東海大學化材系實驗室
近期活動
最新消息
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恭喜入圍2024 Open Call 科普創意松
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恭喜獲得2024智慧永續循環技術研討會競賽-優選
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恭喜本實驗室榮獲2024 第21屆國家新創獎
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恭喜徐若庭獲2024化工年會-壁報發表競賽佳作
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恭喜入選2024-2國科會FITI創新創業激勵計畫前14強
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恭喜獲得2024東元淨零排放科技競賽「主競賽」佳作(20/240)
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恭喜入選2024-2國科會FITI創新創業激勵計畫前31強
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恭喜入圍2024教育部永續能源創意實作競賽-大專淨零排放組前20強
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恭喜林羿瑄獲112-2材料科學與工程-實作競賽第二名
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恭喜張薰尹、古裕馨獲112-2材料科學與工程-實作競賽第一名
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恭喜蔡沅劭獲112-2材料科學與工程-實作競賽精實研究獎
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恭喜許庭榕、侯芊亦、張庭瑜獲112-2材料科學與工程-實作競賽最佳環保獎
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恭喜徐芸森獲112-2材料科學與工程-實作競賽最佳海報獎
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恭喜本實驗室團隊入圍2024成大圓夢計畫複審團隊
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恭喜本實驗室團隊入圍2024-1國科會FITI前16強團隊
實驗室主持人
李冠廷 博士
辦公室:
CME210
聯繫電話:
04-23590121#33210
E-mail:
學歷:
國立清華大學 化學工程學系 博士
現任:
東海大學 化材系 助理教授
國際期刊Energies-Guest Editor
國際期刊Carbon Research-青年編審委員
國際期刊Green Energy and Fuel Research-編審委員
經歷:
國立成功大學 航空太空工程學系 博士後研究 (專任)
國立成功大學 能源產業人才教育中心 經理 (兼任)
國立台南大學 綠能系/通識教育中心 助理教授 (兼任)
專長:
生質能、廢水處理、廢棄物再利用、奈米材料、複合材料
研究領域
執行中研究計畫
1. 國科會
爐石廢棄物循環再利用於高級氧化有機廢水處理及二氧化碳捕
獲之研究
113/08/01~116/07/31
主持人
2. 國科會
前瞻永續碳技術研發: 高效捕捉、轉質再利用及碳材開發(2/2)
113/07/01~114/06/30
共同主持人
3. 產學合作
農廢轉質再利用於碳權交易市場之發展潛力評估
113/07/01~114/06/30
主持人
4. 國科會
113年度 【 科普活動:循環經濟,炭不可思議 】
113/07/01~114/06/30
主持人
5. 產學合作
分析燙金箔材料之流變性質
113/08/15~113/12/31
主持人
曾執行研究計畫
1. NSTC IIPP
113外籍高階人才來臺實習IIPP-Kong Sieng Huat
113/09/01~113/11/30
主持人
2. 產學合作
循環經濟與低碳目標下家具產品創新與市場潛力評估
113/05/01~113/08/31
主持人
3. 國科會
生質物裂解製造生質油及生物炭之整合研究(1-3)
109/08-112/07
協同主持人
4. 國科會
短訪計畫(邀請國際科技人士短期訪問)
113/03/16~113/03/22
主持人
5. 國科會
前瞻永續碳技術研發: 高效捕捉、轉質再利用及碳材開發(1/2)
112/07/01~113/06/30
共同主持人
6. NSTC IIPP
113外籍高階人才來臺實習IIPP-Cheong Kah Yein
113/05/01~113/07/31
主持人
期刊發表
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Wei-Hsin Chen*, Guan-Hong Chen, Kuan-Ting Lee(李冠廷)*, Duleeka Sandamali Gunarathne, Anh Tuan Hoang,Synergetic strategy: upgrading fuel properties of waste starch composite fuels by blending torrefied spent coffee grounds. 2024, Journal of the Taiwan Institute of Chemical Engineers,Just accepted. (SCI, IF=5.5)
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Lee, K.T.(李冠廷)*, Chen, W.H., Hsu, W.H., Cai, Y.S., Hou, Q.Y., & Hsu, T.J. Study on 3D Printed Porous Slag Cement Catalyst Materials for Advanced Oxidation of Organic Wastewater. 2024 Journal of Taiwan Agricultural Engineering, 70(4), 1-10. (EI-Compendex), Just accepted.
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Kuan-Ting Lee(李冠廷), Situmorang Gabriela, Wei-Hsin Chen, Hwai Chyuan Ong, Saravanan Rajendran, Khanh-Quang Tran,, Co-torrefaction and synergistic effect of spent coffee grounds and tea waste for sustainable waste remediation and renewable energy, 2024, Renewable Energy, 121181 (SCI, IF=9)
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Kuan-Ting Lee (李冠廷)*, Yuan-Shao Cai, Qian-Yi Hou, Ting-Jung Hsu, Wei-Hao Hsu, A brief overview of green hydrogen on production, regulations, and commercialization. 2024. Green Energy and Fuel Research, 1, 1, 3-12. (SCI, IF=X)
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Kuan-Ting Lee(李冠廷), Da-Sheng Lee, Wei-Hsin Chen, Yu-Li Lin, Ding Luo, Young-Kwon Park, Argel Bandala. An overview of commercialization and marketization of thermoelectric generators for low-temperature waste heat recovery. 2023. iScience, 26, 107874 (SCI, IF=6.107).
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Wei-HsinChen, Kuan-Ting Lee(李冠廷), Kuan-Yu Ho, Alvin B. Culaba, Veeramuthu Ashokkumar, Ching Joon Juan, Multi-objective operation optimization of spent coffee ground torrefaction for carbon–neutral biochar production, 2023. Bioresource Technology, 370, 128584 (SCI, IF=11.889)
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Kuan-Ting Lee(李冠廷), Yi-Tse Shih, Saravanan Rajendran, Young-Kwon Park, Wei-Hsin Chen, Spent coffee ground torrefaction for waste remediation and valorization, 2023. Environmental Pollution, 324, 121330 (SCI, IF=9.988)
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Kuan-Ting Lee(李冠廷), Kuan-Yu Ho, Wei-Hsin Chen*, Construction and demolition waste as a high-efficiency advanced process for organic pollutant degradation in Fenton-like reaction to approach circular economy, 2023. Environmental Pollution, 335, 122246 (SCI, IF=9.988)
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Kuan-Ting Lee(李冠廷), Wei-Hsin Chen, Paul Sarles, Young-Kwon Park, Yong Sik Ok, Recover energy and materials from agricultural waste via thermochemical conversion, 2022, One earth, 5, 1200-1204 (SCI, IF=14.944)
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Kuan-Ting Lee(李冠廷), Ching-Lin Cheng, Da-Sheng Lee, Wei-Hsin Chen*, Pau-Loke Show, Su Shiung Lam, “Spent coffee grounds biochar from torrefaction as a potential adsorbent for spilled diesel oil recovery and as an alternative fuel”, 2022, Energy, 239, 122467. (SCI, IF=8.857)
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Kuan-Ting Lee(李冠廷), Jai-You Tsai, Wei-Hsin Chen*, Duleeka Sandamali Gunarathne, Anurita Selvarajoo, Energy-saving drying strategy of spent coffee grounds for co-firing fuel by adding biochar for carbon sequestration to approach net zero, 2022, Fuel, 326, 124984. (SCI, IF=8.035)
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Wei-Hsin Chen, Kuan-Yu Ho, Kuan-Ting Lee(李冠廷), Lu Ding, Kun-Yi Andrew Lin, Yashvir Singh, Dual pretreatment of mixing H2O2 followed by torrefaction to upgrade spent coffee grounds for fuel production and upgrade level identification of H2O2 pretreatment, 2022, Environmental Research, 215, 114016. (SCI, IF=8.431)
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Kuan-Ting Lee(李冠廷), Jyun-Ting Du, Wei-Hsin Chen*, Aristotle T.Ubando, Keat Teong Lee, Green additive to upgrade biochar from spent coffee grounds by torrefaction for pollution mitigation, 2021, Environmental Pollution, 285, 117244 (SCI, IF=9.988)
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Wei-Hsin Chen*, Jyun-Ting Du, Kuan-Ting Lee(李冠廷), Hwai Chyuan Ong, Young-Kwon Park, Chien-Chang Huang, "Pore volume upgrade of biochar from spent coffee grounds by sodium bicarbonate during torrefaction", 2021, Chemosphere, 275, 129999 (SCI, IF=8.943)
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Wei-Hsin Chen*, Ching-Lin Cheng, Kuan-Ting Lee(李冠廷), Su Shiung Lam, Hwai Chyuan Ong, Tzu-Hsien Hsieh, “Catalytic level identification of ZSM-5 on biomass pyrolysis and aromatic hydrocarbon formation”, 2021, Chemosphere, 271, 129510-129526. (SCI, IF=8.943)
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陳維新, 林柏志,李冠廷, 黑金烘焙坊-生質物焙燒技術, 2020, 科學發展月刊, 569, 27-31.
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Chen WH*, Lee KT(李冠廷), Eng CF, Lin HP, Qiu YB, Cheng CL, Lin XY, Chi YK, Chang JS. Novel renewable double-E system for activated biochar production and thermoelectric generation from waste heat. 2020, Energy & Fuels, 34, 3383-3393. (SCI, IF=4.654)
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Kuan-Ting Lee(李冠廷), Yu-Jen Lu, Fwu-Long Mi, Shao-Chieh Chiu, Wen-Chi Chang, Chuang Er-Yuan, and Shih-Yuan Lu, “Heterogeneous Fenton Reaction Enabled Selective Colon Canver Cell Treatment”, 2018, Nature-Scientific Reports, 8, 16580-16590. (SCI, IF=4.997)
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Jinxing Zhao, Chang Liu, Kun Xiang, Qi Cheng, Yuxiao Li, Huan Lin, Kuan-Ting Lee(李冠廷), Liang An, Shun Tang, Yuan-Cheng Cao, Jiyuan Liang, “In-situ template formation strategy for the preparation of nitrogen doped carbon nanocage with graphitic shell as electrode material for supercapacitor”, 2018, Journal of Nanoscience and Nanotechnology, 18, 6949-6956. (SCI, IF=1.134)
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Liang, Jiyuan; Zhao, Jinxing; Li, Yuxiao; Lee, KuanTing(李冠廷); Liu, Chang; Lin, Huan; Cheng, Qi; Lan, Qian; Wu, Lingfang; Tang, shun; An, Liang; Cao, YuanCheng,” In situ SiO2 etching strategy to prepare rice husk-derived porous carbons for supercapacitor application, 2017, Journal of the Taiwan Institute of Chemical Engineers, 81, 383-390. (SCI, IF=5.477)
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Xui-Fang Chuah, Kuan-Ting Lee(李冠廷), Yu-Chieh Cheng, Poh-Foong Lee, and Shih-Yuan Lu, Ag/AgFeO2: An Outstanding Magnetically Responsive Photocatalyst for HeLa Cell Eradication, 2017, ACS Omega, 2, 4261-4268. (SCI, IF=4.132)
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Kuan-Ting Lee(李冠廷), Yu Jen Lu, Fwu-Long Mi, Thierry Burnouf, Yi-Ting, Wei, Shao-Chieh Chiu, Er-Yuan Chuang, Shih-Yuan Lu, Catalase-Modulated Heterogeneous Fenton Reaction for Selective Cancer Cell Eradication: SnFe2O4 Nanocrystals as an Effective Reagent for Treating Lung Cancer Cells 2017, ACS Applied Materials &Interfaces, 9, 1273-1279. (SCI, IF=10.383)
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Kuan-Ting Lee(李冠廷), Yu-An Chen, Shih-Yuan Lu, “Solid-Liquid Interface Based Biphasic Reaction for Nanomaterial Preparation: Bundled CuO Nanorods as an Example and Their Outstanding Photocatalytic Efficiencies”, 2017, Chemistry Select, 2, 1-7. (SCI, IF=2.307)
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Kuan-Ting Lee(李冠廷), Kok-Poh Wai, Shih-Yuan Lu, “CuO nanorods from carrier solvent assisted interfacial reaction processes an unexpected extraordinary Fe-free photocatalyst in sunlight assisted Fenton-like processes”, 2017, Journal of the Taiwan Institute of Chemical Engineers, 70, 244-251. (SCI, IF=5.477)
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Kuan-Ting Lee(李冠廷), Yi-Ching Liang, Shih-Yuan Lu, “Exfoliated SnS2 Nanoplates for Enhancing Direct Electrochemical Glucose Sensing”, 2016, Electrochimica Acta, 219, 241-250. (SCI, IF=7.336)
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Yu-Chun Lo, Kuan-Ting Lee(李冠廷), Yi-Ching Liang, Dai-Ming Liu, Nobuhiro Matsushita, Toshiyuki Ikoma, and Shih-Yuan Lu, “Three-dimensionally extended host electrodes for highly sensitive biosensors”, ChemElectroChem, 2016, 3(4) 552-557. (inside cover highlight) (SCI, IF=4.782)
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Kuan-Ting Lee(李冠廷), Dai-Ming Liu, and Shih-Yuan Lu, “SnFe2O4 Nanocrystals as a Highly Efficient Catalyst for Hydrogen Peroxide Sensing”, 2016, Chemistry- A European Journal, 2016, 22, 1-8. (SCI, IF=5.02)
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Kuan-Ting Lee(李冠廷), Xui-Fang Chuah, Yu-Chieh Cheng, and Shih-Yuan Lu, “Pt coupled ZnFe2O4
nanocrystals as a breakthrough photocatalyst for Fenton-like processes – photodegradation treatments from hours to seconds”, J. Mater. Chem. A. 2015, 3, 18578-18585. (SCI, IF=14.511) -
Kuan-Ting Lee(李冠廷) and Shih-Yuan Lu, “A cost-effective, stable, magnetically recyclable photocatalyst of ultra-high organic pollutant degradation efficiency: SnFe2O4 nanocrystals from a carrier solvent assisted interfacial reaction process”, J. Mater. Chem. A, 2015, 3, 12259-12267. (SCI, IF=14.511)
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Kuan-Ting Lee(李冠廷), Dai-Min Liu, Yung-Yung Liang, Nobuhiro Matsushita, Toshiyuki Ikoma, Shih-Yuan Lu, “Porous fluorine-doped tin oxide as a promising substrate for electrochemical biosensors –demonstration in hydrogen peroxide sensing”, J. Mater. Chem. B, 2014, 2, 7779-7784. (SCI, IF=7.571)
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Kuan-Ting Lee(李冠廷), Cheng-Hsien Lin and Shih-Yuan Lu, “SnO2 Quantum Dots Synthesized with a Carrier Solvent Assisted Interfacial Reaction for Band-Structure Engineering of TiO2 Photocatalysts”, J. Phys. Chem. C, 2014, 26, 14457-14463. (SCI, IF=4.177)
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Kuan-Ting Lee(李冠廷) and Shih-Yuan Lu, “One-step Sn4+-based Anodic Deposition for Flattening of
Fluorine-Doped Tin Oxide enabling Large Transmittance Enhancements”, RSC Advances, 2013, 3, 9011-9015, (SCI, IF=4.036) -
Kuan-Ting Lee(李冠廷) and Shih-Yuan Lu, “Porous FTO thin layers created with a facile one-step Sn4+-based anodic deposition process and their potential applications in ion sensing”, J. Mater. Chem., 2012, 22, 16259-16268, (SCI, IF=6.626)
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Nagendiran Shanmugam, Kuan-Ting Lee(李冠廷), Wei-Yun Cheng, Shih-Yuan Lu, “Organic-Inorganic Hybrid Polyaspartimide Involving Polyhedral Oligomeric Silsesquioxane via Michael Addition for CO2 Capture”, Journal of Polymer Science Part A: Polymer Chemistry, 2012, 50, 2521-2526. (SCI, IF=2.869)
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Chia-Chien Lin, Te-Yu Wei, Kuan-Ting Lee(李冠廷) and Shih-Yuan Lu, “Titania and Pt / titania aerogels as superior mesoporous structures for photocatalytic water splitting”, J. Mater. Chem., 2011, 21, 12668-12674. (SCI, IF=6.626)
獲獎
獎項
2024 入圍2024 Open Call 科普創意松
2024 榮獲2024智慧永續循環技術研討會競賽-優選
2024 榮獲第21屆國家新創獎
2024 化工年會-壁報發表競賽佳作(自430篇文章篩出)
2024 國科會創新創業激勵計畫入選第二梯次前14強團隊-獲實作激勵金
2024 入圍教育部永續能源創意實作競賽-大專淨零排放組前20強
2024 東元集團-淨零碳排科技國際競賽-佳作 (自13國與240隊篩出)
2024 國科會創新創業激勵計畫入選第二梯次前31強團隊-獲實作激勵金
2024 成大創新圓夢計畫入圍複審團隊
2024 國科會創新創業激勵計畫入選第一梯次前16強團隊-獲實作激勵金
2023中山市工业设计大赛综合赛概念組榮獲銅牌(自2170件作品勝出,第11順位)
2023 廣東省江門市“市長杯”工業設計大賽晉級複賽, 入圍前149強 (from 2368件作品)
2023 國科會創新創業激勵計畫入選第二梯次前7強團隊(創業潛力獎)-獲實作激勵金
2023 第20屆國家新創獎
2023 福建省泉州市第二届“刺桐杯”国际设计大赛,入圍概念組前100強團隊(from 12000件作品)
2023 國科會創新創業激勵計畫入選第二梯次前17強團隊-獲實作激勵金
2023 國科會創新創業激勵計畫入選第二梯次前40強團隊-獲實作激勵金
2023 東元集團-淨零碳排科技國際競賽-佳作
2023 科研成果價值創造計畫(萌芽)- 通過平台初審
2023 成大創新圓夢計畫獲選第二名
2023 國科會創新創業激勵計畫入選第一梯次前40強團隊-獲實作激勵金
2022 科技部未來科技獎_事業廢棄物轉質再利用之淨零排放系統
2022 國立成功大學 Grand Review學術競賽獲博士後學術傑出獎
2022 科技部創新創業激勵計畫獲第二梯次前10強團隊(創業潛力獎) -獲實作激勵金
2022 科技部創新創業激勵計畫入選第二梯次前20強團隊-獲實作激勵金
2022 科技部創新創業激勵計畫入選第二梯次前40強團隊-獲實作激勵金
2021 科技部創新創業激勵計畫入選第一梯次前38強團隊-獲實作激勵金
2021 成大創新圓夢計畫入選獎助-獲核定補助金
2021 Get Pitch智慧綠能創新大會-廢棄物之轉質術師-第三名
專利
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電化學處理之表面修飾裝置 中華民國發明專利, 發明第 I 464308 號, 12/11/2014 – 09/17/2032.
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Electrochemical treatment based surface modification device, 美國發明專利申請, 2/25/2013, 申請案號:13/775,900 Publication number: US 20160153114 A9
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水處理用試劑套組、光催化劑製造方法及其用途 中華民國發明專利申請, 10/9/2014, 申請案號:103135208. 發明第I 542409 號, 07/21/2016 – 10/08/2034.
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kit for wastewater treatment, and manufacturing method for and use of photocatalyst, 美國發明專利申請, 3/27/2015, 申請案號:14/671,219. 專利證書號: US 9,902,631, 02/27/2018 – 05/13/2036.
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複合光觸媒、其製造方法、包含複合光觸媒的套組、及殺菌用光觸媒 中華民國發明專利申請, 27/11/2015, 申請案號:104138394, 發明第I 549750 號, 09/21/2016 – 11/19/2035.
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Composite photocatalyst, manufacturing method thereof, kits containing composite photocatalyst, and bactericide photocatalyst, 美國發明專利申請, 02/03/2016, 申請案號:15/014,035. (主張優先權日:2015/11/20, 優先權號:104138394, 國別:TW), 專利證書號: US9,757,715B2, 02/03/2016-02/03/2036.
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用於製備光觸媒的膏體以及光觸媒的製備方法 中華民國發明專利申請, 22/04/2016, 申請案號:105112609, 發明第I 606864 號, 12/01/2017 – 4/21/2036.
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Paste for manufacturing photocatalyst and manufacturing method of photocatalyst, 美國發明專利申請, 06/06/2016, 申請案號:15/174,894. (主張優先權日:2015/04/22, 優先權號:105112609, 國別:TW), 專利證書號: US10,051,101B2, 12/11/2018-02/28/2037
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有機廢水處理裝置及其處理方法 中華民國發明專利申請, 申請案號:107126384, 申請日:2018/07/30
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有機廢水處理裝置及其處理方法 中華人民共和國發明專利申請, 申請案號:CN201811155594.8A, 申請日:2018/09/30
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多孔生物炭、其製造方法、吸附非極性物質的方法及複合燃料(Porous biochar, manufacturing method thereof, method for adsorbing non-polar substance and composite fuel)”,中華民國發明專利, 發明第I 774070 號, 8/11/2022 – 9/23/2040。
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生物炭、其製造方法及其用途(Biochar, manufacturing method thereof and use thereof),中華民國發明專利(Reg. no. 110119811)。
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水處理組成物及水處理方法,中華民國發明專利,中華民國發明專利, 發明第I809820 號, 7/21/2023 – 4/14/2042。
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生質物乾燥裝置,中華民國新型專利,新型第M 629912 號, 7/21/2022 – 3/24/2032.。
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生質物的處理方法、生物炭及複合材料,中華民國發明專利(Reg. no. 111139407)。
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Biomass treatment method, biochar and composite material, (NCKU, 111-099AP-US1)
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Water treatment composition and water treatment method ,USA patent. (Reg. no. 17/939,945)
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高級氧化固態廢棄物處理方法,中華民國發明專利(申請中)
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為了推動廢棄物再利用觀念,由李冠廷助理教授主持的「科普活動:循環經濟,炭不可思議」計畫,藉豐富的「炭不可思議」科普工作坊系列課程,深化並扎根農廢再利用、二氧化碳儲存與盤查的觀念,強化循環經濟的理念,並推廣循環材料的發展潛力。
「炭不可思議」科普工作坊系列課程,涵蓋廢棄物再利用、熱化學反應、文創品手作體驗及生命週期評估等內容,課程旨在深化並扎根農廢再利用、二氧化碳儲存與盤查的觀念,強化循環經濟的理念,並推廣循環材料的發展潛力。
成大航太系陳維新特聘教授與東海大學李冠廷助理教授,共同開發出以低溫廢熱碳化,產製出的低溫生物炭,可將其應用於農業、工業以及民生領域,與市面上高溫碳化產製生物炭,有顯著區別,由於低溫生物炭具有製程溫度低、碳含量高、改善孔洞結構、環保可持續等特性,可成為當今能源轉型和可持續發展的重要選擇之一,對於綠色能源的發展具有重要意義。
成大航太系特聘教授陳維新攜手東海大學化材系助理教授李冠廷、C-Cube及樂土等企業,共同研發農業廢棄物轉質再利用的循環經濟碳儲存材料,除能減緩二氧化碳排放,更可把來自大氣的二氧化碳回收,並儲存至可循環使用的熱塑性塑膠或建材,取代來自石化的碳黑使用量,有效降低農業廢棄物產量,提高循環經濟再利用率。
為解決廚餘處理與再利用問題,來自成功大學陳維新特聘教授與東海大學李冠廷助理教授的「炭匯廚理」團隊整合廢棄物再生、生物炭製程、水處理、碳化設備研發等多項專利技術開發商用廚餘焙燒機,規劃可用於食品加工廠或大廈住宅,減少生產或居家食品廢棄物產生並實現循環經濟與碳中和的理想目標。
「炭匯廚理」則是看見廚餘處理與再利用等問題,成功大學陳維新特聘教授與東海大學李冠廷助理教授,整合廢棄物再生、生物炭製程、水處理、碳化設備研發等多項專利技術,開發商用廚餘焙燒機,未來規劃可用於食品加工廠或大廈住宅,減少生產或居家食品廢棄物產生,並實現循環經濟與碳中和的理想目標。
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化材系招生影片 李冠廷老師研究介紹
