利用Ar/... H2 混合工作氣體之常壓電漿處理焊點製程並探討其潤濕行為分析 (Analysis of Wetting behavior in solder joint process via Ar / H2 atmospheric pressure plasma treatment)more

利用Ar/H2 混合工作氣體之常壓電漿處理焊點製程並探討其潤濕行為分析 (Analysis of Wetting behavior in solder joint process via Ar / H2 atmospheric pressure plasma treatment)

透過銲料中... 添加銀以探討對厚度小於10微米的銅鎳錫微凸點機械性能的影響 (Effect of Ag addition on the mechanical properties of Cu/Ni/Sn/Ni/Cu microbump with a sub-10 micron bump thickness)more

透過銲料中添加銀以探討對厚度小於10微米的銅鎳錫微凸點機械性能的影響 (Effect of Ag addition on the mechanical properties of Cu/Ni/Sn/Ni/Cu microbump with a sub-10 micron bump thickness)

透過電漿處... 理和pH調整提高咖啡渣溶液中的含氮物質含量 (Enhancing the nitrogen content in coffee ground solution using plasma treatment and pH adjustment)more

透過電漿處理和pH調整提高咖啡渣溶液中的含氮物質含量 (Enhancing the nitrogen content in coffee ground solution using plasma treatment and pH adjustment)

利用表面改... 質及摻雜技術應用於提升鋰離子電池材料循環穩定性及快速充放電能力 (Surface Modification and Doping Techniques Applied in Lithium-ion Battery to Improve Cycle Stability and High-rate Capability)more

利用表面改質及摻雜技術應用於提升鋰離子電池材料循環穩定性及快速充放電能力 (Surface Modification and Doping Techniques Applied in Lithium-ion Battery to Improve Cycle Stability and High-rate Capability)

矽含量添加... 對於多元鈦鋁鉻氮薄膜的高溫磨耗行為影響 (The Influence of Silicon Doping on High Temperature Tribological Performance of Multiple Component TiAlCrN Coatings)more

矽含量添加對於多元鈦鋁鉻氮薄膜的高溫磨耗行為影響 (The Influence of Silicon Doping on High Temperature Tribological Performance of Multiple Component TiAlCrN Coatings)

利用反應性... 共濺鍍探究多元氮化物硬質薄膜之微結構、機械性質、抗氧化力與高溫耐磨耗性質 (Investigating the micro-structure, mechanical properties, oxidation resistance, and high temperature wear resistance of multi-component nitride hard coatings through reactive co-sputtering)more

利用反應性共濺鍍探究多元氮化物硬質薄膜之微結構、機械性質、抗氧化力與高溫耐磨耗性質 (Investigating the micro-structure, mechanical properties, oxidation resistance, and high temperature wear resistance of multi-component nitride hard coatings through reactive co-sputtering)

硼含量對於... 多元氮化鋁鉻鈮鈦硼薄膜機械性質及氧化行為之影響 (Effect of Boron Content on the Mechanical and Oxidation Characteristics of (AlCrNbTiBx)N Multi-component Nitride Coatings)more

硼含量對於多元氮化鋁鉻鈮鈦硼薄膜機械性質及氧化行為之影響 (Effect of Boron Content on the Mechanical and Oxidation Characteristics of (AlCrNbTiBx)N Multi-component Nitride Coatings)

矽含量對於... 射頻磁控共濺鍍鍍製之鋁鉻鈮鈦鉬矽氮多元氮化物薄膜其特徵、機械性質及磨耗表現之影響 (Effect of silicon content on characteristics, mechanical properties and tribological behavior of (AlCrNbTiMoSix)N multicomponent nitride coatings fabricated by RF magnetron co-sputtering)more

矽含量對於射頻磁控共濺鍍鍍製之鋁鉻鈮鈦鉬矽氮多元氮化物薄膜其特徵、機械性質及磨耗表現之影響 (Effect of silicon content on characteristics, mechanical properties and tribological behavior of (AlCrNbTiMoSix)N multicomponent nitride coatings fabricated by RF magnetron co-sputtering)

調變鎳鋅摻... 雜之銅基板及錫銀與低溫銲料微銲點之擴散行為與機械性質分析 (Analysis of diffusion behavior and mechanical properties of Sn3.5Ag and low-temperature solder microbump on Cu substrates via Ni or Zn doping)more

調變鎳鋅摻雜之銅基板及錫銀與低溫銲料微銲點之擴散行為與機械性質分析 (Analysis of diffusion behavior and mechanical properties of Sn3.5Ag and low-temperature solder microbump on Cu substrates via Ni or Zn doping)

透過鎳摻雜... 與溫度梯度之雙重效應以優化先進封裝中錫銀銅暫態液相接點之晶粒微結構 (Optimizing Grain Micro-Structure of Sn-Ag-Cu Transient Liquid Phase Bonding in Advanced Package via the Dual Effect of Ni Addition and Temperature Gradient)more

透過鎳摻雜與溫度梯度之雙重效應以優化先進封裝中錫銀銅暫態液相接點之晶粒微結構 (Optimizing Grain Micro-Structure of Sn-Ag-Cu Transient Liquid Phase Bonding in Advanced Package via the Dual Effect of Ni Addition and Temperature Gradient)

氮化鋯鈦/... 氮化鈮奈米多層膜之磊晶生長對於薄膜機械性質與磨耗行為之影響 (Nano-scale mechanical characteristics and tribological performance in epitaxial stabilization ZrTiN/NbN superlattice coatings)more

氮化鋯鈦/氮化鈮奈米多層膜之磊晶生長對於薄膜機械性質與磨耗行為之影響 (Nano-scale mechanical characteristics and tribological performance in epitaxial stabilization ZrTiN/NbN superlattice coatings)

以高分子強... 化微米級矽基負極之機械性質與導電性於鋰離子電池之應用 (Polymeric Approach for High Performance Micrometer-sized Silicon Anode in Li-ion Batteries with Enhanced Mechanical Properties and Conductivity)more

以高分子強化微米級矽基負極之機械性質與導電性於鋰離子電池之應用 (Polymeric Approach for High Performance Micrometer-sized Silicon Anode in Li-ion Batteries with Enhanced Mechanical Properties and Conductivity)

利用廢稻稈... 合成碳纖維及碳包覆結構設計提升廢料矽於鋰離子電池負極之電化學性能 (Enhancing Electrochemical Performance of Silicon Waste through Carbon Coating and Biomass-derived CNF Modified Structure for Lithium-ion Battery Anode)more

利用廢稻稈合成碳纖維及碳包覆結構設計提升廢料矽於鋰離子電池負極之電化學性能 (Enhancing Electrochemical Performance of Silicon Waste through Carbon Coating and Biomass-derived CNF Modified Structure for Lithium-ion Battery Anode)

鋁鉻鈮鈦硼... 多元氮化物塗層的機械和高溫磨耗性質評估 (Mechanical and High Temperature Tribological Properties of (AlCrNbTiB)N Multicomponent Nitride Coatings)more

鋁鉻鈮鈦硼多元氮化物塗層的機械和高溫磨耗性質評估 (Mechanical and High Temperature Tribological Properties of (AlCrNbTiB)N Multicomponent Nitride Coatings)

調控氮化鈦... 鋁矽/氮化釩矽奈米多層薄膜之雙層週期以強化系統之機械性質及抗高溫磨耗特徵 (Improving the Mechanical and High Temperature Tribological Characteristics of Self-lubricating TiAlSiN/VSiN Multilayer Nitride Coatings via Tuning Bilayer Period)more

調控氮化鈦鋁矽/氮化釩矽奈米多層薄膜之雙層週期以強化系統之機械性質及抗高溫磨耗特徵 (Improving the Mechanical and High Temperature Tribological Characteristics of Self-lubricating TiAlSiN/VSiN Multilayer Nitride Coatings via Tuning Bilayer Period)

調變鍍製參... 數以提昇高熵鉻鋁鈮矽釩氮薄膜硬度並應用於高溫耐磨耗領域 (Improving the hardness of high entropy nitride (Cr0.35Al0.25Nb0.12Si0.08V0.20)N coatings via tuning processing parameters for anti-wear applications)more

調變鍍製參數以提昇高熵鉻鋁鈮矽釩氮薄膜硬度並應用於高溫耐磨耗領域 (Improving the hardness of high entropy nitride (Cr0.35Al0.25Nb0.12Si0.08V0.20)N coatings via tuning processing parameters for anti-wear applications)

金屬中間層... 厚度與材料選擇對於改善高熵鉻鋁鈮矽釩氮薄膜磨耗行為之影響 (The influence of material selection and tuning metallic layer thickness on the tribological performance improvement of high-entropy alloy (Cr0.35Al0.25Nb0.12Si0.08V0.20)N coating)more

金屬中間層厚度與材料選擇對於改善高熵鉻鋁鈮矽釩氮薄膜磨耗行為之影響 (The influence of material selection and tuning metallic layer thickness on the tribological performance improvement of high-entropy alloy (Cr0.35Al0.25Nb0.12Si0.08V0.20)N coating)

硼摻雜石墨... 烯與廢料矽複合材料提升鋰離子電池負極之電化學性能 (Optimized Electrochemical Performance of Boron-doped Graphene/Recycling Silicon Composite for Lithium-ion Battery Anode)more

硼摻雜石墨烯與廢料矽複合材料提升鋰離子電池負極之電化學性能 (Optimized Electrochemical Performance of Boron-doped Graphene/Recycling Silicon Composite for Lithium-ion Battery Anode)

透過鎳摻雜... 之銲料與鎳濺鍍之銅基板優化三維封裝中錫銀銅微銲點之晶粒結構 (Optimizing grain structure of Sn-Ag-Cu microbump in 3D package via Ni-doped solder and Ni-sputtered Cu substrate)more

透過鎳摻雜之銲料與鎳濺鍍之銅基板優化三維封裝中錫銀銅微銲點之晶粒結構 (Optimizing grain structure of Sn-Ag-Cu microbump in 3D package via Ni-doped solder and Ni-sputtered Cu substrate)

優化物理氣... 相沉積薄膜介面於半導體、仿生材料及生醫領域 (Optimizing interfaces upon semi-conductor, bio-mimetic, and bio-medical materials through controlling parameters of PVD and composition of thin films)more

優化物理氣相沉積薄膜介面於半導體、仿生材料及生醫領域 (Optimizing interfaces upon semi-conductor, bio-mimetic, and bio-medical materials through controlling parameters of PVD and composition of thin films)

利用氧化還... 原輔助合成具表面氧化改質之高鎳三元鎳鈷錳鋰離子電池正極材料 (Redox-assisted Synthesis and Surface Oxidation for Ni-Rich NCM Cathode Applied in Lithium ion Batteries)more

利用氧化還原輔助合成具表面氧化改質之高鎳三元鎳鈷錳鋰離子電池正極材料 (Redox-assisted Synthesis and Surface Oxidation for Ni-Rich NCM Cathode Applied in Lithium ion Batteries)

於三維封裝... 技術中以鎳、鋅添加、晶粒改造及擴散控制強化電子構裝之機械可靠度 (Enhancing the Mechanical Reliability of Electronic Packaging via Ni, Zn Doping, Grain Modification and Diffusion Control in 3D-IC Technology)more

於三維封裝技術中以鎳、鋅添加、晶粒改造及擴散控制強化電子構裝之機械可靠度 (Enhancing the Mechanical Reliability of Electronic Packaging via Ni, Zn Doping, Grain Modification and Diffusion Control in 3D-IC Technology)

鋁鉻鈮矽鈦... 鉬氮高熵氮化物薄膜的機械與高溫磨耗性質之改善 (Improvement of High Entropy Alloy Nitride Coatings (AlCrNbSiTiMo)N on Mechanical and High Temperature Tribological Properties)more

鋁鉻鈮矽鈦鉬氮高熵氮化物薄膜的機械與高溫磨耗性質之改善 (Improvement of High Entropy Alloy Nitride Coatings (AlCrNbSiTiMo)N on Mechanical and High Temperature Tribological Properties)

使用銅核球... 或摻雜鎳之錫銀銅銲球之電子構裝銲點微結構分析及其對於力、熱、電測試的可靠度評估 (Revealing the microstructure evolution and evaluating the mechanical, thermal, and electrical reliability of electronic packaging jointed with Ni-modified SAC solder or Cu-cored solder balls)more

使用銅核球或摻雜鎳之錫銀銅銲球之電子構裝銲點微結構分析及其對於力、熱、電測試的可靠度評估 (Revealing the microstructure evolution and evaluating the mechanical, thermal, and electrical reliability of electronic packaging jointed with Ni-modified SAC solder or Cu-cored solder balls)

利用介電質... 屏蔽放電電漿對磷酸鋰鐵錳正極材料表面碳層進行氮摻雜以提高其電化學性能 (Improving the electrochemical performance of LiMn0.8Fe0.2PO4 cathode with nitrogen doped carbon via dielectric barrier discharge plasma)more

利用介電質屏蔽放電電漿對磷酸鋰鐵錳正極材料表面碳層進行氮摻雜以提高其電化學性能 (Improving the electrochemical performance of LiMn0.8Fe0.2PO4 cathode with nitrogen doped carbon via dielectric barrier discharge plasma)

探討焊料中... 銀含量及新穎銅鋅合金底層金屬對於微焊點微結構與機械性質之影響 (Investigating the Effect of Ag Contents and Novel Cu-Zn Under Bump Metallization on the Microstructure and Mechanical Properties of Micro-Ball Grid Array Solder Joints)more

探討焊料中銀含量及新穎銅鋅合金底層金屬對於微焊點微結構與機械性質之影響 (Investigating the Effect of Ag Contents and Novel Cu-Zn Under Bump Metallization on the Microstructure and Mechanical Properties of Micro-Ball Grid Array Solder Joints)

利用鋅修飾... 鋰鎳鈷鋁氧層狀正極材料以提高結構穩定性及鋰離子電池之電化學性能 (Improving Structural Stability and Electrochemical Properties via Zn-Modified Layered Structure of LiNi0.8Co0.15Al0.05O2 Cathode Material for Lithium Ion Batteries)more

利用鋅修飾鋰鎳鈷鋁氧層狀正極材料以提高結構穩定性及鋰離子電池之電化學性能 (Improving Structural Stability and Electrochemical Properties via Zn-Modified Layered Structure of LiNi0.8Co0.15Al0.05O2 Cathode Material for Lithium Ion Batteries)

利用鎳摻雜... 方法改質三維立體封裝中錫銀銅銲點之微觀結構、晶相特徵及改善可靠度 (Microstructure Evolution, Crystallographic Characterization and Reliability Improvement of Solder Bumps in 3D-IC Packages via Ni-doped Sn-Ag-Cu Solder Alloy)more

利用鎳摻雜方法改質三維立體封裝中錫銀銅銲點之微觀結構、晶相特徵及改善可靠度 (Microstructure Evolution, Crystallographic Characterization and Reliability Improvement of Solder Bumps in 3D-IC Packages via Ni-doped Sn-Ag-Cu Solder Alloy)

利用濺鍍製... 程優化鋰離子電池的介面以提升下一代全固態電池的適用性 (Optimizing interface of lithium-ion battery through sputtering fabrication to enhance the applicability of next-generation all-solid-state batteries)more

利用濺鍍製程優化鋰離子電池的介面以提升下一代全固態電池的適用性 (Optimizing interface of lithium-ion battery through sputtering fabrication to enhance the applicability of next-generation all-solid-state batteries)

利用快速熱... 處理製程提升廢料矽於鋰離子電池負極之電化學性能 (Enhanced Electrochemical Performance of Waste Silicon via Rapid Thermal Process for Lithium-ion Battery Anode)more

利用快速熱處理製程提升廢料矽於鋰離子電池負極之電化學性能 (Enhanced Electrochemical Performance of Waste Silicon via Rapid Thermal Process for Lithium-ion Battery Anode)

利用新穎製... 程和金屬摻雜提升二氧化鈦負極材料及磷酸鋰錳正極材料於高功率鋰離子電池之應用潛力 (Exploration of TiO2 Anode Materials and LiMnPO4 Cathode Materials through Novel Fabrication Method and Cation Substitution for High-rate Li-ion Batteries)more

利用新穎製程和金屬摻雜提升二氧化鈦負極材料及磷酸鋰錳正極材料於高功率鋰離子電池之應用潛力 (Exploration of TiO2 Anode Materials and LiMnPO4 Cathode Materials through Novel Fabrication Method and Cation Substitution for High-rate Li-ion Batteries)

仿生概念整... 合奈米多層薄膜應用於鉻鉬矽氮四元系統進行機械性質與高溫磨耗性質及磨潤特性之優化 (Improvement of Mechanical, High Temperature Tribological and Lubricating Properties by Biomimetic Nano-multilayered Architecture Approach in Cr-Mo-Si-N System)more

仿生概念整合奈米多層薄膜應用於鉻鉬矽氮四元系統進行機械性質與高溫磨耗性質及磨潤特性之優化 (Improvement of Mechanical, High Temperature Tribological and Lubricating Properties by Biomimetic Nano-multilayered Architecture Approach in Cr-Mo-Si-N System)

利用鈮摻雜... 二氧化鈦添加層對多硫化物之化學吸附以提高鋰硫電池電化學性能 (Improving the Electrochemical Performance of Lithium–Sulfur Batteries Using an Nb-Doped TiO2 Additive Layer for the Chemisorption of Lithium Polysulfides)more

利用鈮摻雜二氧化鈦添加層對多硫化物之化學吸附以提高鋰硫電池電化學性能 (Improving the Electrochemical Performance of Lithium–Sulfur Batteries Using an Nb-Doped TiO2 Additive Layer for the Chemisorption of Lithium Polysulfides)

藉由鉬之添... 加以改善鉻鋁矽氮奈米複合晶薄膜的高溫磨耗性質 (Improving high-temperature tribological characteristics in CrAlSiN nanocomposite coating by Mo doping)more

藉由鉬之添加以改善鉻鋁矽氮奈米複合晶薄膜的高溫磨耗性質 (Improving high-temperature tribological characteristics in CrAlSiN nanocomposite coating by Mo doping)

仿生氧化矽... /聚亞醯安鋰離子電池多層 薄膜負極之電化學性質探討 (Electrochemical Properties of Bio-inspired SiOx/PI Multilayered Thin Film Anode for Lithium Ion Batteries)more

仿生氧化矽/聚亞醯安鋰離子電池多層 薄膜負極之電化學性質探討 (Electrochemical Properties of Bio-inspired SiOx/PI Multilayered Thin Film Anode for Lithium Ion Batteries)

探討奈米複... 合晶鉻鉬矽氮薄膜高溫磨耗行為及田口法製程優化提升薄膜強度與抗磨耗性能 (Exploration of High Temperature Tribological Characteristics of CrMoSiN Nanocomposite Coating and Process Optimization by Taguchi Method for Mechanical and Tribological Properties Improvement)more

探討奈米複合晶鉻鉬矽氮薄膜高溫磨耗行為及田口法製程優化提升薄膜強度與抗磨耗性能 (Exploration of High Temperature Tribological Characteristics of CrMoSiN Nanocomposite Coating and Process Optimization by Taguchi Method for Mechanical and Tribological Properties Improvement)

以成分控制... 與田口實驗規劃法開發多功能之 Zr-Cu基金屬玻璃薄膜 (The Exploration of Zr-Cu-based Thin Film Metallic Glass by Compositional Control and Taguchi Design of Experiment Method)more

以成分控制與田口實驗規劃法開發多功能之 Zr-Cu基金屬玻璃薄膜 (The Exploration of Zr-Cu-based Thin Film Metallic Glass by Compositional Control and Taguchi Design of Experiment Method)

FePd及... FePd/IrMn薄膜晶體結構與磁性質之研究 (Crystallographic and magnetic properties of FePd and FePd/IrMn films)more

FePd及FePd/IrMn薄膜晶體結構與磁性質之研究 (Crystallographic and magnetic properties of FePd and FePd/IrMn films)

錫銀銅鎳銲... 料與三維封裝中錫銀微銲點接合新穎銅鋅底層金屬後之微觀結構、晶粒方向性及可靠度測試 (Microstructure Evolution, Grain Orientation and Reliability Test of SnAgCu-Ni Solder and SnAg Micro-bump with Novel Cu-Zn Under Bump Metallurgy)more

錫銀銅鎳銲料與三維封裝中錫銀微銲點接合新穎銅鋅底層金屬後之微觀結構、晶粒方向性及可靠度測試 (Microstructure Evolution, Grain Orientation and Reliability Test of SnAgCu-Ni Solder and SnAg Micro-bump with Novel Cu-Zn Under Bump Metallurgy)

應用於鋰離... 子電池之錳系高工作電壓尖晶石正極材料與高電容量富鋰層狀氧化物之合成機制、結構分析與電化學性能探討 (Development of Manganese-Based High Voltage Spinel and High Capacity Li-rich Layered Oxides for Improving Rate Capability as High Performance Cathode Materials in Lithium Ion Battery)more

應用於鋰離子電池之錳系高工作電壓尖晶石正極材料與高電容量富鋰層狀氧化物之合成機制、結構分析與電化學性能探討 (Development of Manganese-Based High Voltage Spinel and High Capacity Li-rich Layered Oxides for Improving Rate Capability as High Performance Cathode Materials in Lithium Ion Battery)

藉改變銅/... 錫銀/鎳微凸塊系統之金屬基材接合順序以調控介金屬化合物的相生成及演變機制 (Evolution of Intermetallic Compounds, Phase Transformation and the Interfacial Reaction Modified by the Bonding Order of the Under Bump Metallization in Cu/Sn-Ag/Ni Micro-bump)more

藉改變銅/錫銀/鎳微凸塊系統之金屬基材接合順序以調控介金屬化合物的相生成及演變機制 (Evolution of Intermetallic Compounds, Phase Transformation and the Interfacial Reaction Modified by the Bonding Order of the Under Bump Metallization in Cu/Sn-Ag/Ni Micro-bump)

廢料之復活... ： 利用鍍膜及電漿表面改質技術於回收矽/碳化矽之複合材 與其鋰離子電池之應用 (A Revival of Waste: Surface Modification via Coating and Plasma Jet in Recycled Si/SiC Composite for Lithium Ion Batteries)more

廢料之復活： 利用鍍膜及電漿表面改質技術於回收矽/碳化矽之複合材 與其鋰離子電池之應用 (A Revival of Waste: Surface Modification via Coating and Plasma Jet in Recycled Si/SiC Composite for Lithium Ion Batteries)

以表面改質... 和奈米複合材料提升高功率型鈦酸鋰鋰離子負極材料 (Improving Cycling Performance of Spinel Lithium Titanate Anode Materials by Surface Modification and Composite Material for High Power Lithium-ion Batteries)more

以表面改質和奈米複合材料提升高功率型鈦酸鋰鋰離子負極材料 (Improving Cycling Performance of Spinel Lithium Titanate Anode Materials by Surface Modification and Composite Material for High Power Lithium-ion Batteries)

以複合鍍膜... 系統製備仿生二氧化鈦/聚亞醯安多層薄膜之強化機制與多功能性質探討 (Toughening Mechanisms and Multi-functionalities of Bio-inspired Titanium dioxide/Polyimide Multilayered Coatings via Hybrid Deposition)more

以複合鍍膜系統製備仿生二氧化鈦/聚亞醯安多層薄膜之強化機制與多功能性質探討 (Toughening Mechanisms and Multi-functionalities of Bio-inspired Titanium dioxide/Polyimide Multilayered Coatings via Hybrid Deposition)

利用快速熱... 處理晶圓廢料回收之微米矽 並應用於鋰離子電池負極材料 (Processing Silicon Microparticles Recycled from Wafer Waste via Rapid Thermal Process for Lithium-ion Battery Anode Materials)more

利用快速熱處理晶圓廢料回收之微米矽 並應用於鋰離子電池負極材料 (Processing Silicon Microparticles Recycled from Wafer Waste via Rapid Thermal Process for Lithium-ion Battery Anode Materials)

利用常壓電... 漿束對鋰離子電池負極ZnCo2O4材料進行氮摻雜和碳沉積 (Rapid Nitrogen Doping and Carbon Deposition of ZnCo2O4 Lithium-ion Battery Anode via Atmospheric Pressure Plasma Jet)more

利用常壓電漿束對鋰離子電池負極ZnCo2O4材料進行氮摻雜和碳沉積 (Rapid Nitrogen Doping and Carbon Deposition of ZnCo2O4 Lithium-ion Battery Anode via Atmospheric Pressure Plasma Jet)

Micro... structure Control in Self-lubricating CrAlN/VN Multilayer Coatings for Improved Mechanical Response and High-temperature Tribological Characteristics (藉結構調制具自潤滑之氮化鉻鋁/氮化釩奈米多層薄膜以強化機械性質及抗高溫磨耗特徵)more

Microstructure Control in Self-lubricating CrAlN/VN Multilayer Coatings for Improved Mechanical Response and High-temperature Tribological Characteristics (藉結構調制具自潤滑之氮化鉻鋁/氮化釩奈米多層薄膜以強化機械性質及抗高溫磨耗特徵)

鉻鋁矽氮奈... 米複合晶薄膜高溫抗磨耗特性及藉由低壓電漿滲氮改質基板與鍍膜之附著性 (Exploration of Anti-Wear CrAlSiN Nanocomposite Coating under Extreme Environment and Adhesion Improvement of Coating on Stainless Steel 304 Substrate via Low Pressure Plasma Nitridation)more

鉻鋁矽氮奈米複合晶薄膜高溫抗磨耗特性及藉由低壓電漿滲氮改質基板與鍍膜之附著性 (Exploration of Anti-Wear CrAlSiN Nanocomposite Coating under Extreme Environment and Adhesion Improvement of Coating on Stainless Steel 304 Substrate via Low Pressure Plasma Nitridation)

利用常壓電... 漿對鋰電池負極材料進行氮摻雜以提升其電性表現 (Rapid Nitrogen-doping in Lithium-ion Battery Anodes via Atmospheric Pressure Plasma Treatment for Enhanced Electrochemical Performances)more

利用常壓電漿對鋰電池負極材料進行氮摻雜以提升其電性表現 (Rapid Nitrogen-doping in Lithium-ion Battery Anodes via Atmospheric Pressure Plasma Treatment for Enhanced Electrochemical Performances)

利用介電質... 平板式常壓電漿改質聚對苯二甲酸乙二醇酯和乙烯-四氟化乙烯聚酯物以提升其表面生物相容性 (Enhancing the Biocompatibility of PET and ETFE via Atmospheric Dielectric Barrier Discharge Surface Modification)more

利用介電質平板式常壓電漿改質聚對苯二甲酸乙二醇酯和乙烯-四氟化乙烯聚酯物以提升其表面生物相容性 (Enhancing the Biocompatibility of PET and ETFE via Atmospheric Dielectric Barrier Discharge Surface Modification)

高功率鋰離... 子電池LiNi0.5Mn1.5O4正極材料與黏結劑結合之電化學性質改良 (Electrochemical Characteristics of LiNi0.5Mn1.5O4 Cathode Material Incorporated with Different Binders for High Power Lithium-ion Battery)more

高功率鋰離子電池LiNi0.5Mn1.5O4正極材料與黏結劑結合之電化學性質改良 (Electrochemical Characteristics of LiNi0.5Mn1.5O4 Cathode Material Incorporated with Different Binders for High Power Lithium-ion Battery)

開發新穎製... 程且具實用性之高性能二次鋰離子電池矽基負極材料 (Achieving High Performance Silicon-based Anodes by Innovative and Practical Evolutions for Lithium-ion Batteries)more

開發新穎製程且具實用性之高性能二次鋰離子電池矽基負極材料 (Achieving High Performance Silicon-based Anodes by Innovative and Practical Evolutions for Lithium-ion Batteries)

經由氣氛控... 制與碳披覆之鈦酸鋰的電化學特性與其在高功率鋰離子電池的應用 (Electrochemical Characteristics of Carbon-assisted Lithium Titanate with Atmosphere Control for High-power Lithium-ion Batteries)more

經由氣氛控制與碳披覆之鈦酸鋰的電化學特性與其在高功率鋰離子電池的應用 (Electrochemical Characteristics of Carbon-assisted Lithium Titanate with Atmosphere Control for High-power Lithium-ion Batteries)

迴銲後期熱... 處理對錫銀銅銲接點衝擊可靠度、銲料微結構及錫結構方向性之影響 (Effects of Thermal Annealing during the Post-Reflow Process on Microstructure, Tin Crystallography, and Impact Reliability of Sn-Ag-Cu Solder Joints)more

迴銲後期熱處理對錫銀銅銲接點衝擊可靠度、銲料微結構及錫結構方向性之影響 (Effects of Thermal Annealing during the Post-Reflow Process on Microstructure, Tin Crystallography, and Impact Reliability of Sn-Ag-Cu Solder Joints)

製備Sn-... Ag-Cu/Ni銲接系統的參數控制及奈米雙晶鎳薄膜對界面反應的影響 (Operational parameter control in the fabrication of Sn-Ag-Cu/Ni joint and the effect of nanotwinned Ni film on the interfacial reaction)more

製備Sn-Ag-Cu/Ni銲接系統的參數控制及奈米雙晶鎳薄膜對界面反應的影響 (Operational parameter control in the fabrication of Sn-Ag-Cu/Ni joint and the effect of nanotwinned Ni film on the interfacial reaction)