| 1 |
Extremely strong and tough polythiophene composite for flexible electronics
Chen Q, Wang XQ, Chen F, Zhang N, Ma MM
Chemical Engineering Journal, 368, 933, 2019 |
| 2 |
Highly transparent, all-oxide, heteroepitaxy ferroelectric thin film for flexible electronic devices
Ren CL, Tan CB, Gong LJ, Tang MK, Liao M, Tang Y, Zhong XL, Guo HX, Wang JB
Applied Surface Science, 458, 540, 2018 |
| 3 |
Atmospheric pressure plasmas for surface modification of flexible and printed electronic devices: A review
Kim KN, Lee SM, Mishra A, Yeom GY
Thin Solid Films, 598, 315, 2016 |
| 4 |
Redox-Induced Asymmetric Electrical Characteristics of Ferrocene-Alkanethiolate Molecular Devices on Rigid and Flexible Substrates
Jeong H, Kim D, Wang G, Park S, Lee H, Cho K, Hwang WT, Yoon MH, Jang YH, Song H, Xiang D, Lee T
Advanced Functional Materials, 24(17), 2472, 2014 |
| 5 |
Strain effect analysis on the electrical conductivity of Si/Si1-xGex nanocomposite thin films
Li H, Xu Y, Xu Y, Li G
Solid-State Electronics, 85, 64, 2013 |
| 6 |
Mechanical properties of ZnO thin films deposited on polyester substrates used in flexible device applications
Sierros KA, Banerjee DA, Morris NJ, Cairns DR, Kortidis I, Kiriakidis G
Thin Solid Films, 519(1), 325, 2010 |
| 7 |
Study of the optical response of hybrid polymers with embedded inorganic nanoparticles for encapsulation of flexible organic electronics
Laskarakis A, Georgiou D, Logothetidis S, Amberg-Scwhab S, Weber U
Materials Chemistry and Physics, 115(1), 269, 2009 |
