Z
Zongwei Cai
Researcher at Hong Kong Baptist University
Publications - 752
Citations - 22186
Zongwei Cai is an academic researcher from Hong Kong Baptist University. The author has contributed to research in topics: Mass spectrometry & Medicine. The author has an hindex of 64, co-authored 649 publications receiving 16075 citations. Previous affiliations of Zongwei Cai include University of Hong Kong & Tsinghua University.
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Adsorption mechanisms of five bisphenol analogues on PVC microplastics.
TL;DR: A positive effect of hydrophobic interactions was identified for bisphenols adsorption on PVC microplastics, but an obvious inhibition by electrostatic repulsions was revealed for BPF due to its ionization in the neutral solution.
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Environmental contamination from electronic waste recycling at Guiyu, southeast China
TL;DR: In this article, the pollution levels generated from electronic waste (e-waste) activities at Guiyu, Guangdong Province, China, and their potential impacts on the environment and human health were investigated.
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Acetate functions as an epigenetic metabolite to promote lipid synthesis under hypoxia.
Xue Gao,Shuhai Lin,Shuhai Lin,Feng Ren,Jin-Tao Li,Jiajia Chen,Chuan Bo Yao,Hong-Bin Yang,Shu Xia Jiang,Guo Quan Yan,Di Wang,Yi Wang,Ying Liu,Zongwei Cai,Ying-Ying Xu,Jing Chen,Wenqiang Yu,Pengyuan Yang,Qun-Ying Lei +18 more
TL;DR: This study demonstrates that acetate, in addition to its ability to induce fatty acid synthesis as an immediate metabolic precursor, also functions as an epigenetic metabolite to promote cancer cell survival under hypoxic stress.
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Determination of polybrominated diphenyl ethers in soil and sediment from an electronic waste recycling facility.
TL;DR: The obtained isomer profiles of PBDEs from the two soil samples collected from different contamination sites were found to be similar to various technical formulations of fire retardant products.
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A simultaneous redox, alkylation, self-assembly reaction under solvothermal conditions afforded a luminescent copper(I) chain polymer constructed of Cu3I4- and EtS-4-C5H4N+Et components (Et = CH3CH2).
Jian Kai Cheng,Yuan Gen Yao,Jian Zhang,Zhao Ji Li,Zongwei Cai,Xiang You Zhang,Zhong Ning Chen,Yu Biao Chen,Yao Kang,Ye Yan Qin,Yi Hang Wen +10 more
TL;DR: A simultaneous redox, alkylation, self-assembly reaction under solvothermal conditions afforded a novel copper(I) chain polymer constructed of luminescent Cu3I4- and unprecedented EtS-4-C5H4N+Et components (Et = CH3CH2).