conformal electronics
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2021 ◽  
pp. 2109214
Author(s):  
Jianpeng Liu ◽  
Shan Jiang ◽  
Wennan Xiong ◽  
Chen Zhu ◽  
Kan Li ◽  
...  

Small Methods ◽  
2021 ◽  
pp. 2100869
Author(s):  
Dongwoo Yoo ◽  
Seonghyeon Kim ◽  
Woosung Cho ◽  
Jaechan Park ◽  
Joonwon Kim

2021 ◽  
Vol 5 (1) ◽  
Author(s):  
Sirri Batuhan Kalkan ◽  
Emad Najafidehaghani ◽  
Ziyang Gan ◽  
Fabian Alexander Christian Apfelbeck ◽  
Uwe Hübner ◽  
...  

AbstractOrganic semiconductors (OSC) are widely used for consumer electronic products owing to their attractive properties such as flexibility and low production cost. Atomically thin transition metal dichalcogenides (TMDs) are another class of emerging materials with superior electronic and optical properties. Integrating them into van der Waals (vdW) heterostructures provides an opportunity to harness the advantages of both material systems. However, building such heterojunctions by conventional physical vapor deposition (PVD) of OSCs is challenging, since the growth is disrupted due to limited diffusion of the molecules on the TMD surface. Here we report wafer-scale (3-inch) fabrication of transferable OSC nanosheets with thickness down to 15 nm, which enable the realization of heterojunction devices. By controlled dissolution of a poly(acrylic acid) film, on which the OSC films were grown by PVD, they can be released and transferred onto arbitrary substrates. OSC crystal quality and optical anisotropy are preserved during the transfer process. By transferring OSC nanosheets (p-type) onto prefabricated electrodes and TMD monolayers (n-type), we fabricate and characterize various electronic devices including unipolar, ambipolar and antiambipolar field-effect transistors. Such vdW p-n heterojunction devices open up a wide range of possible applications ranging from ultrafast photodetectors to conformal electronics.


Polymers ◽  
2021 ◽  
Vol 13 (15) ◽  
pp. 2407
Author(s):  
Kyeongmin Hong ◽  
Minjae Choe ◽  
Seoyeon Kim ◽  
Hye-Min Lee ◽  
Byung-Joo Kim ◽  
...  

In this work we describe a soft and ultrastretchable fiber with a magnetic liquid metal (MLM) core for electrical switches used in remote magnetic actuation. MLM was prepared by removing the oxide layer on the liquid metal and subsequent mixing with magnetic iron particles. We used SEBS (poly[styrene-b-(ethylene-co-butylene)-b-styrene]) and silicone to prepare stretchable elastic fibers. Once hollow elastic fibers form, MLM was injected into the core of the fiber at ambient pressure. The fibers are soft (Young’s modulus of 1.6~4.4 MPa) and ultrastretchable (elongation at break of 600~5000%) while maintaining electrical conductivity and magnetic property due to the fluidic nature of the core. Magnetic strength of the fibers was characterized by measuring the maximum effective distance between the magnet and the fiber as a function of iron particle concentration in the MLM core and the polymeric shell. The MLM core facilitates the use of the fiber in electrical switches for remote magnetic actuation. This ultrastretchable and elastic fiber with MLM core can be used in soft robotics, and wearable and conformal electronics.


2021 ◽  
Vol 33 (12) ◽  
pp. 2170091
Author(s):  
Minjeong Ha ◽  
Gilbert Santiago Cañón Bermúdez ◽  
Tobias Kosub ◽  
Ingolf Mönch ◽  
Yevhen Zabila ◽  
...  

2021 ◽  
pp. 2005521
Author(s):  
Minjeong Ha ◽  
Gilbert Santiago Cañón Bermúdez ◽  
Tobias Kosub ◽  
Ingolf Mönch ◽  
Yevhen Zabila ◽  
...  

2021 ◽  
pp. 381-389
Author(s):  
Kedar Aras ◽  
John A. Rogers ◽  
Igor R. Efimov

2020 ◽  
Vol 64 ◽  
pp. 101942 ◽  
Author(s):  
Jiankui Chen ◽  
Sihui Yang ◽  
Yiqun Li ◽  
Yongan Huang ◽  
Zhouping Yin

Author(s):  
Rose T. Yin ◽  
K. Benjamin Lee ◽  
Jeffrey S. Panting ◽  
Sheena W. Chen ◽  
Kedar K. Aras ◽  
...  

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