Projects
(Principal Investigator)



Results 1-23 of 23 (Search time: 0.003 seconds).

Start DateTitleP-InvestigatorFunding Organization/經費來源
2020沸石與陶瓷奈米管薄膜:溼製程之基礎學理、關鍵技術與元件應用DUN-YEN KANGMinistry of Science and Technology
2019沸石與陶瓷奈米管薄膜:溼製程之基礎學理、關鍵技術與元件應用DUN-YEN KANGMinistry of Science and Technology
2019金屬有機骨架:從分子級微結構工程到工業級薄膜分離程序(1/4)DUN-YEN KANGMinistry of Science and Technology
2019高等教育深耕計畫-學術生涯發展計畫深耕型計畫 【低成本陶瓷奈米管:高通量海水淡化程序之新穎材料】DUN-YEN KANGHigher Education Sprout Project
2018製備微孔金屬有機骨架之分離膜DUN-YEN KANGHigher Education Sprout Project
2018沸石與陶瓷奈米管薄膜:溼製程之基礎學理、關鍵技術與元件應用DUN-YEN KANGMinistry of Science and Technology
2018高等教育深耕計畫-學術生涯發展計畫深耕型計畫 【低成本陶瓷奈米管:高通量海水淡化程序之新穎材料】DUN-YEN KANGHigher Education Sprout Project
2018人力結構改善/化工系/微孔金屬有機骨架之薄膜製備與應用DUN-YEN KANGThe Aim For The Top University Project
2018學術研究生涯發展計畫-桂冠型研究計畫【低維度奈米孔洞材料:合成機制探討、薄膜製程、與分離程序之應用】DUN-YEN KANGHigher Education Sprout Project
2017人力結構改善/化工系/微孔金屬有機骨架之薄膜製備與應用DUN-YEN KANGThe Aim For The Top University Project
2017低維度奈米孔洞材料:合成機制探討、薄膜製程、與分離程序之應用DUN-YEN KANGMinistry of Science and Technology
2017建立微孔洞金屬有機骨架之薄膜製備通則DUN-YEN KANGMinistry of Science and Technology
2017含奈米顆粒之聚丙烯之潤濕技術與分離效能DUN-YEN KANGMinistry of Science and Technology
2017學術研究生涯發展計畫-桂冠型研究計畫【低維度奈米孔洞材料:合成機制探討、薄膜製程、與分離程序之應用】DUN-YEN KANGMinistry of Education
2016超音波噴塗法製備奈米孔洞薄膜DUN-YEN KANGMinistry of Science and Technology
2016低維度奈米孔洞材料:合成機制探討、薄膜製程、與分離程序之應用DUN-YEN KANGMinistry of Science and Technology
2016建立微孔洞金屬有機骨架之薄膜製備通則DUN-YEN KANGMinistry of Science and Technology
2016含奈米顆粒之聚丙烯之潤濕技術與分離效能DUN-YEN KANGMinistry of Science and Technology
2016學術研究生涯發展計畫-深耕型研究計畫【探討無機奈米管結構、性質、與元件效能之關聯性】DUN-YEN KANGMinistry of Education
2015低維度奈米孔洞材料:合成機制探討、薄膜製程、與分離程序之應用DUN-YEN KANGMinistry of Science and Technology
2015學術研究生涯發展計畫-深耕型研究計畫【探討無機奈米管結構、性質、與元件效能之關聯性】DUN-YEN KANGMinistry of Education
2014無機奈米管之基礎研究:自組裝機制、微結構控制、與表面性質分析DUN-YEN KANGMinistry of Science and Technology
2013無機奈米管之基礎研究:自組裝機制、微結構控制、與表面性質分析DUN-YEN KANGMinistry of Science and Technology