政府計畫(GRB),建議「依年度遞減排序」,以查看最新的研究方向。
| 畢業學年度 | 論文標題 | 連結 | 學位 | 畢業時長(years) |
|---|---|---|---|---|
| 關鍵字 | ||||
| 111 | 利用同步輻... 利用同步輻射 X 光吸收光譜分析鉬摻雜二氧化鈦奈米顆粒之物理特性及光催化降解機制 (Photocatalytic Degradation Mechanisms and Physical Characteristics in Mo-doped TiO2 Nanoparticles: A View by X-ray Spectroscopy) | NTHU NDLTD | 碩 | 1.96 |
光觸媒(Photocatalyst)、X光吸收光譜(XAS)、二氧化鈦(Titania)、奈米顆粒(Nanoparticles)、電子結構(Electronic structure) 光觸媒(P... | ||||
| 111 | 鈷碳複合材... 鈷碳複合材料修飾之隔離膜於鋰硫電池中的電化學表現 (Electrochemical Performance of Cobalt-Carbon Composites Modified Separators in Lithium Sulfur Batteries) | NTHU NDLTD | 碩 | 2.50 |
鋰硫電池(lithium sulfur batteries)、改質隔離膜(Li-S batteries)、金屬有機框架(modified separator) 鋰硫電池(... | ||||
| 110 | 磷酸鋰鈷中... 磷酸鋰鈷中間相的研究以及摻雜鎳以改善磷酸鋰鈷電池陰極材料的電化學表現 (Investigation of Intermediate Phase and Improved Electrochemical Performance of Ni-doped LiCoPO4 as Cathode Material for Lithium Ion Battery.) | NTHU NDLTD | 碩 | 1.98 |
鋰電池(Lithium Ion Battery)、磷酸鋰鈷(LiCoPO4)、陰極材料(Cathode Material)、溶膠凝膠合成(Sol-Gel) 鋰電池(L... | ||||
| 109 | 改善鋰離子... 改善鋰離子電池高電壓陰極材料磷酸亞鈷鋰電化學性能之策略研究 (Study of Strategies for Improving the Electrochemical Performance of LiCoPO4 as a High-voltage Cathode Material for Li-ion Batteries) | NTHU NDLTD | 碩逕博 | 9.02 |
鋰離子電池(Lithium-ion battery)、磷酸亞鈷鋰(Lithium cobalt phosphate)、高電壓陰極(High-voltage cathode)、鋅摻雜(Zn-doping)、中間相(Intermediate phase)、介面(interface)、電化學(Electrochemistry)、儲能(Energy storage) 鋰離子電池... | ||||
| 109 | 添加交聯劑... 添加交聯劑改善高分子衍生SiOC作為鋰離子電池負極材料之電化學表現 (Improved Electrochemical Performance of Polymer Derived SiOC by Adding Cross-linking Agent as Anode Materials for LIB) | NTHU NDLTD | 碩 | 2.02 |
鋰離子電池(Lithium Ion Battery)、負極(Anode)、SiOC(SiOC)、高分子衍生(Polymer Derived)、交聯(Cross-linking) 鋰離子電池... | ||||
| 109 | 聚乙二醇 ... 聚乙二醇 Li1.3Al0.3Ti1.7(PO4)3複合材料作為半固態鋰離子電池的固態電解質之電化學性能研究 (PEO/Li1.3Al0.3Ti1.7(PO4)3 Composite Solid Electrolyte for Hybrid Solid-state Lithium-ion Batteries) | NTHU NDLTD | 碩 | 2.02 |
半固態鋰電池(Hybrid solid-state lithium-ion battery)、固態電解質(Solid state electrolyte)、複合性固態電解質(Composite solid electrolytet) 半固態鋰電... | ||||
| 109 | 共摻雜鐵、... 共摻雜鐵、鋅來改善磷酸鋰鈷作為鋰離子電池陰極材料的電化學表現 (Improved Electrochemical Performance of Fe-Zn co-doped LiCoPO4 as Cathode Material for Lithium Ion Battery) | NTHU NDLTD | 碩(外籍生) | 2.45 |
鋰離子電池(Lithium Ion Battery)、陰極材料(Cathode Material)、磷酸鋰鈷(LiCoPO4)、摻雜(Co-Doping) 鋰離子電池... | ||||
| 108 | 熱解溫度與... 熱解溫度與升溫速率對高分子衍生SiOC之影響以及其在鋰離子電池負極材料之應用 (Effects of Pyrolysis Temperatures and Heating Rates on Polymer Derived SiOC as Anode Materials of LIB) | NTHU NDLTD | 碩 | 2.00 |
高分子衍伸陶瓷材料(Polymer derived)、矽氧碳複合材料(Silicone)、非結晶碳(Si-O-C composite)、高電容表現(amorphous carbon)、鋰離子負極材料(anode materials of LIB)、矽利康(high capacities performance) 高分子衍伸... | ||||
| 108 | 鈷碳複合材... 鈷碳複合材作為鋰硫電池添加劑之電性改善探討 (Improving Polysulfide Redox Reactions in Lithium Sulfur Batteries by Cobalt-Carbon Composites) | NTHU NDLTD | 碩 | 2.00 |
鋰硫電池(Lithium-sulfur battery)、硫梭效應(catalytic effect)、鈷金屬(cobalt)、含氟電解液(fluorine-containing electrolyte)、催化效應(shuttle-effect) 鋰硫電池(... | ||||
| 107 | 以創新的二... 以創新的二氧化矽塗層方法改善磷酸鋰鈷作為鋰離子電池陰極材料的電化學表現 (Improved Electrochemical Performance of LiCoPO4 as Cathode Material for Li Ion Battery by a New Process of SiO2 Coating) | NTHU NDLTD | 碩 | 1.99 |
電池(battery)、陰極(cathode)、二氧化矽(SiO2)、塗層(LiCoPO4)、磷酸鋰鈷(undefined) 電池(ba... | ||||
| 107 | 釩離子摻雜... 釩離子摻雜之α- Fe2O3作為鋰離子電池陽極之電化學性能研究 (Electrochemical Properties of Vanadium Doped α- Fe2O3 as an Anode Material for Li-ion Batteries) | NTHU NDLTD | 碩 | 1.99 |
鋰電池(Fe2O3)、鋰離子電池陽極(Vanadium-doped)、氧化鐵(Anode)、摻雜(Batteries)、釩離子摻雜(undefined) 鋰電池(F... | ||||
| 107 | 金屬有機網... 金屬有機網絡衍生二硫化鈷於超電容之應用 (Application of Metal Organic Framework Derived Cobalt Sulfide in Supercapacitors) | NTHU NDLTD | 碩 | 1.99 |
金屬有機網絡(Metal-organic framework)、二硫化鈷(Cobalt sulfide)、超電容(Supercapacitor)、擬電容(Pseudocapacitor) 金屬有機網... | ||||
| 107 | 探討銅摻雜... 探討銅摻雜對層狀P2- Na0.67Mn0.7-xNi0.3CuxO2 之電性影響 (Effects of Cu doping on the Electrochemical Properties of P2 Layered Type Oxides, Na0.67Mn0.7-xNi0.3CuxO2) | NTHU NDLTD | 碩 | 3.46 |
二次電池(Sodium)、鈉電池(Ion)、層狀氧化物(Battery) 二次電池(... | ||||
| 106 | 使用鋰離子... 使用鋰離子導體Li6.28Al0.24La3Zr2O12作為鋰硫電池的正極添加物及阻隔層之電化學性能研究 (Investigation of the Electorchemical Properties of Lithium-Sulfur Batteries Using Ionic Conductor Li6.28Al0.24La3Zr2O12 as Additive in Cathode or Interlayer) | NTHU NDLTD | 碩 | 2.00 |
鋰硫電池(Li-S battery)、石榴石型鋰離子導體(garnet-type lithiunm ion conductor)、阻隔層(interlayer)、正極添加物(cathode additive) 鋰硫電池(... | ||||
| 106 | 利用塗層改... 利用塗層改善層狀結構鈉離子電池 P2- Na0.67Ni0.3Mn0.6Cu0.1O2電化學性質 (Effect of Surface Coating on the electrochemical properties of SIB with layer typed P2-Na0.67Ni0.3Mn0.6Cu0.1O2) | NTHU NDLTD | 碩 | 2.00 |
鈉離子電池(Na-ion battery)、摻雜(doping)、包覆(coating) 鈉離子電池... | ||||
| 106 | 共摻雜鐵、... 共摻雜鐵、鈷、鎂來改善磷酸鋰錳作為鋰離子電池陰極材料的電化學表現 (Improved Electrochemical Performance of LiMnPO4 as Cathode Material for Li Ion Battery by co-doping Fe-Co-Mg) | NTHU NDLTD | 碩 | 2.00 |
鋰離子電池(LiMnPO4)、磷酸鋰錳(co-doping)、共摻雜(Li-ion battery) 鋰離子電池... | ||||
| 105 | 以二硫化鈷... 以二硫化鈷作為鋰硫電池添加劑之電化學性能研究 (Electrochemical Performance of Lithium-Sulfur Cell by Addition of Cobalt Disulfide) | NTHU NDLTD | 碩 | 1.97 |
鋰硫電池(Lithium-Sulfur)、過渡金屬硫化物(transition metal sulfide)、二硫化鈷(cobalt disulfide) 鋰硫電池(... | ||||
| 105 | 以Li1.... 以Li1.3Al0.3Ti1.7(PO4)3作為鋰硫電池阻隔層及固態電解質之電化學性質研究 (Investigation of Electrochemical Properties of Using Li1.3Al0.3Ti1.7(PO4)3 as Interlayer and Solid Electrolyte in Lithium-Sulfur Cell) | NTHU NDLTD | 碩 | 1.97 |
鋰硫電池(Lithium sulfur cell)、固態電解質(solid electrolyte)、電化學(LATP) 鋰硫電池(... | ||||
| 105 | 探討不同離... 探討不同離子摻雜對於氧化鐵鋅之電化學性質影響 (Electrochemical Performance of ZnFe2O4 with Various Ions Doping) | NTHU NDLTD | 碩 | 1.97 |
鋰離子電池(Li-ionbatteries)、陽極材料(anode)、複合金屬氧化物(mixedmetaloxide)、離子摻雜(iondoping) 鋰離子電池... | ||||
| 104 | 探討以溶膠... 探討以溶膠凝膠法結合固態燒結法合成的陰極材料Li2CoPO4F之電性表現 (Investigation on electrochemical performance of Li2CoPO4F cathode material produced by sol-gel method combining with solid-state method) | NTHU NDLTD | 碩 | 無口試日期 |
鋰離子電池(Lithium ion battery)、高電壓陰極材料(High-voltage cathode material)、氟磷酸鈷二鋰(Cobalt fluorophosphate) 鋰離子電池... | ||||
| 104 | 以溶液凝膠... 以溶液凝膠法製備矽酸鋰錳添加磷酸鋰錳材料 (1-x)Li2MnSiO4‧xLiMnPO4並探討其電性表現 (Investigation of Electrical Performance of (1-x)Li2MnSiO4‧xLiMnPO4 Synthesized by Sol-gel Process) | NTHU NDLTD | 碩 | 無口試日期 |
鋰離子電池(lithium ion battery) 鋰離子電池... | ||||
| 104 | 水熱法製備... 水熱法製備鋰離子電池之陰極材料LiCoPO4 (Hydrothermal Synthesis of LiCoPO4 Particles as Cathode Materials for Lithium Ion Batteries) | NTHU NDLTD | 碩(外籍生) | 無口試日期 |
磷酸鋰鈷(LiCoPO4)、水熱法(hydrothermal)、鋰離子電池(Lithium ion batteries) 磷酸鋰鈷(... | ||||
| 104 | 銳鈦礦二氧... 銳鈦礦二氧化鈦/碳殼層結構應用於鋰硫電池電化學特性之研究 (Investigation of Electrochemical Properties of Anatase TiO2/Carbon Shell Structure Applied to Lithium-Sulfur Batteries) | NTHU NDLTD | 碩 | 無口試日期 |
鋰硫電池(Lithium sulfur batteries)、殼層結構(Shell structure)、二氧化鈦(TiO2)、碳硫複合材料(Carbon sulfur composite materials) 鋰硫電池(... | ||||
| 104 | 探討Ti4... 探討Ti4O7導電金屬氧化物之添加增進單質硫與碳硫複合材系統下鋰硫電池充放電性能之研究 (Investigation of Electrochemical Performance of Lithium-Sulfur Cell by Addition of Ti4O7 Conductive Metal Oxide) | NTHU NDLTD | 碩 | 無口試日期 |
鋰硫電池(Lithium sulfur)、亞氧化鈦(Ti4O7)、金屬氧化物(Conductive metal oxide) 鋰硫電池(... | ||||
| 104 | 水熱法合成... 水熱法合成LiMnPO4奈米粒子與摻雜效應之電化學性質研究 (Investigation of Electrochemical Performance of LiMnPO4 Nanoparticles Synthesized by Solvothermal Process and Effects of Doping) | NTHU NDLTD | 碩 | 無口試日期 |
鋰離子電池(Lithium-Ion Batteries)、磷酸鋰錳(LiMnPO4)、水熱法(Solvothermal)、摻雜(Doping) 鋰離子電池... | ||||
| 102 | PVdF比... PVdF比例及白金粒子對鋰空氣電池的電性表現影響 (Influence of Pt Nanoparticles and Fraction of PVdF on the Electrochemical Performance of Lithium Air Battery) | NTHU NDLTD | 碩 | 無口試日期 |
電池、鋰空氣電池、石墨烯 電池、鋰空... | ||||
| 102 | 以田口法最... 以田口法最佳化多孔矽奈米粉末合成參數以改善鋰離子電池陽極材料充放電性質 (Using Taguchi method to optimize the synthesis processes of porous silicon nanoparticles as anode materials for lithium ion batteries.) | NTHU NDLTD | 碩 | 無口試日期 |
鋰離子電池、矽基陽極、田口法、多孔奈米材料 鋰離子電池... | ||||
| 102 | 探討以溶膠... 探討以溶膠凝膠法合成之部分取代LiNi1-xFexPO4、LiMn1-xCoxPO4 正極材料及其電性表現 (Investigation of electrical performance of LiNi1-xFexPO4 and LiMn1-xCoxPO4 cathode material prepared through sol gel synthesis) | NTHU NDLTD | 碩 | 無口試日期 |
磷酸鋰鹽(LiNiPO4)、溶膠凝膠法(LiMnPO4)、鋰電池正極材料(sol-gel method) 磷酸鋰鹽(... | ||||
| 101 | 以水熱、共... 以水熱、共沉法二步驟製備富鋰錳基正極材料x Li2MnO3.(1-x)LiNi1/3Co1/3Mn1/3O2之電性表現 (Investigation of Electrical Performance of x Li2MnO3.(1-x)LiMO2(M=Ni,Co,Mn) Prepared through a Two-stage Process of Co-precipitation and Hydrothermal Methods) | NTHU NDLTD | 碩 | 無口試日期 |
富鋰材料、共沉法、水熱法 富鋰材料、... | ||||
| 101 | 二氧化鈦奈... 二氧化鈦奈米柱成長於矽與導電玻璃FTO之光水解分析 (Analysis of solar water splitting by titanium dioxide nanorods on silicon and FTO substrates.) | NTHU NDLTD | 碩 | 無口試日期 |
二氧化鈦(Photoelectrochemical)、光水解(PEC)、水分解(nanorods)、奈米柱(Tio2 titanium dioxide)、矽奈米線(Rutile)、金紅石(water splitting) 二氧化鈦(... |