1. Yuyu Li | Women Paris
Yuyu Li. Height. 176 / 5'9'' 1/2. Bust. 75 / 29'' 1/2. Waist. 60 / 23'' 1/2. Hips. 89 / 35''. Shoes. 38 / 7 1/2. Book. Download book. Book; Instagram.
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2. Curvy, shape-adaptive imagers based on printed optoelectronic pixels ...
Curvy, shape-adaptive ... author = "Zhoulyu Rao and Yuntao Lu and Zhengwei Li and Kyoseung Sim and Zhenqiang Ma and Jianliang Xiao and Cunjiang Yu",.
Curvy imagers that can adjust their shape are of use in imaging applications that require low optical aberration and tunable focusing power. Existing curvy imagers are either flexible but not compatible with tunable focal surfaces, or stretchable but with low resolution and pixel fill factors. Here, we show that curvy and shape-adaptive imagers with high pixel fill factors can be created by transferring an array of ultrathin silicon optoelectronic pixels with a kirigami design onto curvy surfaces using conformal additive stamp printing. An imager with a 32 × 32-pixel array exhibits a fill factor, before stretching, of 78% and can maintain its electrical performance under 30% biaxial strain. We also develop an adaptive imager that can achieve focused views of objects at different distances by combining a concave-shaped imager printed on a magnetic rubber composite with a tunable lens. Adaptive optical focus is achieved by tuning both the focal length of the lens and the curvature of the imager, allowing far and near objects to be imaged with low aberration.
3. Researchers Report a New Way to Produce Curvy Electronics
Sep 25, 2019 · A team of researchers led by University of Houston engineer Cunjiang Yu has reported a new way to manufacture curvy, three-dimensional electronics.
New Method Fills a Need in Emerging Applications for Electronic Devices
4. Curvy, shape-adaptive imagers based on printed optoelectronic pixels ...
... Li, Kyoseung Sim, Zhenqiang Ma, Jianliang Xiao, Cunjiang Yu. Research output: Contribution to journal › Article › peer-review. Overview · Fingerprint. Abstract.
Curvy imagers that can adjust their shape are of use in imaging applications that require low optical aberration and tunable focusing power. Existing curvy imagers are either flexible but not compatible with tunable focal surfaces, or stretchable but with low resolution and pixel fill factors. Here, we show that curvy and shape-adaptive imagers with high pixel fill factors can be created by transferring an array of ultrathin silicon optoelectronic pixels with a kirigami design onto curvy surfaces using conformal additive stamp printing. An imager with a 32 × 32-pixel array exhibits a fill factor, before stretching, of 78% and can maintain its electrical performance under 30% biaxial strain. We also develop an adaptive imager that can achieve focused views of objects at different distances by combining a concave-shaped imager printed on a magnetic rubber composite with a tunable lens. Adaptive optical focus is achieved by tuning both the focal length of the lens and the curvature of the imager, allowing far and near objects to be imaged with low aberration.
5. Three-dimensional curvy electronics created using conformal additive ...
Oct 1, 2019 · Three-dimensional curvy electronics created using conformal additive stamp printing. Kyoseung Sim, Song Chen, Zhengwei Li ... Yu, C. (2019). Three ...
Electronic devices are typically manufactured in planar layouts, but many emerging applications, from optoelectronics to wearables, require three-dimensional curvy structures. However, the fabrication of such structures has proved challenging due, in particular, to the lack of an effective manufacturing technology. Here, we show that conformal additive stamp (CAS) printing technology can be used to reliably manufacture three-dimensional curvy electronics. CAS printing employs a pneumatically inflated elastomeric balloon as a conformal stamping medium to pick up pre-fabricated electronic devices and print them onto curvy surfaces. To illustrate the capabilities of the approach, we use it to create various devices with curvy shapes: silicon pellets, photodetector arrays, electrically small antennas, hemispherical solar cells and smart contact lenses. We also show that CAS printing can be used to print onto arbitrary three-dimensional surfaces.
6. Yu-Li (T-274) - GROOVE STORE
Missing: curvy | Show results with:curvy
7. Cunjiang Yu - Google Scholar
C Yu, Y Li, X Zhang, X Huang, V Malyarchuk, S Wang, Y Shi, L Gao, Y Su ... Three-dimensional curvy electronics created using conformal additive stamp printing.
Founder Professor of Engineering, University of Illinois, Urbana-Champaign - Cited by 12,439 - Flexible/Stretchable Electronics - Bioelectronics - Micro/Nano Fabrication - Semiconductor Devices
See AlsoKaren Wilson Facebook
8. Curvy surface conformal ultra-thin transfer printed Si optoelectronic ...
Jan 18, 2018 · Yanbin Li, Dong Yang & Cunjiang Yu. Department of Electrical and Computer Engineering, University of Houston, Houston, TX, 77204, USA. Cunjiang ...
Penetrating neural probe arrays are powerful bio-integrated devices for studying basic neuroscience and applied neurophysiology, underlying neurological disorders, and understanding and regulating animal and human behavior. This paper presents a penetrating microprobe array constructed in thin and flexible fashion, which can be seamlessly integrated with the soft curvy substances. The function of the microprobes is enabled by transfer printed ultra-thin Si optoelectronics. As a proof-of-concept device, microprobe array with Si photodetector arrays are demonstrated and their capability of mapping the photo intensity in space are illustrated. The design strategies of utilizing thin polyimide based microprobes and supporting substrate, and employing the heterogeneously integrated thin optoelectronics are keys to accomplish such a device. The experimental and theoretical investigations illustrate the materials, manufacturing, mechanical and optoelectronic aspects of the device. While this paper primarily focuses on the device platform development, the associated materials, manufacturing technologies, and device design strategy are applicable to more complex and multi-functionalities in penetrating probe array-based neural interfaces and can also find potential utilities in a wide range of bio-integrated systems. Silicon microprobe vertial array has now been made ultra-thin, flexible and suitable for soft tissue integration. A team led by Cunjiang Yu from University...
9. Curvy surface conformal ultra-thin transfer printed Si optoelectronic ...
Kyoseung Sim, Zhoulyu Rao, Yanbin Li, Dong Yang, Cunjiang Yu ... curvy substances. The function of the microprobes ... Dive into the research topics of 'Curvy ...
Penetrating neural probe arrays are powerful bio-integrated devices for studying basic neuroscience and applied neurophysiology, underlying neurological disorders, and understanding and regulating animal and human behavior. This paper presents a penetrating microprobe array constructed in thin and flexible fashion, which can be seamlessly integrated with the soft curvy substances. The function of the microprobes is enabled by transfer printed ultra-thin Si optoelectronics. As a proof-of-concept device, microprobe array with Si photodetector arrays are demonstrated and their capability of mapping the photo intensity in space are illustrated. The design strategies of utilizing thin polyimide based microprobes and supporting substrate, and employing the heterogeneously integrated thin optoelectronics are keys to accomplish such a device. The experimental and theoretical investigations illustrate the materials, manufacturing, mechanical and optoelectronic aspects of the device. While this paper primarily focuses on the device platform development, the associated materials, manufacturing technologies, and device design strategy are applicable to more complex and multi-functionalities in penetrating probe array-based neural interfaces and can also find potential utilities in a wide range of bio-integrated systems.
10. Development and validation of a measure of curvy ideals ...
... Yu K, & Henning T (2021). Hourglass body shape ideal scale and disordered ... Li C-H (2016). Confirmatory factor analysis with ordinal data: Comparing ...
Several sociocultural female body ideals exist — thin, muscular/athletic, and, more recently, curvier ideals, which research specifically suggests are more prevalent among Black women. Two validated measures assess women’s desire for curvier bodies, ...
11. Zhengwei Li - Google Scholar
2017. Curvy, shape-adaptive imagers based on printed optoelectronic pixels with a kirigami design. Z Rao, Y Lu, Z Li, K Sim, Z Ma, J Xiao, C Yu. Nature ...
Assistant Professor, Tongji University - Cited by 7,717 - building energy performance - air conditioning system
12. I have a mental illness - Chapter 53: Proud Yu Haitang - FanMTL
3 days ago · ... Yu Li behind Yu Haitang, and his eyes lit up slightly. Yu Li's figure is curvy and smooth, exuding a unique charm that makes Ye Fan fall for her ...
Siheyuan: I have a mental illness Novel Online - Chapter 53: Proud Yu Haitang
13. Fireworks by Alice Lin read by Yu-Li Alice Shen - Audiobooks Now
Fireworks. Author: Alice Lin. Narrator: Yu-Li Alice Shen. Unabridged: 6 hr ... Curvy Girls Cant Date Quarterbacks, Kelsie Stelting. Curvy Girls Can't Date ...
Download or stream Fireworks by Alice Lin. Get 50% off this audiobook at the AudiobooksNow online audio book store and download or stream it right to your computer, smartphone or tablet.