Fan Ye
Rice University
13 Papers
33 Citations
Fan Ye is an academic researcher from Rice University. The author has contributed to research in topics: Light sheet fluorescence microscopy & Computer science. The author has an hindex of 7, co-authored 12 publications. Previous affiliations of Fan Ye include Nankai University.
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Papers
Single-frame 3D fluorescence microscopy with ultraminiature lensless FlatScope
Jesse K. Adams,Vivek Boominathan,Benjamin W. Avants,Daniel G. Vercosa,Fan Ye,Richard G. Baraniuk,Jacob T. Robinson,Ashok Veeraraghavan +7 more
TL;DR: A new concept for three-dimensional (3D) fluorescence imaging is presented that replaces lenses with an optimized amplitude mask placed a few hundred micrometers above the sensor and an efficient algorithm that can convert a single frame of captured sensor data into high-resolution 3D images.
217
3D-printed silica with nanoscale resolution
Xiewen Wen,Boyu Zhang,Weipeng Wang,Weipeng Wang,Fan Ye,Shuai Yue,Hua Guo,Guanhui Gao,Yushun Zhao,Qiyi Fang,Christine Nguyen,Xiang Zhang,Jiming Bao,Jacob T. Robinson,Pulickel M. Ajayan,Jun Lou +15 more
TL;DR: In this paper, a 3D-printing technique has been developed to create high-quality pure silica nanostructures with sub-200nm resolution and the flexible capability of rare-earth element doping.
137
Near-Field Coupled Integrable Two-Dimensional InSe Photosensor on Optical Fiber
Zehua Jin,Fan Ye,Xiang Zhang,Shuai Jia,Liangliang Dong,Sidong Lei,Sidong Lei,Robert Vajtai,Jacob T. Robinson,Jun Lou,Pulickel M. Ajayan +10 more
TL;DR: A device transfer technique to integrate device assemblies based on 2D materials onto an arbitrary smooth surface utilizing a sacrificial polymer underlayer and achieves clean and nondestructive full device transfer is developed.
28
Diffusive Memristors with Uniform and Tunable Relaxation Time for Spike Generation in Event-Based Pattern Recognition.
TL;DR: This work engineered the device stack to achieve a much-improved uniformity in the relaxation time and implemented the hierarchy of time surfaces (HOTS) algorithm to utilize the tunable and uniform relaxation behavior for spike generation.
22
Deep imaging in scattering media with selective plane illumination microscopy
Adithya Pediredla,Shizheng Zhang,Ben Avants,Fan Ye,Shin Nagayama,Ziying Chen,Caleb Kemere,Jacob T. Robinson,Ashok Veeraraghavan +8 more
TL;DR: It is shown that if the excitation path length can be minimized, selective plane illumination microscopy (SPIM) can image nearly as deep as 2PM without the need for a high-powered pulsed laser.
19