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Timotheus Jahnke
Timotheus Jahnke
Max Planck Institute for Medical Research
Bestätigte E-Mail-Adresse bei mr.mpg.de
Titel
Zitiert von
Zitiert von
Jahr
Cancer cells biomineralize ionic gold into nanoparticles-microplates via secreting defense proteins with specific gold-binding peptides
AV Singh, T Jahnke, V Kishore, BW Park, M Batuwangala, J Bill, M Sitti
Acta biomaterialia 71, 61-71, 2018
532018
Anisotropic gold nanostructures: optimization via in silico modeling for hyperthermia
AV Singh, T Jahnke, S Wang, Y Xiao, Y Alapan, S Kharratian, MC Onbasli, ...
ACS Applied Nano Materials 1 (11), 6205-6216, 2018
522018
Emerging cold plasma treatment and machine learning prospects for seed priming: a step towards sustainable food production
A Shelar, AV Singh, P Dietrich, RS Maharjan, A Thissen, PN Didwal, ...
RSC advances 12 (17), 10467-10488, 2022
502022
Nanobiomaterials for vascular biology and wound management: A review
AV Singh, D Gemmati, A Kanase, I Pandey, V Misra, V Kishore, T Jahnke, ...
Veins and Lymphatics 7 (2), 7196-34-7196-47, 2018
432018
Seed-mediated synthesis of plasmonic gold nanoribbons using cancer cells for hyperthermia applications
AV Singh, Y Alapan, T Jahnke, P Laux, A Luch, A Aghakhani, ...
Journal of Materials Chemistry B 6 (46), 7573-7581, 2018
402018
Peptide-induced biomineralization of tin oxide (SnO2) nanoparticles for antibacterial applications
AV Singh, T Jahnke, Y Xiao, S Wang, Y Yu, H David, G Richter, P Laux, ...
Journal of nanoscience and nanotechnology 19 (9), 5674-5686, 2019
342019
Highly Porous Free-Standing rGO/SnO2 Pseudocapacitive Cathodes for High-Rate and Long-Cycling Al-Ion Batteries
T Jahnke, L Raafat, D Hotz, A Knöller, AM Diem, J Bill, Z Burghard
Nanomaterials 10 (10), 2024, 2020
172020
Genetically Induced In Situ‐Poling for Piezo‐Active Biohybrid Nanowires
S Kilper, T Jahnke, M Aulich, Z Burghard, D Rothenstein, J Bill
Advanced Materials 31 (6), 1805597, 2019
172019
Shape-conformable, eco-friendly cellulose aerogels as high-performance battery separators
L Raafat, B Wicklein, G Majer, T Jahnke, AM Diem, J Bill, Z Burghard
ACS Applied Energy Materials 4 (1), 763-774, 2020
162020
Synthesis of nanoporous organic/inorganic hybrid materials with adjustable pore size
Y Qawasmi, P Atanasova, T Jahnke, Z Burghard, A Müller, L Grassberger, ...
Colloid and Polymer Science 296 (11), 1805-1816, 2018
92018
Microstructural Modeling and Simulation of a Carbon Black-Based Conductive Polymer─ A Template for the Virtual Design of a Composite Material
Y Wang, C Xu, T Jahnke, W Verestek, S Schmauder, JP Spatz
ACS omega 7 (33), 28820-28830, 2022
62022
Peptide controlled shaping of biomineralized tin (II) oxide into flower-like particles
S Kilper, T Jahnke, K Wiegers, V Grohe, Z Burghard, J Bill, D Rothenstein
Materials 12 (6), 904, 2019
42019
Bioinspired synthesis of SnO crosses as backbone in artificial sponges
T Jahnke, S Kilper, A Knöller, F Brümmer, M Widenmeyer, D Rothenstein, ...
Philosophical Transactions of the Royal Society A 377 (2150), 20190130, 2019
22019
Coalescence in Hybrid Materials: The Key to High-Capacity Electrodes
T Jahnke, A Knöller, S Kilper, D Rothenstein, M Widenmeyer, ...
ACS Applied Energy Materials 1 (12), 7085-7092, 2018
12018
Method for optimizing material properties of components of a battery, manufacturing a fiber network, an electrode and a battery
T Jahnke, W Yuanzhen, E Farley, J Spatz
US Patent App. 18/289,132, 2024
2024
Evaluation of Acoustophoretic and Dielectrophoretic Forces for Droplet Injection in Droplet-Based Microfluidic Devices
JA De Lora, F Aubermann, C Frey, T Jahnke, Y Wang, S Weber, ...
ACS omega 9 (14), 16097-16105, 2024
2024
Filter
T Jahnke, M Hackner, J Spatz
US Patent App. 18/037,575, 2024
2024
Controlled microfluidic droplet acoustoinjection on one chip
C Frey, JA De Lora, T Jahnke, Y Wang, S Weber, I Platzman, JP Spatz
2022
Network of metal fibers, method for producing a network of metal fibers, electrode and battery
M Hackner, T Jahnke, Z Burghard, A Micoulet, JP Spatz, M Möller
US Patent App. 17/260,420, 2021
2021
Bioinspired structure tailoring of tin oxide based materials for high capacity electrodes
TH Jahnke
Universität Stuttgart Stuttgart, 2021
2021
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