劉舜維 特聘教授兼有機電子研究中心主任兼工程學院副院長
國立台灣大學光電工程博士
辦公室:電子館305研究室
電話:02-2908-9899 分機5317
學術專長:軟性電子元件、透明顯示器、有機光電半導體材料與元件物理、氣體感測器
研發能量平台:連結
劉舜維博士,現任明志科技大學電子工程系特聘教授,亦為台灣少數以有機電子與光電半導體材料為核心研究領域的校級研究中心—有機電子研究中心(Organic Electronics Research Center, OERC)創辦主任,以及工學院副院長,負責引領國際策略合作與高階產學聯盟。2017 年,他成功說服校董會斥資 250 萬美元成立 OERC,使明志科大躍升為國內有機與複合光電領域的重要領航者之一。短短數年間,在劉主任的領導下,OERC 已發展成為整合先進材料科學、元件物理與應用工程的跨域創新基地,並將研發成果轉化為全球市場矚目的高端解決方案。劉主任不僅是實驗室的開拓者,更積極爭取外部研發資源。自加入明志科大以來,他共主持 15 項國科會專題計畫(總額 185.6 萬美元)及 16 項產學合作案(87.1 萬美元),完成 14 件技術授權與取得 10 項專利,為學校與產業創造累計 61 萬美元收益。這些數據背後,彰顯了他將基礎學術概念直接推進至實際商業應用的罕見能力。例如,團隊研究涵蓋有機與鈣鈦礦光電領域,並延伸至短波紅外(SWIR)/近紅外成像、透明太陽能、光學感測、醫療 OLED 照明等前瞻技術。
OERC 的科研成果不僅止於論文與專利,更成功落地成為商業產品。劉主任將 OLED 創新技術轉移至台塑生醫科技公司,並研發出健康光源產品(https://www.fbshop.com.tw/SalePage/Index/9544669?lang=zh-TW&srsltid=AfmBOookJN12ofTiQN6FZeGo-VsBthsT76_ietOmYPXrFgnwp68vGjiX),在台灣銷售量已突破 2,000 組,並計畫拓展至國際市場。同時,多家國際企業主動尋求合作,共同開發新一代高靈敏檢測技術,進一步彰顯其在國際產業鏈中的核心地位。在學術領域,劉主任已發表逾 150 篇 SCI 論文,累計引用超過 4,200 次,H 指數達 36(Scopus),並榮獲吳大猷紀念獎、國科會技術移轉傑出貢獻獎、光電學會傑出年輕學者獎等多項國家級榮譽。2023 年,其團隊於 Science Advances 發表的近紅外有機成像器研究,因突破性應用於隱密光偵測與視覺增強,被 Nature 選為 Research Highlight(https://www.nature.com/articles/d41586-023-01460-9)。
在國際舞台上,劉主任於 2024 年受聘為韓國 KAIST 電機系兼任教授,主持室內鈣鈦礦太陽能於物聯網能源採集的合作計畫,進一步鞏固其於全球光電材料與元件創新領域的長期影響力。延續上述卓越的學術與技術轉譯成果,2025 年,他更榮獲英國皇家化學學會會士(Fellow of the Royal Society of Chemistry, FRSC)殊榮,成為台灣私立科技大學首位入選該會士的學者,創下歷史紀錄,並彰顯其在全球化學與材料科學領域的卓越地位。
Dr. Shun-Wei Liu is a Distinguished Professor in the Department of Electronic Engineering at Ming Chi University of Technology (MCUT), Taiwan. He concurrently serves as the Founding Director of the Organic Electronics Research Center (OERC)—Taiwan’s first university-level research center dedicated to organic electronics—and as Associate Dean for the College of Engineering, overseeing global strategic partnerships and academic-industry engagement. In 2017, Professor Liu successfully persuaded the MCUT Board of Trustees to invest $2,500,000 USD to establish the OERC, transforming MCUT into a national leader in organic and hybrid optoelectronic research. Under his visionary leadership, the center has become a multidisciplinary hub, integrating advanced materials science, device physics, and translational engineering. As Director, Professor Liu has built a robust research platform that bridges fundamental science with high-impact applications across organic and perovskite optoelectronics.
Throughout his academic career, Professor Liu has consistently demonstrated exceptional capability in securing highly competitive national and industrial research funding. Since beginning his faculty position 14 years ago, he has been awarded 15 research grants from the National Science and Technology Council (NSTC) of Taiwan, with a total funding amount of $1,856,569 USD. In parallel, he has led 16 industry-academia collaborative development projects, amounting to $871,000 USD in contracted research funding. In addition, he has successfully completed 14 know-how licensing agreements and 10 patents, resulting in a cumulative revenue of $610,000 USD. These figures reflect not only his scientific rigor, but also his consistent capacity to translate advanced materials and device research into impactful, real-world applications. Professor Liu’s research portfolio encompasses optoelectronics based on organic and perovskite materials, with significant emphasis on short-wave infrared (SWIR)/NIR imaging, transparent photovoltaics, optical sensors, and medical OLED lighting. One of his landmark innovations is a multi-source co-deposition technique that enables nanometer-precision control over organic film morphology, which has been widely adopted for high-performance organic electronics.
A hallmark of Professor Liu’s translational impact is the technology transfer of his OLED innovations to Formosa Biomedical Technology Corporation, a subsidiary of Formosa Plastics Group. He pioneered the development of a health-focused OLED light therapy, leveraging fundamental OLED device physics to engineer a commercially viable product. The system—protected by a comprehensive IP portfolio—retails at approximately $100 USD (https://www.fbshop.com.tw/SalePage/Index/9544669?lang=zh-TW&srsltid=AfmBOookJN12ofTiQN6FZeGo-VsBthsT76_ietOmYPXrFgnwp68vGjiX) and has reached an annual domestic sales volume of over 2,000 units in Taiwan alone, with expansion to global markets actively underway. Professor Liu’s organic imager technology has also attracted the attention of international company’s project to co-develop next-generation detections based on Professor Liu’s know-how.
Academically, Professor Liu has authored over 150 peer-reviewed SCI publications, with a citation count of 4,200 and an H-index of 36 (according to the Scopus database). His excellence in scientific research and technology transfer has been recognized by multiple national honors, including the Ta-You Wu Memorial Award and the Award for Excellence in Technology Transfer from NSTC and the Outstanding Young Researcher Award from Taiwan Photonics Society. Indeed, his 2023 publication in Science Advances on near-infrared organic imagers for covert light detection was featured as a RESEARCH HIGHLIGHT in Nature (https://www.nature.com/articles/d41586-023-01460-9), underscoring its scientific and technological significance in privacy protection and human-augmented vision systems. Internationally, Professor Liu was appointed Adjunct Professor at the School of Electrical Engineering, Korea Advanced Institute of Science and Technology (KAIST) in 2024, where he leads a collaborative program on indoor perovskite photovoltaics for energy harvesting in IoT environments. This appointment reflects his sustained contributions to global innovation in optoelectronic materials and devices.
Building upon these outstanding academic and translational achievements, in 2025, Professor Shun-Wei Liu was elected as a Fellow of the Royal Society of Chemistry (FRSC). This prestigious recognition not only affirms his exceptional standing in the global chemistry and materials community, but also marks the first time a scholar from a private university of technology in Taiwan has been inducted into the Fellowship, setting a historic milestone.
The links:
Google Scholar https://scholar.google.com.tw/citations?user=XJF0oUwAAAAJ&hl=zh-TW
Scopus
https://www.scopus.com/authid/detail.uri?authorId=56767227300
ORCID