Liu Laboratory

Shaopeng Pei, Ph.D.

Postdoctoral Fellow


Shandong, China


University of Delaware 2020

University at Buffalo 2014

Shandong University 2012



Research Areas of Interest

Osteocyte mechanotransduction, image analysis


2020    Tsu-Wei & Mei-Sheng Chou Graduate Scholar Award, University of Delaware

2019    Young Investigator Travel Grant, American Society for Bone and Mineral Research


  1. Shaopeng Pei; Sucharitha Parthasarathy; Ashutosh Parajuli; X. Lucas Lu; Catherine B. Kirn-Safran; M. Cindy Farach-Carson; Liyun Wang (2018). ECM-receptor Interaction Pathway is Highly Correlated to Perlecan/HSPG2 mRNA Level in Bone under Loading. ORS 2018 Annual Meeting, New Orleans, Louisiana, March 10-13.
  2. Shaopeng Pei, Jerahme Martinez, Shubo Wang, Ashutosh Parajuli, Lucas Lu, Catherin B Safran, Liyun Wang (2020). Osteocyte PCM turnover is accelerated under in vivo mechanical loading/unloading with a novel “click-chemistry” imaging technique. The 2020 Annual conference of ORS. Phoenix, AZ. February 8-11. 


  1. Xiangtong He, Shaopeng Pei, Robert E Baier, John Y Fu. (2014). Electric-field-induced stress relaxation in α-phase poly (vinylidene fluoride) films. Materials Letters 130: 195-197.
  2. Yu, J., Wang, L., Lai, X., Pei, S., Zhuang, Z., Meng, L., Huang, Y., Li, Q., Lu, W., Byun, J-H., Oh, Y., Yan, Y., Chou, T-W. (2015). A durability study of carbon nanotube fiber based stretchable electronic devices under cyclic deformation. Carbon 94:352-361.
  3. Parajuli, A., Liu, Chao, Li, W., Gu, X., Lai, X., Pei, S., Price, C., You, L., Lu, X.L., and Wang L.(2015). Bone’s Responses to Mechanical Loading are impaired in Type I Diabetes. BONE 81:152-160.
  4. Jiali Yu, Weibang Lu, Shaopeng Pei, Ke Gong, Liyun Wang, Linghui Meng, Yudong Huang, Joseph P. Smith, Karl S. Booksh, Qingwen Li, Joon-Hyung Byun, Youngseok Oh, Yushan Yan, Tsu-Wei Chou (2016). Omnidirectionally Stretchable High Performance Supercapacitor Based on Isotropic Buckled Carbon Nanotube Films. DOI: 10.1021/acsnano.6b00752. ACS NANO 10:5204-5211.
  5. Lixia Fan, Shaopeng Pei, X. Lucas Lu, Liyun Wang (2016). A Multi-Scale 3D Finite Element Analysis of Fluid and Solute Flows in Mechanically Loaded Bone. Bone Research,
  6. Pei S, Parthasarathy S, Parajuli A, Martinez J, Lv M, Jiang S, Wu D, Wei S, Lu XL, Farach-Carson MC, Kirn-Safran CB, Wang L (2019) Perlecan/Hspg2 deficiency impairs bone's calcium signaling and associated transcriptome in response to mechanical loading. Bone. 2020 Feb;131:115078. doi: 10.1016/j.bone.2019.115078. Epub 2019 Nov 9. PMID: 31715337
  7. Qiuyun Wang, Shaopeng Pei, X. Lucas Lu, Liyun Wang, and Qianhong Wu (2019). On the Characterization of Interstitial Fluid Flow in the Skeletal Muscle Endomysium.  Co-corresponding author. J Mech Behav Biomed Mater. 2019 Oct 20;102:103504. doi: 10.1016/j.jmbbm.2019.103504. [Epub ahead of print] PMID: 31670258
  8. Yang Liu, Wei Zhang, Fenghua Zhang, Jinsong Leng, Shaopeng Pei, Liyun Wang, Xinqiao Jia, Chase Cotton, Baozhong Sun, Tsu-Wei Chou (2019). Microstructural design for enhanced shape memory behavior of 4D printed composites based on carbon nanotube/polylactic acid filament. Composites Science and Technology 181: 107692. doi: 10.1016/j.compscitech.2019.107692
  9. Parajuli A, Pei S, Zhao H, Martinez JR, Lu XL, Liu XS, Farach-Carson MC, Kirn-Safran CB, Wang L. (2020). Trabecular Bone Deficit and Enhanced Anabolic Response to Re-Ambulation after Disuse in Perlecan-Deficient Skeleton. Biomolecules. 2020 Jan 29;10(2). pii: E198. doi: 10.3390/biom10020198. PMID: 32013135.
  10. Jie Sun, Verena Gargitter, Shaopeng Pei, Teng Wang, Yushan Yan, Suresh Advani, Liyun Wang, Tsu-Wei Chou (2020). Mechanical and Electrochemical Performance of Hybrid Laminated Structural Composites with Carbon Fiber/ Solid Electrolyte Supercapacitor Interleaves. Composites Science and Technology.
  11. Shi, Baohui; Shang, Yuanyuan; Yong, Pei; Pei, Shaopeng; Wang, Liyun; Heider, Dirk ; Zhao, Yong (Y.); Zheng, Chaolun; Yang, Bao; Shridhar, Yarlagadda; Chou, Tsu-Wei; Fu, Kun (2020). Low tortuous, highly conductive, and high-areal-capacity battery electrodes enabled by through-thickness aligned carbon fiber framework. Nano Letters.
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