Twitter
|
Facebook
|
LinkedIn
|
Zhihu
|
Weibo
Year
Month
(Peer-Reviewed) In-flow holographic tomography boosts lipid droplet quantification
Michael John Fanous ¹, Aydogan Ozcan ¹ ² ³ ⁴
¹ Electrical and Computer Engineering Department, University of California, Los Angeles 90095 CA, USA
² Bioengineering Department, University of California, Los Angeles 90095 CA, USA
³ California NanoSystems Institute (CNSI), University of California, Los Angeles 90095 CA, USA
⁴ Department of Surgery, David Geffen School of Medicine, University of California, Los Angeles 90095 CA, USA
Opto-Electronic Advances, 2023-06-25
https://doi.org/10.29026/oea.2023.230083
https://www.oejournal.org/article/doi/10.29026/oea.2023.230083
Abstract

A 3D microscopy instrument using flow tomography significantly advances the screening and quantification of intracellular lipid droplets.
In-flow holographic tomography boosts lipid droplet quantification_1
In-flow holographic tomography boosts lipid droplet quantification_2
In-flow holographic tomography boosts lipid droplet quantification_3
  • Light-induced enhancement of exciton transport in organic molecular crystal
  • Xiao-Ze Li, Shuting Dai, Hong-Hua Fang, Yiwen Ren, Yong Yuan, Jiawen Liu, Chenchen Zhang, Pu Wang, Fangxu Yang, Wenjing Tian, Bin Xu, Hong-Bo Sun
  • Opto-Electronic Advances
  • 2025-03-28
  • Double topological phase singularities in highly absorbing ultra-thin film structures for ultrasensitive humidity sensing
  • Xiaowen Li, Jie Sheng, Zhengji Wen, Fangyuan Li, Xiran Huang, Mingqing Zhang, Yi Zhang, Duo Cao2, Xi Shi, Feng Liu, Jiaming Hao
  • Opto-Electronic Advances
  • 2025-03-28
  • Soliton microcombs in optical microresonators with perfect spectral envelopes
  • Mulong Liu, Ziqi Wei, Haotong Zhu, Hongwei Wang, Xiao Yu, Xilin Han, Wei Zhao, Guangwei Hu, Peng Xie
  • Opto-Electronic Advances
  • 2025-03-12
  • Terahertz active multi-channel vortices with parity symmetry breaking and near/far field multiplexing based on a dielectric-liquid crystal-plasmonic metadevice
  • Yiming Wang, Fei Fan, Huijun Zhao, Yunyun Ji, Jing Liu, Shengjiang Chang
  • Opto-Electronic Advances
  • 2025-03-06
  • Spin-dependent amplitude and phase modulation with multifold interferences via single-layer diatomic all-silicon metasurfaces
  • Hui Li, Chenhui Zhao, Jie Li, Hang Xu, Wenhui Xu, Qi Tan, Chunyu Song, Yun Shen, Jianquan Yao
  • Opto-Electronic Science
  • 2025-02-19
  • Highly sensitive laser spectroscopy sensing based on a novel four-prong quartz tuning fork
  • Runqiu Wang, Shunda Qiao, Ying He, Yufei Ma
  • Opto-Electronic Advances
  • 2025-01-22
  • A novel approach towards robust construction of physical colors on lithium niobate crystal
  • Quanxin Yang, Menghan Yu, Zhixiang Chen, Siwen Ai, Ulrich Kentsch, Shengqiang Zhou, Yuechen Jia, Feng Chen, Hongliang Liu
  • Opto-Electronic Advances
  • 2025-01-22
  • Multi-photon neuron embedded bionic skin for high-precision complex texture and object reconstruction perception research
  • Hongyu Zhou, Chao Zhang, Hengchang Nong, Junjie Weng, Dongying Wang, Yang Yu, Jianfa Zhang, Chaofan Zhang, Jinran Yu, Zhaojian Zhang, Huan Chen, Zhenrong Zhang, Junbo Yang
  • Opto-Electronic Advances
  • 2025-01-22
  • Single-beam optical trap-based surface-enhanced raman scattering optofluidic molecular fingerprint spectroscopy detection system
  • Ning Sun, Yuan Gan, Yujie Wu, Xing Wang, Shen Shen, Yong Zhu, Jie Zhang
  • Opto-Electronic Advances
  • 2025-01-22
  • High-frequency enhanced ultrafast compressed active photography
  • Yizhao Meng, Yu Lu, Pengfei Zhang, Yi Liu, Fei Yin, Lin Kai, Qing Yang, Feng Chen
  • Opto-Electronic Advances
  • 2025-01-15
  • Efficient generation of vectorial terahertz beams using surface-wave excited metasurfaces
  • Zhuo Wang, Weikang Pan, Yu He, Zhiyan Zhu, Xiangyu Jin, Muhan Liu, Shaojie Ma, Qiong He, Shulin Sun, Lei Zhou
  • Opto-Electronic Science
  • 2025-01-15
  • High-efficiency RGB achromatic liquid crystal diffractive optical elements
  • Yuqiang Ding, Xiaojin Huang, Yongziyan Ma, Yan Li, Shin-Tson Wu
  • Opto-Electronic Advances
  • 2025-01-07



    • Highly sensitive and stable probe refractometer based on configurable plasmonic resonance with nano-modified fiber core                                The second fusion of laser and aerospace—an inspiration for high energy lasers
    About
    |
    Contact
    |
    Copyright © PubCard