• 學術期刊

    1. LinY.W., Lee W.H., Lin K.L., Optimization of synthesis parameters from industrial waste recycling to eco-humidity control zeolite: discussion on response to indoor environment comfort, Journal of Material Cycles and Waste Management, vol. 25, pp. 3331–3345, Nov. 2023. (SCI, IF=5.5; CiteScoreRank: 100/391=0.2557=25.57%, Mechanics of Materials)
    2. Lin Y.W., Peng S.Y., Lee W.H., Lin Y.Y., Hung M.J., Lin K.L., Characterization of Cu2+ adsorption for eco-hydroxyapatite derived from limestone sludge via hydrothermal synthesis, Journal of Material Cycles and Waste Management, vol. 25, pp.1069–1081, Mar. 2023. (SCI, IF=5.5; CiteScore Rank: 100/391=0.2557=25.57%, Mechanics of Materials)
    3. Li Y.F., Hao G.W., Syu J.Y., Chen B.Y., Lee W.H., Tsai Y.K., Use of Geopolymer and Carbon Fiber-Reinforced Polymer for Repairing
      Reinforced Concrete Deck Soffit, Materials, vol.16, 4459, Jun. 2023. (SCI,IF=5.2; CiteScore Rank: 125/423=0.2955=29.55%, Condensed Matter Physics)
    4. Lin Y.W., Lee W.H., Kuo B.Y., Lin K.L., Effect of the indoor humidity control characteristics for amine grafted functionalized mesoporous silica nanomaterials, Journal of the Chinese Institute of Engineers, Transactions of the Chinese Institute of Engineers, Series A, vol. 46, pp. 11-20, Sep. 2023. (SCI, IF=2.3; CiteScore Rank: 140/302=0.4635=46.35%,General Engineering)
    5. Lin Y.W., Lee W.H. , Lin K.L., Optimal synthesis of zeolite materials for humidity control from recycled industrial waste: central composite design, Materials Today Sustainability, vol. 23, 100417, Sep.2023. (SCI,IF=5.1; CiteScore Rank: 138/407=0.3390=33.90%, General Chemistry)
    6. LinY.W., Lee W.H., Chen C.Y., Lin K.L., Liu Y.J., Zhang W.Q., LinM.Y., Preparation and humidity control performance of aluminum -containing mesoporous molecular sieve synthesis from liquid crystal display waste glass and sandblasting waste, Materials Today Communications, vol.34, 105227, Mar. 2023. (SCI,IF=4.1; CiteScore Rank: 144/391=0.3682=36.82%, Mechanics of Materials)
    7. LeeW.H., Lin Y.W., Lin K.L.,Optimization of synthesis parameters for the preparation of zeolite by reusing industrial waste as raw material: Sandblasting waste and solar panel waste glass, Solid State Sciences, vol. 143, 107277, Sep. 2023. (SCI, IF=6.7; CiteScore Rank:80/423=0.1891=18.91%, Condensed Matter Physics)
    8. Ooi W.E., Liew Y.M., Heah C.Y., Mohd Mustafa A.B.A., Ho L.N., Phakkhananan P., PartW.K., Mohd S.K., Hasniyati M.R., Lee W.H., Tan S.J., Ong S.W., Hang Y.J., Acid-resistance of one-part geopolymers:Sodium aluminate and carbonate as alternative activators to conventional sodium metasilicate and hydroxide, Construction and Building Materials, vol. 404, 133264, Sep. 2023. (SCI, IF=12.4; CiteScore Rank: 11/350=0.0314=3.14%, Civil and Structural Engineering)
    9. LinY.W., Lee W.H., Chen C.Y., Liu Y.J., Zhang W.Q., Lin M.Y., LinK.L., Synthesis of aluminum-mesoporous MCM-41humidity control material from thin-film transistor liquid crystal display waste glass and sandblasting waste and its application,Boletín De La Sociedad Española De Cerámica Y Vidrio, vol. 62, pp.357-367, Jun. 2022. (SCI, IF=4.4; CiteScore Rank: 115/355=0.3239=32.39%, Engineering)
    10. PengS.Y., Lin Y.W., Lee W.H., Lin Y.Y., Huang M.J., Lin K.L., Removalof Cu2+ from wastewater using eco-hydroxyapatite synthesized from marble sludge, Materials Chemistry and Physics, vol.293, 126854, Oct. 2022. (SCI, IF=7.7; CiteScore Rank: 57/423=0.1347=13.47%, Physical Astronomy)
    11. LinY.W., Lee W.H., Lin K.L., Cheng T.W., Kuo B.Y., Utilization of waste from the silicon carbide grinding sludge and stone sludge as source of silicon aluminum for the synthesis of the amine functional mesoporous humidity control material, Journal of Material Cycles and Waste Management, vol. 24, pp.1009-1017, Mar. 2022. (SCI, IF=5.5; CiteScoreRank: 100/391=0.2557=25.57%, Engineering)
    12. ChenY.C., Lee W.H., Cheng T.W., Chen W., Li Y.F., The Length ChangeRatio of Ground Granulated Blast Furnace Slag-Based Geopolymer Blended with Magnesium Oxide Cured in Various Environments, Polymers, vol. 14, 3386, Aug. 2022. (SCI, IF=6.6; CiteScore Rank: 38/163=0.2331=23.31%, Materials Science)
    13. ChenY.C., Ding Y.C., Lee W.H., Liu X., Li S., Xie H., Luo Q., TheStudy on the Properties and TCLP of GGBFS-Based Heavy-Metal-Contaminated Soil Geopolymer, Crystals, vol.12, 900, Jun. 2022. (SCI, IF=3.6; CiteScore Rank: 195/423=0.4069=40.69%, Physical Astronomy)
    14. LinY.W., Lee W.H., Lin K.L., A novel approach for preparing ecological zeolite material from solar panel waste lass and sandblasting waste:
      microscopic characteristics and humidity control performance, Journal of materials research and technology, vol.19, pp.4128-4140, Jul. 2022. (SCI, IF=8.5; CiteScore Rank: 19/164=0.1158=11.58%, Materials Science)
    15. Lee W.H., Lin Y.W., Lin K.L., Parameter optimization, characterization, and crystallization mechanisms underlying the synthesis of zeolite A using liquid crystal display waste glass and sandblasting waste as alternative raw materials, Journal of Environmental Chemical Engineering, vol. 10, 108506, Aug. 2022. (SCI, IF=9.5; CiteScore Rank: 9/68=0.1323=13.23%, Chemical Engineering)
    16. LinY.W., Lee W.H., Lin K.L., Cheng T.W., Kuo B.Y., Recyclinglight-emitting-diode waste quartz sand and stone sludge for the synthesis of
      amine grafted mesoporous humidity control material, Journal of Cleaner Production, vol. 371, 133425, Aug. 2022. (SCI, IF=18.5; CiteScore Rank: 4/473=0.00849=0.84%,Business, Management, and accounting)
    17. LinY.W., Lee W.H., Lin K.L., Kuo B.Y., Synthesis and GraftedNH2-Al/MCM-41 with Amine Functional Groups as Humidity Control Material from Silicon Carbide Sludge and Granite Sludge, Processes, vol. 9, 2107, Nov. 2021. (SCI, IF=3.5; CiteScore Rank: 19/42=0.4523=45.23%, Chemical Engineering)
    18. HsiehY.C., Lee W.H.*, Liao P.H., Using Geopolymer Technology on Synthesizing Leucite Ceramics, Polymers, vol. 13, 3621, Oct. 2021. (SCI, IF=5.7; CiteScore Rank: 35/154=0.2272=22.72%, Materials Science)
    19. Lee W.H.*, Hsieh Y.C., Wang H.W., Ding Y.C., Cheng T.W., Fabrication of Low-Temperature Sintering Building Bricks Using Drilling Cutting and Geopolymeric Technology, Materials, vol. 14, 5940, Oct. 2021. (SCI, IF=4.7; CiteScore Rank: 132/415=0.3180=31.80%, Physical Astronomy)
    20. ChenY.C., Lee W.H., Ding Y.C., The Use of Recycled Aggregate Sludgefor the Preparation of GGBFS and Fly Ash Based Geopolymer, Crystals, Vol.11, 1486, Nov. 2021. (SCI, IF=3.2; CiteScore Rank: 132/280=0.4714=47.14%, Chemical Engineering)
    21. Lee W.H.*, Cheng T.W., Lin K.Y., Lin K.L., Wu C.C., Tsai C.T., GeopolymerTechnologies for Stabilization of Basic Oxygen Furnace Slags and Sustainable Application as Construction Materials, Sustainability, vol.12, 5002, Jun. 2020. (SSCI, IF=3.9; CiteScore Rank: 110/704=0.1562=15.62%, Social Science)
    22. WuC.H., Huang C.H., Li Y.F., Lee W.H., Cheng T.W., Utilization ofBasic Oxygen Furnace Slag in Geopolymeric Coating for Passive Radiative Cooling Application, Sustainability, vol. 12, 3967, May 2020. (SCI, IF=3.9; CiteScore Rank: 110/704=0.1562=15.62%, Social Science)
    23. Lee W.H.*, Lin K.L., Chang T.H., Ding Y.C., Cheng T.W., Sustainable Development and Performance Evaluation of Marble-Waste-Based Geopolymer Concrete, Polymers, vol.12, 1924, Aug. 2020. (SCI, IF=4.7; CiteScore Rank: 37/158=0.2341=23.41%, Materials Science)
    24. Lee W.H., Wu Y.F., Ding Y.C., Cheng T.W., Fabrication of Ceramic Moulds UsingRecycled Shell Powder and Sand with Geopolymer Technology in Investment Casting, Applied Sciences, vol.10, 4577, Jul. 2020. (SCI, IF=3.0; CiteScore Rank: 85/297=0.2861=28.61%, Engineering)
    25. LoK.W., Cheng T.W., Lin W.T., Lin K.L., Lee W.H., Recycling oflight-emitting diode waste quartz sand as a pozzolanic material, Journal of
      Cleaner Production, vol.258, 120683, Feb. 2020. (SCI, IF=13.1; CiteScore Rank: 7/440=0.0159=1.59%, Business, Management, and accounting)
    26. Lee W.H., Wang J.H., Ding Y.C., Cheng T.W., A study on the characteristics and microstructures of GGBS/FA based geopolymer paste and concrete, Construction and Building Materials, vol.211, pp.807-813, Mar. 2019. (SCI, IF=7.4; CiteScore Rank: 10/174=0.0574=5.74%, Engineering)
    27. Lee W.H.*, Cheng T.W., Ding Y.C., Lin K.L., Tsao S.W., Huang C.P., Geopolymertechnology for the solidification of simulated ion exchange resins with radionuclides, Journal of Environmental Management, vol.235, pp.19-27, Jan. 2019. (SCI, IF=7.6; CiteScore Rank: 15/333=0.0450=4.05%, Environmental Science)

     

     

  • 研討會文章

    1. x
    2. x

     

  • 研究計畫

    1. 萬達發開發股份有限公司營建剩餘土石方處理廠機械處理能力鑑定計畫,113年01月01日至 113年02月28日,萬達發開發股份有限公司。
    2. 亞泰營建剩餘土石方處理廠機械處理能力鑑定,112年12月01日至113年01月31日,亞泰土石資源有限公司。
    3. 利用紅磚邊角料及多元化工業廢棄物製備高壓磚之研究,112年11月01日至113年10月31日,勝昌欣業股份有限公司。
    4. 以濕式渦錐進行含金屬河砂分選可行性之研究,112年07月15日至112年10月31日,連弘環境科技股份有限公司。
    5. 利用焚化飛灰製備再生粒料之技術開發可行性研究,112年07月01日至113年01月31日,台鋼資源股份有限公司。
    6. 無機資源循環材料技術研發及應用可行性評估,112年03月17日至112年12月01日,財團法人台灣綠色生產力基金會。
    7. 利用轉爐石粉製備預鑄型無機聚合混凝土之材料開發,112年03月01日至113年02月28日,中聯資源股份有限公司。
    8. 戰時機場跑道緊急搶修技術與材料之研發(2/2),112年01月11日至112年12月31日,國防部空軍司令部後勤處。
    9. 氧化碴品質檢測,111年10月01日至112年09月30日,慶欣欣鋼鐵股份有限公司。
    10. 礦石火法分析勞務案,111年05月11日至111年10月28日,行政院原子能委員會核能研究所。
    11. 低碳膠結材料之最佳配比設計研究,111年04月01日至111年11月30日,財團法人工業技術研究院。
    12. 戰時機場跑道緊急搶修技術與材料之研發(1/2),111年01月14日至111年12月15日,國防部空軍司令部後勤處。
    13. 利用混燒灰製備無機聚合綠色水泥材料之研究,111年02月14日至111年08月13日,健源有限公司。
    14. 輔導促成資源逆向或循環回收-混燒灰渣製成水泥製品之循環回收試生產及檢測,110年08月01日至110年12月20日,環興科技股份有限公司。
    15. 鋼碴膨脹性檢測研究,110年08月16日至110年10月15日,黎明工程顧問股份有限公司。
    16. 纖維水泥板品質檢測,110年06月01日至111年03月31日,偉銓營造有限公司。
    17. 工業廢水處理-可行性評估測試,110年04月01日至110年12月31日 ,東泰灣有限公司。

     

     

    Cookie的使用
    我們使用cookies來確保流暢的瀏覽體驗。若繼續,我們會認爲你接受使用cookies。
    了解更多