Initiated by the Faculty of Engineering (FENG) and supported by the Industrial Centre (IC) and the University Research Facility in 3D Printing (U3DP), the Dr. Ching Yuen-kai – IC • U3DP • Product Innovation Prize 2025-26 was successfully held on 19 May 2026.
This round received submissions from 24 teams, with 9 shortlisted. Students developed their projects at U3DP and IC, focusing on solutions that positively impact society – especially for those in need. Their creative work is full of creativity and thoughtful design, truly reflecting PolyU’s learning environment that encourages innovative spirit.
All participants demonstrated outstanding innovation and creativity. Heartfelt congratulations to our winners!
Panelists:
Ir Dr Chris WONG Ho-ching (Former Director, IC & Donor of Dr. Ching Yuen-kai – IC • U3DP • Product Innovation Prize)
Prof. KAN Chi-wai (Associate Dean and Professor, SFT)
Dr XIAO Ming-xiang Hans (Assistant Director, IC)
Champion
Project Title: Harnessing Topology and additive manufacturing for Sustainable Marine Ecosystems
Group Members: CHAN Tak Keung (PhD, FSN), ZHANG Kin Hang (Year 3, EEE), CHAN Ka Wa (Year 4, EEE)
1st RunnerUp
Project Title: Reef Habitix
Group Members: WONG Chun Ching (PhD, FSN), LEUNG Wai Lim (PhD, FSN), LI Chiu Wing (PhD, FSN), REN Xing Chao (PhD, FSN)
2nd RunnerUp
Project Title: MuClear
Group Members: MAN Ka Yiu (Year 2, RS), WONG Hong Lam (Year 2, RS), LUI Sze Wai (Year 2, RS), LAU Fook Wai (Year 2, RS)
由工程學院(FENG)主辦,並獲工業中心(IC)及三維打印技術中心實驗室(U3DP)支持的 「程源鍇博士 - 增材•智造•產品創新獎 2025-26」,已於 2026年5月19日 圓滿舉行。
本屆共收到 24 支隊伍參賽,其中 9隊成功入圍。同學們在 U3DP 和 IC 埋首開發,針對社會需要,提出能帶來正面影響的解決方案。每一份作品都充滿創意與巧思,也展現了理大鼓勵創新、以人為本的學習氛圍。
所有參賽者均展現出卓越的創新與執行力。再次衷心祝賀各位得獎者!
評判:
黃河清博士(前工業中心總監及程源鍇博士 - 增材•智造•產品創新獎捐贈者)
簡志偉教授(時裝及紡織學院副院長)
肖明祥博士(工業中心助理總監)
冠軍
項目名稱:Harnessing Topology and additive manufacturing for Sustainable Marine Ecosystems
組員:陳德强(食品科學及營養學系博士生)、張健恒(電機及電子工程學系三年級學生), 、陳嘉華(電機及電子工程學系四年級學生)
亞軍
項目名稱:Reef Habitix
組員:黃駿湞(食品科學及營養學系博士生)、梁尉廉 (食品科學及營養學系博士生)、李超穎 (食品科學及營養學系博士生)、任星潮(食品科學及營養學系博士生)
季軍
項目名稱:MuClear
組員:文嘉遙(康復治療科學二年級學生)、黃漮藍(康復治療科學二年級學生)、呂思慧(康復治療科學二年級學生)、劉馥慧(康復治療科學二年級學生)
Awarded Projects
Harnessing Topology and additive manufacturing for Sustainable Marine Ecosystems
A topological approach to artificial oyster reefs using 3D printing, designed to restore marine ecosystems and increase shellfish yields.
Reef Habitix
A modular 3D-printed reef featuring micro-surface structures and embedded sensors, tackling a critical bottleneck in marine restoration.