Lab on Chip
Course Overview
The Lab on Chip Summer School is an interdisciplinary STEM program designed for high school students interested in engineering and applied sciences. Developed in partnership with the UC Irvine School of Engineering, the program introduces students to the foundations of lab on chip systems, materials science, chemical engineering, and bioengineering.
项目日期
7/19/2026 – 8/1/2026
The Lab on Chip Summer School introduces students to interdisciplinary engineering where biology, chemistry, and micro-scale chip systems intersect. The program combines foundational concepts with applied design experience in a structured, project-based format.
Students explore how biological and chemical processes can be integrated into compact chip-based systems.
Students gain introductory exposure to materials science and microfluidic principles.
Students learn basic engineering design logic and structured problem-solving methods.
Students complete a guided capstone project that integrates the concepts covered throughout the program.
What Students Will Gain
Micro-scale chip technologies are central to modern innovation.
Students learn from Lab on Chip
Technical Application
Hands-on technical experience applying algebra to engineering challenges and modeling micro-scale designs using introductory CAD tools.
Engineering Thinking
An engineering mindset shaped through systems thinking, problem decomposition, and logical reasoning in applied scientific contexts.
System Insight
Foundational understanding of how material selection and structural design influence performance in micro-scale systems.
Communication
Clear communication skills developed through organizing technical explanations, presenting design concepts, and articulating design decisions with confidence.
Micro-scale chip technologies are central to modern innovation. Lab on chip systems miniaturize laboratory processes onto compact devices that can perform analysis, testing, and chemical reactions efficiently.
This technology plays a growing role in biomedical diagnostics, wearable health devices, environmental testing, and advanced research platforms. As industries continue to invest in semiconductor and micro-engineering development, interdisciplinary chip-based systems remain an important area of technological growth.
Early exposure to lab on chip concepts helps students understand how mathematics, materials science, chemistry, and engineering integrate within emerging technology sectors.
Why Lab on Chip Matters Today
Lab on Chip (LOC) technology integrates biological and chemical laboratory functions onto small micro-scale devices. These systems are designed to perform testing, analysis, and reactions on compact chips rather than in large laboratory setups.
Lab on Chip applications are commonly used in biomedical diagnostics, drug screening, environmental testing, and advanced materials research. The field combines principles from chemistry, biology, materials science, and engineering.
While Lab on Chip research at the university level can be highly technical, introductory concepts can be presented in an accessible format for motivated high school students.
This summer school focuses on foundational principles, design logic, and structured project work rather than advanced fabrication techniques. An algebra-level mathematics background is sufficient preparation.
Unlike broad STEM camps that rotate across multiple topics, the Lab on Chip Summer School concentrates on one focused interdisciplinary area.
Participants follow a structured learning progression that includes engineering design principles, CAD exposure, and a capstone project. The format mirrors a university-style project-based learning model rather than activity-based enrichment.
常见问题解答
学生及家长感言
Mike O
10th Grade
“Before this program, I had only studied science subjects separately. The Lab on Chip summer school helped me understand how biology, chemistry, and engineering connect in real systems. Designing a micro-scale model using CAD made the concepts feel practical rather than theoretical.”
Ophilea J.
9th Grade
“The structured project format made a significant difference. Working through design challenges step by step helped develop a clearer understanding of engineering logic. The capstone project required careful thinking and planning.”
June C.
10th Grade
“Learning about lab on chip systems provided clearer insight into how micro-scale devices are used in diagnostics and applied research. The interdisciplinary approach made the field feel more tangible and realistic.”
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