD camera and the powerful Image Lab software, it enables precise analysis of Western Blots, DNA/RNA gels, etc., making it a reliable and efficient endpoint detection platform in biochemistry and molecular biology research.
Biomedical Life Science
Multi-Mode Microplate Reader
A fully functional microplate reader that combines the advantages of both monochromator and filter-based systems. It supports various detection technologies, including absorbance, fluorescence, luminescence, time-resolved fluorescence (TRF), fluorescence polarisation (FP), and AlphaScreen/AlphaLISA. This unparalleled flexibility makes it ideally suited for diverse applications such as ELISA, high-throughput drug screening, reporter gene assays, cell viability and cytotoxicity analysis, and kinetic studies. It is a core detection platform for drug development and life sciences research.
Net Zero and Environmental Technologies
2-Qubit Desktop NMR Quantum Computer
A 2-qubit desktop nuclear magnetic resonance (NMR) quantum computer is a bridge for quantum computing, moving from theory to practice in teaching and research. This platform integrates a large-scale NMR system into a desktop unit, allowing researchers and students to manually control real qubits and perform core experiments such as quantum state preparation, logic gate operations, quantum algorithm verification, and state tomography. It is a unique experimental platform for frontier exploration in quantum programming, quantum error correction, quantum machine learning, etc., providing the hardware foundation for cultivating the next generation of quantum technology talent.
Quantum Technology
7-Axis Collaborative Robotic Arm (xArm 7)
The xArm 7 is a highly flexible 7-axis collaborative robotic arm. Featuring a human-like redundant degree-of-freedom (DOF) design, high operational precision, and built-in safety features, it is designed to work safely alongside researchers in shared workspaces. As a laboratory automation platform, it seamlessly integrates with various instruments and sensors to automate and streamline repetitive experimental processes in fields such as biology, chemistry, and materials science, significantly enhancing research efficiency and reproducibility.
Digital Fabrication and Art-Tech
Optical Profiler
The Zeiss O-INSPECT 322 is a multi-sensor coordinate measuring machine that integrates optical rapid scanning with high-precision contact probing capabilities, particularly adept at measuring tiny, delicate, or complex three-dimensional precision components. Equipped with the VAST gold high-performance scanning probe and COLOR intelligent focus-zoom technology, this system enables non-destructive, high-precision three-dimensional reconstruction of complex freeform surfaces, transparent materials, and micro-gears, establishing itself as an authoritative platform for precision quality control and three-dimensional topography analysis in high-end manufacturing, micro-engineering, and cutting-edge materials research.
Quantum Technology
Benchtop High-Vacuum Magnetron Sputtering System
The nanoPVD-S10A is a high-performance benchtop magnetron sputtering system designed for the fabrication of nanoscale functional thin films. Featuring an ultra-high vacuum base and precise process control, it can deposit uniform, dense, and high-quality films on various substrates. With its compact footprint, intelligent operation, and user-friendly maintenance, this system serves as an ideal tool for new material development, micro-nano device fabrication, and cutting-edge physicochemical research, providing laboratory-grade thin film deposition capabilities at an industrial standard.
Quantum Technology
Thermal Evaporator
The MBraun OPTIvap 4 is a fully inert atmosphere-protected multi-source thermal evaporation coating system. By seamlessly integrating the evaporation chamber with a glovebox, it ensures that highly water- and oxygen-sensitive functional materials such as organic compounds and perovskites can achieve high-quality thin film deposition in an ultra-high purity environment (O₂/H₂O < 1 ppm). This system serves as the industry gold standard for the preparation and study of cutting-edge devices such as high-performance organic light-emitting diodes, photovoltaics, and thin-film transistors.
Quantum Technology
