每周一起开会的同学,就俩phd的lab,不去好像很不好…但是i人真的手足无措…不理解大家从什么地方感觉到我是个e人…脸皮薄得很…想到一个晚上都不能低头耍手机,还要站起来跳舞,啊……老外没有i人的吗…有一种邪恶的想法油然而生,比如在美国办一场婚礼,请一堆中国人,然后把我实验室这群土著塞进去…[老师好]
我mentor的master学生拿到了PhD offer
今天晚上最感人的话她说
I want to be a scientist like you
啊啊啊被现实浇灭的科研热情好像突然回来了
果然我是适合被夸夸的类型
以及酒蒙子小张重新上线
吃完饭拍的receipt都是糊的[苦涩][苦涩][苦涩][苦涩]
新加坡最大的好处就是
不会轻易喝醉因为酒太贵了
难以想象如果我在其他地方会变成怎样的酒蒙子[二哈][二哈][二哈][二哈]
今天晚上最感人的话她说
I want to be a scientist like you
啊啊啊被现实浇灭的科研热情好像突然回来了
果然我是适合被夸夸的类型
以及酒蒙子小张重新上线
吃完饭拍的receipt都是糊的[苦涩][苦涩][苦涩][苦涩]
新加坡最大的好处就是
不会轻易喝醉因为酒太贵了
难以想象如果我在其他地方会变成怎样的酒蒙子[二哈][二哈][二哈][二哈]
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Water-soluble organic nitrogen (WSON) is a key component of fine particulates (PM2.5) posing risks to health, climate, and environment. It contributes 37–50% of organic aerosols in the atmosphere. However, studies on the sources and formation mechanisms of WSON and its hazardous species were limited in Hong Kong.
, Associate Professor in the Department of Chemisty at HKBU, and her PhD student, Mr Ryan Leung, characterized 22 nitrogen-containing organic compounds (NOCs) from three major categories of WSON, i.e., amines, urea, and nitroaromatic compounds (NACs). The findings indicated that secondary sources dominated WSON formation (69.0%), whereas primary emissions had substantial contributions to NACs (77.1%), amines (75.9%), and urea (83.7%).
Read more: bityl.co/PYcN
#HKBU##HKBUScience##HKBUSCI##CHEM##Chemistry##浸会大学##浸大理学院##化学系#
Water-soluble organic nitrogen (WSON) is a key component of fine particulates (PM2.5) posing risks to health, climate, and environment. It contributes 37–50% of organic aerosols in the atmosphere. However, studies on the sources and formation mechanisms of WSON and its hazardous species were limited in Hong Kong.
, Associate Professor in the Department of Chemisty at HKBU, and her PhD student, Mr Ryan Leung, characterized 22 nitrogen-containing organic compounds (NOCs) from three major categories of WSON, i.e., amines, urea, and nitroaromatic compounds (NACs). The findings indicated that secondary sources dominated WSON formation (69.0%), whereas primary emissions had substantial contributions to NACs (77.1%), amines (75.9%), and urea (83.7%).
Read more: bityl.co/PYcN
#HKBU##HKBUScience##HKBUSCI##CHEM##Chemistry##浸会大学##浸大理学院##化学系#
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