| 61 |
응용화학공학과 |
4차 산업혁명 대응 융합형 화공소재 교육연구단 |
A remotely steerable Janus micromotor adsorbent for the active remediation of Cs-contaminated water |
2019 |
| 60 |
응용화학공학과 |
4차 산업혁명 대응 융합형 화공소재 교육연구단 |
A Convenient Dual-Side Anionic Initiator Based on 2,6-Luditine/s-Butyl Lithium |
2019 |
| 59 |
응용화학공학과 |
4차 산업혁명 대응 융합형 화공소재 교육연구단 |
Uniform distribution of siloxane-grafted SiOx nanoparticles in micron hard-carbon matrix for high-rate composite anode in Li-ion batteries |
2019 |
| 58 |
응용화학공학과 |
4차 산업혁명 대응 융합형 화공소재 교육연구단 |
Non-Flammable LiNi0.8Co0.1Mn0.1O2 Cathode via Functional Binder; Enhanced Stability of 4.4V Interface and Performance for Safe and High-Energy Lithium Rechargeable Batteries |
2019 |
| 57 |
응용화학공학과 |
4차 산업혁명 대응 융합형 화공소재 교육연구단 |
Freestanding sulfur-graphene oxide/carbon composite paper as a stable cathode for high performance lithium-sulfur batteries |
2019 |
| 56 |
응용화학공학과 |
4차 산업혁명 대응 융합형 화공소재 교육연구단 |
Enabling High-Rate and Safe Lithium Ion-Sulfur Batteries by Effective Combination of Sulfur-Copolymer Cathode and Hard-Carbon Anode |
2019 |
| 55 |
응용화학공학과 |
4차 산업혁명 대응 융합형 화공소재 교육연구단 |
Approaching the maximum capacity of nickel-rich LiNi0.8Co0.1Mn0.1O2 cathodes by charging to high-voltage in a non-flammable electrolyte of propylene carbonate and fluorinated linear carbonates |
2019 |
| 54 |
응용화학공학과 |
4차 산업혁명 대응 융합형 화공소재 교육연구단 |
ZnO-TiO2 Core-Shell NWs Decorated with Au NPs for Plasmon-Enhanced Photoelectrochemical Water Splitting |
2019 |
| 53 |
응용화학공학과 |
4차 산업혁명 대응 융합형 화공소재 교육연구단 |
Synthesis and photophysical properties of S, N and Se-modified methyl salicylate derivatives |
2019 |
| 52 |
응용화학공학과 |
4차 산업혁명 대응 융합형 화공소재 교육연구단 |
Spray drying formation of metal oxide (TiO2 or SnO2) nanoparticle coated boron particles in the form of microspheres and their physicochemical properties |
2019 |
