#姜永晛[超话]# #Waiting for Young K#
【D-431】220204 Spotify Korea 更新姜永晛相关一则
真正的新年从春节开始!
/Spotify_Billboard 新年祝福歌曲活动的中奖主人公是谁?
DAY6 的 小页[한 페이지가 될 수 있게]
http.s:/./t.co/a5xLhM4hM2
My Day们现在就在江南寻找
Spotify_Billboard并炫耀吧
이즈라이브, 점프밀라노, 신사역SYH빌딩
@day6official
<翻译 铭铭>
【D-431】220204 Spotify Korea 更新姜永晛相关一则
真正的新年从春节开始!
/Spotify_Billboard 新年祝福歌曲活动的中奖主人公是谁?
DAY6 的 小页[한 페이지가 될 수 있게]
http.s:/./t.co/a5xLhM4hM2
My Day们现在就在江南寻找
Spotify_Billboard并炫耀吧
이즈라이브, 점프밀라노, 신사역SYH빌딩
@day6official
<翻译 铭铭>
In honor of Lunar New Year, we're throwing it back to 2010, the last time it was the Year of the Tiger! What are some of the most interesting leaps — or similarities — to you between then and now?
...
2010: Year of the Metal Tiger
- iPhone 4 released
- 2010 Vancouver Olympics
- UW Football are Holiday Bowl Champions
- God of War III released
- Lady Gaga released "Bad Romance"
- UW Foster's Balmer Hall demolished
...
2022 (including some late 2021): Year of the Water Tiger
- iPhone 13 released
- 2022 Beijing Olympics
- UW Men's Soccer advanced to the NCAA College Cup
- God of War: Ragnarök to be released
- Lady Gaga is nominated for a BAFTA and Golden Globe for her role in "House of Gucci"
- UW Foster's main building is now Paccar Hall, with Founders Hall opening soon
#美国·University of Washington[地点]#
...
2010: Year of the Metal Tiger
- iPhone 4 released
- 2010 Vancouver Olympics
- UW Football are Holiday Bowl Champions
- God of War III released
- Lady Gaga released "Bad Romance"
- UW Foster's Balmer Hall demolished
...
2022 (including some late 2021): Year of the Water Tiger
- iPhone 13 released
- 2022 Beijing Olympics
- UW Men's Soccer advanced to the NCAA College Cup
- God of War: Ragnarök to be released
- Lady Gaga is nominated for a BAFTA and Golden Globe for her role in "House of Gucci"
- UW Foster's main building is now Paccar Hall, with Founders Hall opening soon
#美国·University of Washington[地点]#
具有MZnOS(M = Ca、Sr 或 Ba)分子式的四元硫氧化物半导体是一类新兴的发光基质材料。在这类硫氧化物中,BaZnOS的发光性质在很大程度上仍未被探索。香港城市大学王锋教授团队提出了一种高效且可重复的BaZnOS微晶合成方法,实现了多种镧系和过渡金属离子的掺杂,光谱研究揭示了掺杂离子的基质敏化发光及其发射强度的特异温度依赖性。基于这些发现,该团队进一步制备了双掺杂Pr3+和Mn2+的BaZnOS晶体,其发光颜色可随环境温度变化灵敏切换,相对灵敏度高达8.58% K–1。相关的研究成果以“Doubly Doped BaZnOS Microcrystals for Multicolor Luminescence Switching”发表在《Advanced Optical Materials》期刊上。https://t.cn/A6iKf6xo
✋热门推荐