前瞻永續負碳資源創意研究中心

前瞻永續負碳資源創意研究中心

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綠色新材料: 可回收風電葉片

化學工程學系 林慶炫教授

近年綠能產業如雨後春筍般地發展,而風力發電為綠色能源產業中最有潛力的一項。然而對於退役風機葉片皆未能妥善處理,目前多數仍以掩埋、焚燒的方式處理,但這處理方式卻帶來新的環境議題造成後續的環境相關問題,再加上許多國家紛紛加入收碳關稅的行列,例如歐盟2023年起將收取「碳關稅」,美國也規劃對進口產品採取碳關稅,減碳已經不僅是環保議題,更是經濟議題。因應局勢,林慶炫教授研究團隊隊開發專利「含碳酸酯之環氧樹脂、其製備方法、其製備之環氧固化物及 降解固化物的方法」(目前已通過中華民國專利審查),是一種加工性良好且可回收的高性能環氧樹脂。經過本實驗室專利的授權及讓與,上緯公司推出「EzCiclo易可收」、「CleaVER可立解」兩支全新產品,提出未來解決方案,不僅能回收風電葉片,還能再利用。目前該技術已成功製造86公尺可降解風電葉片。

綠色催化劑開發

化學系 陳繼添教授

本研究團隊致力於開發結構明確的金屬催化劑,並已將其成功應用於開環聚合反應上。由於聚酯類具備下列優點: (1)以植物資源為原料,相對降低對石油資源的依賴,也符合現今所追求的綠色化學; (2)此類聚酯具一般聚合物之加工特性; (3)此類聚酯分解後產生較為無害的二氧化碳及水。其中重要之製備方法之一,為以金屬錯合物催化環酯類之開環聚合反應,藉以生產可降解高分子,廣泛地被科學家所研究。

綠色催化劑開發

化學系 李東昇副教授

本研究團隊成功開發具吲哚骨架之含氮雜環碳烯前體,此類前體的結構具有可修飾性,且能在鹼性下與鈀形成高效催化劑,這些催化劑能在低負載量 (0.25 or 0.5 mol%)下完成碳碳鍵的偶合生成。(成果已發表在Asian Journal of Organic Chemistry期刊)。 此類前體能溶於水,其與鈀所形成的催化劑亦能在水相中進行碳碳鍵生成反應的催化,極具有綠色催化劑的潛力。此外,此類前體製備僅需三個簡單步驟,所使用之反應物便宜,亦具有大量生產的價值。

芳基咪唑離子液體催化劑開發

化學系 羅順原副教授

本研究團隊開發由芳基咪唑陽離子和無機的陰離子所組成的離子液體,因其具有優異的催化特性,故廣泛應用在於催化反應。我們以永續化學為發展目標,未來將可芳基咪唑離子液體來代替昂貴且有毒性的酸性催化劑,更大的優點則是該離子液體可以使用簡單的方法來進行回收及再使用(該成果已發表在Catalysts及Catalysis Comm.期刊)。未來可應用於天然物合成及小分子的合成上。

低碳綠色化學製程

化學系 林正坤助理教授

本研究團隊提出了一種有效的方法,用於使用離子液體創建改良試劑。透過傳統薄層層析技術,可以追蹤離子液體支持的均相有機合成的進展。通常,可以通過對粗混合物進行簡單的洗滌,在不需要使用柱層析的情況下獲得高純度的一系列分子。此外,能夠再生和重複使用離子液體支持的副產物增強了此方法的價值和環保性。離子液體支持的有機合成促進了具有多樣結構的小分子的迅速並行合成。

Vice President
Dean, College of Science, NCHU

副校長兼理學院院長

施因澤

Prof. Yin-Tzer Shih

| Profile

Research Interests

•Imaging Process, Data Analysis, Scientific Computing and Modeling

Experience

  • Vice President, NCHU (2023/08 to present)
  • Dean, College of Science, NCHU (2018/02 to present)
  • Director, Big Data Center, NCHU (2020/02 to present)
  • Director, AI & Data Science Program, NCHU (2019/08 to present)
  • TWSIAM 1st -3rd Supervisor, 4th Executive Board Member of Council (2020/08-2022/07)

Specific Objectives

  • BEC: model the rotating Bose-Eistein Condensation (BEC) problem to observe rotating vortices.

  •  AI for medical data: Cooperate with Taichung Tzu Chi Hospital t and Changhua Christian Hospital for predicting the drug side effect.

  • Image processing: In-depth and detailed works on numerical model for images.

Highlight paper 

    • Predicting Adverse Drug Effects: A Heterogeneous GCN with a MLP Approach. PLoS One. (Dec. 2022)

    • The role of extracranial carotid duplex in predicting functional outcome in 1st time lacunae strokes. Neurological Research (Nov. 2022)

    • A numerical scheme for the ground state of rotating spin-1 BEC. Scientific Reports (Nov. 2021)

Honors and Awards

•Edison Awards, Silver Medal Award, 2017 (USA)

•R&D100 Awards, 2016 (USA)

•The ITRI Elite Award, Gold Medal Award, 2015 (TW)

Research impact

•Design and development of an ultrafast rechargeable aluminum-ion battery

•Design and set up the first aluminum-ion battery pilot plant 

•Unveil mechanisms of aluminum anode reactions and the role of the artificial solid electrolyte interphase

Specific Objectives

Highlight paper 

An ultrafast rechargeable aluminium-ion battery
(Nature 520, 324–328 (2015))

Rechargeable Na/Cl2 and Li/Cl2 batteries 
(Nature 596, 525–530 (2021))

Associate Professor &Director
for Computer Center of School of Management

副教授兼管院計算中心主任

葉羅堯

Prof. Lo-Yao Yeh

| Profile

Honors and Awards

•2012 Yu-Ziang Hsu Scientific Paper Award scholarship (徐有庠科技論文獎)

•2011 TIEEE Ph.D Best Dissertation -Honorable Mention Award

Research Topic

•Blockchain Technology, Applied Cryptography, VANET, Cloud computing

Certificates

•CCNA、LPIC LEVEL 1、SCJP

•Ethical Hacking and Countermeasures (CEHv7)

•Advanced Cloud Security Auditing For CSA STAR Certification

•Computer Hacking Forensic Investigator (CHFIv8)

Specific Objectives

Highlight paper 

• 2012 Yu-Ziang Hsu Scientific Paper Award scholarship

Honors and Awards

•Distinguished Professor (III), National Chung Hsing University, (2022/8)

•Excellence in Teaching Award (II), National Chung Hsing University, (2020/8)

Research impact

•Using metal catalysis to synthesize important and interesting organic molecules.

•Development of organic methodology: With particular interest in aqueous reaction systems for application in site-selective chemical modification of biomolecules.

•Chemical Biology: Use the concept of organic chemistry to design the functional probes and the synthesis of complex carbohydrate antigens

Specific Objectives

Highlight paper 

Honors and Awards

•Outstanding Research Award of the Ministry of Science and Technology (2020)

•Yongguang Green Chemistry Research Paper Award (2020)

•The 17th National Innovation Award (2020)

•”Outstanding Polymer Application Award” by the Polymer Society of the Republic of China (2016)

Research impact

•Recyclable Thermoset Composites

•green Chemistry

•Plastic Upcycling

•Non-halogen flame retardant technology

•5G communication printed circuit board substrate

Specific Objectives

Highlight paper 

ACS Appl. Polym. Mater. 2022, 4, 1, 413–424

ACS Sustainable Chem. Eng. 2023, 11, 23, 8580–8591

ACS Sustainable Chem. Eng. 2022, 10, 7, 2429–2440

Green Chem., 2019,21, 4475-4488

Honors and Awards

•Postdoc Academic Publication Award, Ministry of Science and Technology of Taiwan (2014)

•Poster award from 7th Asia-Pacific Winter Conference on Plasma Spectrochemistry (2017)

Research impact

•Development of 3D/4D-printed analytical devices for chemical and biochemical analysis

•Development of efficient sample pretreatment schemes and online automatic analytical systems for ultrarace analysis

Specific Objectives

Highlight paper 

First example of elemental tagging scheme for ICPMS-based BioD of GO
(Cover story in Anal. Chem. 2020)

First example of 4D-printed solid phase extraction device
(Front cover in Anal. Chem. 2021)

Honors and Awards

•Distinguished Engineering Professor Award, Chinese Institute of Engineers (2023)

•Outstanding Research Award, Ministry of Science and Technology of Taiwan (2019)

•Gold Medal Award, Taiwan Innovation Technology Expo Invention Competition – “Carbon dioxide capture
and utilization device and treatment method”

Research impact

•Innovative Design of Electro-Fenton Technology Reactor for treatment of high COD wastewater

•Carbon dioxide capture and crystallization granulation technology for carbon neutralization

•Homogeneous crystallization technology for resource recovery from wastewater

Specific Objectives

Highlight paper 

First example for carbon neutralization by carbon dioxide capture and homogeneous crystallization.
(Chemical Engineering Journal, 2020)

Proposed the mechanism of fluidized-bed Fenton technology. (Journal of Hazardous Material, 2015)

Honors and Awards

•Outstanding Research Award, Academia Sinica (2000)

•Wu Da-Yuo Award, Ministry of Science and Technology of Taiwan (2004)

•Outstanding Research Award, Ministry of Science and Technology of Taiwan (2014)

•Excellence in Technology Transfer Award, Ministry of Science and Technology of Taiwan (2016/2020)

Research impact

•Undertake research utilizing novel electro-plasmon metal-surface elextrodes

•Design and development 3d-multilayered plasmonic thin-films

•Create a high-rate LIB anode materials

Specific Objectives

Highlight paper 

First example of Bivanadium-MOF enabled lithium ion storage.
(VIP paper in Angew. Chem. 1997)

First example of hybrid bilayer enabled a portable LED plasmonic biosensing (Cover picture in Chem. Comm. 2022)