Ulrike Kraft
Overview
Explore the profile of Ulrike Kraft including associated specialties, affiliations and a list of published articles.
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Articles
13
Citations
156
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Recent Articles
1.
Simatos D, Jacobs I, Dobryden I, Nguyen M, Savva A, Venkateshvaran D, et al.
Small Methods
. 2023 Sep;
7(11):e2300476.
PMID: 37661594
Organic semiconductors are a family of pi-conjugated compounds used in many applications, such as displays, bioelectronics, and thermoelectrics. However, their susceptibility to processing-induced contamination is not well understood. Here, it...
2.
Borca B, Michnowicz T, Aguilar-Galindo F, Petuya R, Pristl M, Schendel V, et al.
J Phys Chem Lett
. 2023 Feb;
14(8):2072-2077.
PMID: 36799542
The changes of properties and preferential interactions based on subtle energetic differences are important characteristics of organic molecules, particularly for their functionalities in biological systems. Only slightly energetically favored interactions...
3.
Nguyen M, Kraft U, Tan W, Dobryden I, Broch K, Zhang W, et al.
Adv Mater
. 2022 Nov;
35(16):e2205377.
PMID: 36373490
Conjugated polymer field-effect transistors are emerging as an enabling technology for flexible electronics due to their excellent mechanical properties combined with sufficiently high charge-carrier mobilities and compatibility with large-area, low-temperature...
4.
Michnowicz T, Borca B, Petuya R, Schendel V, Pristl M, Pentegov I, et al.
Angew Chem Int Ed Engl
. 2020 Jan;
59(15):6207-6212.
PMID: 31965698
Among the prerequisites for the progress of single-molecule-based electronic devices are a better understanding of the electronic properties at the individual molecular level and the development of methods to tune...
5.
Son D, Kang J, Vardoulis O, Kim Y, Matsuhisa N, Oh J, et al.
Nat Nanotechnol
. 2018 Aug;
13(11):1057-1065.
PMID: 30127474
Electronic skin devices capable of monitoring physiological signals and displaying feedback information through closed-loop communication between the user and electronics are being considered for next-generation wearables and the 'Internet of...
6.
Chortos A, Zhu C, Oh J, Yan X, Pochorovski I, To J, et al.
ACS Nano
. 2017 Jul;
11(8):7925-7937.
PMID: 28745872
Stretchable form factors enable electronic devices to conform to irregular 3D structures, including soft and moving entities. Intrinsically stretchable devices have potential advantages of high surface coverage of active devices,...
7.
Borca B, Michnowicz T, Petuya R, Pristl M, Schendel V, Pentegov I, et al.
ACS Nano
. 2017 Apr;
11(5):4703-4709.
PMID: 28437066
The ability to elucidate the elementary steps of a chemical reaction at the atomic scale is important for the detailed understanding of the processes involved, which is key to uncover...
8.
Schendel V, Borca B, Pentegov I, Michnowicz T, Kraft U, Klauk H, et al.
Nano Lett
. 2015 Dec;
16(1):93-7.
PMID: 26619213
Nonlocal addressing-the "remote control"-of molecular switches promises more efficient processing for information technology, where fast speed of switching is essential. The surface state of the (111) facets of noble metals,...
9.
Borca B, Schendel V, Petuya R, Pentegov I, Michnowicz T, Kraft U, et al.
ACS Nano
. 2015 Nov;
9(12):12506-12.
PMID: 26580569
Single molecular switches are basic device elements in organic electronics. The pentacene analogue anthradithiophene (ADT) shows a fully reversible binary switching between different adsorption conformations on a metallic surface accompanied...
10.
Kraft U, Sejfic M, Kang M, Takimiya K, Zaki T, Letzkus F, et al.
Adv Mater
. 2014 Oct;
27(2):207-14.
PMID: 25330764
Low-voltage p-channel and n-channel organic transistors with channel lengths down to 0.5 μm using four small-molecule semiconductors and ultra-thin dielectrics based on two different phosphonic acid monolayers are fabricated on...