Michael Drack 个人学术档案

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	总计	2019 年至今
引用	5350	3628
h 指数	14	14
i10 指数	17	15

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Martin KaltenbrunnerSoft Matter Physics and LIT Soft Materials Lab, Johannes Kepler University Linz在 jku.at 的电子邮件经过验证
Siegfried BauerFIEEE, Professor of Soft Matter Physics, Johannes Kepler University Linz, Austria在 jku.at 的电子邮件经过验证
Daniela Wirthl (Peter)Phd Student Physics, JKU Linz在 jku.at 的电子邮件经过验证
Ingrid M GrazAssoc. Professor, School of Education, STEM Education/Physics, Johannes Kepler University在 jku.at 的电子邮件经过验证
Florian HartmannResearch Group Leader, Max Planck Institute for Intelligent Systems在 is.mpg.de 的电子邮件经过验证
Tsuyoshi Sekitani, Ph.D, ProfessorThe Institute of Scientific and Industrial Research,Osaka University在 sanken.osaka-u.ac.jp 的电子邮件经过验证
Takao SomeyaProfessor, Department of Electric and Electronic Engineering, The University of Tokyo在 ee.t.u-tokyo.ac.jp 的电子邮件经过验证
Gerald KettlgruberPhD student, Soft Matter Physics, Johannes Kepler University Linz在 jku.at 的电子邮件经过验证
Simona Bauer-GogoneaSenior Scientist, Johannes-Kepler University Linz在 jku.at 的电子邮件经过验证
Richard MoserPhD Student, Soft Matter Physics, Johannes Kepler University Linz在 jku.at 的电子邮件经过验证
Christian M. SiketPhD Student在 jku.at 的电子邮件经过验证
Sabine HildJohannes Kepler University Linz在 jku.at 的电子邮件经过验证
Eric D. GłowackiCEITEC Brno University of Technology, Czech Republic在 vutbr.cz 的电子邮件经过验证
Markus ScharberLinz Institute for Organic Solar Cells, Johannes Kepler University Linz在 jku.at 的电子邮件经过验证
Matthew Schuette WhiteUniversity of Vermont在 uvm.edu 的电子邮件经过验证
Doğukan Hazar ApaydınVienna University of Technology (TU Wien)在 tuwien.ac.at 的电子邮件经过验证
Stefan E. SchausbergerSenior Scientist in the Department of Soft Matter Physics在 jku.at 的电子邮件经过验证
Robert PichlerSoft Matter Physics, Johannes Kepler University Linz在 jku.at 的电子邮件经过验证
Dr. Denys MakarovHelmholtz-Zentrum Dresden-Rossendorf e.V.在 hzdr.de 的电子邮件经过验证
Umut CakmakJohannes Kepler University Linz在 jku.at 的电子邮件经过验证

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Michael Drack

Soft Materials Lab, Johannes Kepler University Linz

在 jku.at 的电子邮件经过验证


标题按引用次数排序按年份排序按标题排序	引用次数引用次数	年份
An ultra-lightweight design for imperceptible plastic electronics M Kaltenbrunner, T Sekitani, J Reeder, T Yokota, K Kuribara, T Tokuhara, ... Nature 499 (7459), 458-463, 2013	2579	2013
Flexible high power-per-weight perovskite solar cells with chromium oxide–metal contacts for improved stability in air M Kaltenbrunner, G Adam, ED Głowacki, M Drack, R Schwödiauer, ... Nature materials 14 (10), 1032-1039, 2015	987	2015
Instant tough bonding of hydrogels for soft machines and electronics D Wirthl, R Pichler, M Drack, G Kettlguber, R Moser, R Gerstmayr, ... Science advances 3 (6), e1700053, 2017	411	2017
Resilient yet entirely degradable gelatin-based biogels for soft robots and electronics M Baumgartner, F Hartmann, M Drack, D Preninger, D Wirthl, R Gerstmayr, ... Nature Materials 19 (10), 1102-1109, 2020	331	2020
A bimodal soft electronic skin for tactile and touchless interaction in real time J Ge, X Wang, M Drack, O Volkov, M Liang, GS Cañón Bermúdez, R Illing, ... Nature communications 10 (1), 4405, 2019	237	2019
An imperceptible plastic electronic wrap M Drack, I Graz, T Sekitani, T Someya, M Kaltenbrunner, S Bauer Advanced Materials 27 (1), 34-40, 2015	187	2015
Soft electromagnetic actuators G Mao, M Drack, M Karami-Mosammam, D Wirthl, T Stockinger, ... Science advances 6 (26), eabc0251, 2020	137	2020
Untethered and ultrafast soft-bodied robots X Wang, G Mao, J Ge, M Drack, GS Cañón Bermúdez, D Wirthl, R Illing, ... Communications Materials 1 (1), 67, 2020	106	2020
Elastocaloric heat pump with specific cooling power of 20.9 W g^–1 exploiting snap-through instability and strain-induced crystallization F Greibich, R Schwödiauer, G Mao, D Wirthl, M Drack, R Baumgartner, ... Nature Energy 6 (3), 260-267, 2021	81	2021
3D printing of resilient biogels for omnidirectional and exteroceptive soft actuators A Heiden, D Preninger, L Lehner, M Baumgartner, M Drack, E Woritzka, ... Science Robotics 7 (63), eabk2119, 2022	80	2022
Ultrafast small-scale soft electromagnetic robots G Mao, D Schiller, D Danninger, B Hailegnaw, F Hartmann, T Stockinger, ... Nature communications 13 (1), 4456, 2022	69	2022
From Playroom to Lab: Tough Stretchable Electronics Analyzed with a Tabletop Tensile Tester Made from Toy‐Bricks R Moser, G Kettlgruber, CM Siket, M Drack, IM Graz, U Cakmak, Z Major, ... Advanced Science 3 (4), 1500396, 2016	54	2016
Meant to merge: Fabrication of stretchy electronics for robotics F Hartmann, M Drack, M Kaltenbrunner Science Robotics 3 (18), eaat9091, 2018	25	2018
Cost-Efficient Open Source Desktop Size Radial Stretching System With Force Sensor. SE Schausberger, R Kaltseis, M Drack, UD Cakmak, Z Major, S Bauer IEEE Access 3, 556-561, 2015	22	2015
iSens: A fiber‐based, highly permeable and imperceptible sensor design T Stockinger, D Wirthl, G Mao, M Drack, R Pruckner, S Demchyshyn, ... Advanced Materials 33 (37), 2102736, 2021	14	2021
The importance of open and frugal labware M Drack, F Hartmann, S Bauer, M Kaltenbrunner Nature Electronics 1 (9), 484-486, 2018	11	2018
A hybrid, low-cost tissue-like epidural needle insertion simulator B Esterer, S Gabauer, R Pichler, D Wirthl, M Drack, M Hollensteiner, ... 2017 39th Annual International Conference of the IEEE Engineering in …, 2017	10	2017
Stretch‐Safe: magnetic connectors for modular stretchable electronics G Kettlgruber, D Danninger, R Moser, M Drack, CM Siket, D Wirthl, ... Advanced Intelligent Systems 2 (8), 2000065, 2020	8	2020
iSens: A Fiber‐Based, Highly Permeable and Imperceptible Sensor Design (Adv. Mater. 37/2021) T Stockinger, D Wirthl, G Mao, M Drack, R Pruckner, S Demchyshyn, ... Advanced Materials 33 (37), 2170293, 2021	1	2021
Soft deformable electronics/Author DI Michael Drack M Drack		2017

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