Tsan‐Yao Chen
Исм вариантлари: Tsan-Yao Chen
- Сўнгги маълум муассаса:
- Division of Materials Science and Engineering
- ORCID:
- 0000-0002-6431-715X
4
h-индекс
0
i10-индекси
59
Иқтибослар
34
Асарлар
Вақт бўйича
Вақт бўйича таҳлил
Иқтибос шарҳи
Йиллар бўйича нашрлар (устун) ва иқтибослар (чизиқ)
- Нашрлар
- Иқтибослар
Иқтибос тарихи
Нашр тарихи
h-индекс эволюцияси
Йиллар бўйича жамланган h-индекс
Энг кўп иқтибос қилинган асарлар
- Atomic scale Pt decoration promises oxygen reduction properties of Co@Pd nanocatalysts in alkaline electrolytes for 310k redox cycles20175 иқтибос
- Gold atomic clusters extracting the valence electrons to shield the carbon monoxide passivation on near-monolayer core–shell nanocatalysts in methanol oxidation reactions20154 иқтибос
- Pt<sub>3</sub>clusters-decorated Co@Pd and Ni@Pd model core–shell catalyst design for the oxygen reduction reaction: a DFT study20182 иқтибос
- Effects of Pt metal loading on the atomic restructure and oxygen reduction reaction performance of Pt-cluster decorated Cu@Pd electrocatalysts20191 иқтибос
- Local synergetic collaboration between Pd and local tetrahedral symmetric Ni oxide enables ultra-high-performance CO<sub>2</sub> thermal methanation20201 иқтибос
- Heterogeneous assembly of Pt-clusters on hierarchically structured CoO<sub>x</sub>@SnPd<sub>2</sub>@SnO<sub>2</sub> quaternary nanocatalysts manifesting oxygen reduction reaction performance20201 иқтибос
- Heterojunction confinement on the atomic structure evolution of near monolayer core–shell nanocatalysts in redox reactions of a direct methanol fuel cell20140 иқтибос
- Oxidation triggered atomic restructures enhancing the electrooxidation activities of carbon supported platinum–ruthenium catalysts20140 иқтибос
- Improving interfacial electron transfer and light harvesting in dye-sensitized solar cells by using Ag nanowire/TiO<sub>2</sub> nanoparticle composite films20150 иқтибос
- Core–shell nanocrystallite growth via heterogeneous interface manipulation20150 иқтибос