Distributed Feedback Lasers by Thermal Nanoimprint of Perovskites Using Gelatin Gratings
Allegro, I.; Bonal, V.; Mamleyev, E. R.; Villalvilla, J. M.; Quintana, J. A.; Jin, Q.; Díaz-García, M. A.; Lemmer, U.
2023. ACS Applied Materials & Interfaces. doi:10.1021/acsami.2c22920 

3D-printed facet-attached microlenses for advanced photonic system assembly
Xu, Y.; Maier, P.; Trappen, M.; Dietrich, P.-I.; Blaicher, M.; Jutas, R.; Weber, A.; Kind, T.; Dankwart, C.; Stephan, J.; Steffan, A.; Abbasi, A.; Morrissey, P.; Gradkowski, K.; Kelly, B.; O’Brien, P.; Freude, W.; Koos, C.
2023. Light: Advanced Manufacturing, 4 (3). doi:10.37188/lam.2023.003  

Process Insights into Perovskite Thin‐Film Photovoltaics from Machine Learning with In Situ Luminescence Data
Laufer, F.; Ziegler, S.; Schackmar, F.; Viteri, E. A. M.; Götz, M.; Debus, C.; Isensee, F.; Paetzold, U. W.
2023. Solar RRL. doi:10.1002/solr.202201114 

Smartphone Authentication of Unclonable Anticounterfeiting Labels based on a Microlens Array atop a Microphosphor‐Doped Layer
Kumar, V.; Gota, F.; Neyret, J.; Katumo, N.; Chauhan, A.; Dottermusch, S.; Richards, B. S.; Howard, I. A.
2023. Advanced Materials Technologies, Art.-Nr.: 2201311. doi:10.1002/admt.202201311  

SABRE Hyperpolarization with up to 200 bar Parahydrogen in Standard and Quickly Removable Solvents
Duchowny, A.; Denninger, J.; Lohmann, L.; Theis, T.; Lehmkuhl, S.; Adams, A.
2023. International Journal of Molecular Sciences, 24 (3), Art.-Nr.: 2465. doi:10.3390/ijms24032465  

Bulk Incorporation with 4‐Methylphenethylammonium Chloride for Efficient and Stable Methylammonium‐Free Perovskite and Perovskite‐Silicon Tandem Solar Cells
Duong, T.; Nguyen, T.; Huang, K.; Pham, H.; Adhikari, S. G.; Khan, M. R.; Duan, L.; Liang, W.; Fong, K. C.; Shen, H.; Bui, A. D.; Mayon, A. O.; Truong, T.; Tabi, G.; Ahmad, V.; Surve, S.; Tong, J.; Kho, T.; Tran-Phu, T.; Lu, T.; Zheng, J.; Paetzold, U. W.; Lemmer, U.; Baillie, A. H.; Liu, Y.; Andersson, G.; White, T.; Weber, K.; Catchpole, K.
2023. Advanced Energy Materials, Art.-Nr.: 2203607. doi:10.1002/aenm.202203607  

Evaporated Self‐Assembled Monolayer Hole Transport Layers: Lossless Interfaces in p‐i‐n Perovskite Solar Cells
Farag, A.; Feeney, T.; Hossain, I. M.; Schackmar, F.; Fassl, P.; Küster, K.; Bäuerle, R.; Ruiz-Preciado, M. A.; Hentschel, M.; Ritzer, D. B.; Diercks, A.; Li, Y.; Nejand, B. A.; Laufer, F.; Singh, R.; Starke, U.; Paetzold, U. W.
2023. Advanced Energy Materials, Art.-Nr.: 2203982. doi:10.1002/aenm.202203982  

The Impact of Carbon Nanotube Length and Diameter on their Global Alignment by Dead‐End Filtration
Rust, C.; Shapturenka, P.; Spari, M.; Jin, Q.; Li, H.; Bacher, A.; Guttmann, M.; Zheng, M.; Adel, T.; Walker, A. R. H.; Fagan, J. A.; Flavel, B. S.
2023. Small, Art.-Nr.: 2206774. doi:10.1002/smll.202206774  

Device Performance of Emerging Photovoltaic Materials (Version 3)
Almora, O.; Baran, D.; Bazan, G. C.; Cabrera, C. I.; Erten-Ela, S.; Forberich, K.; Guo, F.; Hauch, J.; Ho-Baillie, A. W. Y.; Jacobsson, T. J.; Janssen, R. A. J.; Kirchartz, T.; Kopidakis, N.; Loi, M. A.; Lunt, R. R.; Mathew, X.; McGehee, M. D.; Min, J.; Mitzi, D. B.; Nazeeruddin, M. K.; Nelson, J.; Nogueira, A. F.; Paetzold, U. W.; Rand, B. P.; Rau, U.; Snaith, H. J.; Unger, E.; Vaillant-Roca, L.; Yang, C.; Yip, H.-L.; Brabec, C. J.
2023. Advanced Energy Materials, 13 (1), Art.-Nr.: 2203313. doi:10.1002/aenm.202203313  

Synthetic microbial consortia bioprocessing integrated with pyrolysis for efficient conversion of cellulose to valuables
Joshi, C.; Kumar, M.; Bennett, M.; Thakur, J.; Leak, D. J.; Sharma, S.; MacKinnon, N.; Masakapalli, S. K.
2023. Bioresource Technology Reports, 21, 101316. doi:10.1016/j.biteb.2022.101316 

Characterization of the flow rate on lab-on-a-disc by a low-powered electrolysis pump for wireless-controlled automation of bioanalytical assays
Romero-Soto, F. O.; Weber, L.; Mager, D.; Aeinehvand, M. M.; Martinez-Chapa, S. O.
2023. Sensors and Actuators B: Chemical, 377, Art.-Nr.: 133025. doi:10.1016/j.snb.2022.133025 

A displacer coupled thermoacoustic cooler driven by heat and electricity
Hu, J.; Hu, J.; Sun, Y.; Xu, J.; Jia, Z.; Zhang, L.; Luo, E.; Gao, B.
2023. Applied Thermal Engineering, 220, Art.Nr. 119641. doi:10.1016/j.applthermaleng.2022.119641 

A Stirling generator with multiple bypass expansion for variable-temperature waste heat recovery
Jiang, Z.; Xu, J.; Yu, G.; Yang, R.; Wu, Z.; Hu, J.; Zhang, L.; Luo, E.
2023. Applied Energy, 329, Art.-Nr.: 120242. doi:10.1016/j.apenergy.2022.120242 

Time-domain acoustic-electrical analogy investigation on a high-power traveling-wave thermoacoustic electric generator
Xiao, L.; Luo, K.; Zhao, D.; Chen, G.; Bi, T.; Xu, J.; Luo, E.
2023. Energy, 263 (Part E), Art.-Nr.: 126088. doi:10.1016/j.energy.2022.126088 

Numerical and experimental investigation on a novel heat-driven thermoacoustic refrigerator for room-temperature cooling
Chi, J.; Yang, Y.; Wu, Z.; Yang, R.; Li, P.; Xu, J.; Zhang, L.; Hu, J.; Luo, E.
2023. Applied Thermal Engineering, 218, Art.Nr. 119330. doi:10.1016/j.applthermaleng.2022.119330 

Enhanced photocatalytic efficiency via improved contact in a solar-driven membrane reactor for steroid hormone removal
Lyubimenko, R.; Turshatov, A.; Welle, A.; Weidler, P. G.; Richards, B. S.; Schäfer, A. I.
2023. Chemical Engineering Journal, 451, Art.-Nr.: 138449. doi:10.1016/j.cej.2022.138449 

Metal organic framework-derived Ni4Mo/MoO2@C composite nanospheres as the sensing materials for hydrogen sulfide detection
Karuppasamy, K.; Sharma, B.; Vikraman, D.; Lee, J.-H.; Islam, M.; Santhoshkumar, P.; Kim, H.-S.
2022. Journal of Alloys and Compounds, 900, Artkl.Nr.: 163421. doi:10.1016/j.jallcom.2021.163421 

Evaluating carbon-electrode dielectrophoresis under the ASSURED criteria
Martinez-Duarte, R.; Mager, D.; Korvink, J. G.; Islam, M.
2022. Frontiers in Medical Technology, 4. doi:10.3389/fmedt.2022.922737 

Boron Nitride Nanotubes Modified on a Lead-Free Solder Alloy for Microelectromechanical Packaging
Sharma, B.; Kumar, M.; Kumar, V.; Sharma, A.
2022. ACS Applied Nano Materials, 5 (9), 13626–13636. doi:10.1021/acsanm.2c03382 

Experimental and Numerical Crushing Analysis of a Novel Multibody Thin-Walled Circular Tube Under Axial Impact Loading
Mozafari, A.; Azarandaz, P.; Darijani, H.; Shahsavari, H.
2022. International Journal of Applied Mechanics, 14 (09), Art.-Nr.: 2250042. doi:10.1142/S1758825122500429 

Parahydrogen‐Induced Carbon‐13 Radiofrequency Amplification by Stimulated Emission of Radiation
Nelson, C.; Schmidt, A. B.; Adelabu, I.; Nantogma, S.; Kiselev, V. G.; Abdurraheem, A.; de Maissin, H.; Lehmkuhl, S.; Appelt, S.; Theis, T.; Chekmenev, E. Y.
2022. Angewandte Chemie - International Edition, Art.-Nr.: e202215678. doi:10.1002/anie.202215678 

A thermoacoustic cooler with a bypass expansion for distributed-temperature heat loads
Hu, Y.; Wang, X.; Wu, Z.; Zhang, L.; Chen, G.; Xu, J.; Luo, E.
2022. Applied Physics Letters, 121 (20), Art.-Nr.: 203905. doi:10.1063/5.0125314 

Lenz Lenses in a Cryoprobe: Boosting NMR Sensitivity Toward Environmental Monitoring of Mass-Limited Samples
Bastawrous, M.; Ghosh Biswas, R.; Soong, R.; Jouda, M.; MacKinnon, N.; Mager, D.; Korvink, J. G.; Simpson, A. J.
2022. Analytical Chemistry. doi:10.1021/acs.analchem.2c04203 

Comparison of Quantum Yield of Upconversion Nanocrystals Determined by Absolute and Relative Methods
Madirov, E.; Busko, D.; Cardona, F. A.; Hudry, D.; Kuznetsov, S. V.; Konyushkin, V. A.; Nakladov, A. N.; Alexandrov, A. A.; Howard, I. A.; Richards, B. S.; Turshatov, A.
2022. Advanced Photonics Research, Art.-Nr.: 2200187. doi:10.1002/adpr.202200187  

Granular aluminium nanojunction fluxonium qubit
Rieger, D.; Günzler, S.; Spiecker, M.; Paluch, P.; Winkel, P.; Hahn, L.; Hohmann, J. K.; Bacher, A.; Wernsdorfer, W.; Pop, I. M.
2022. Nature Materials. doi:10.1038/s41563-022-01417-9 

Selective Detection of Aromatic Compounds with a Re-Designed Surface Acoustic Wave Sensor System Using a Short Packed Column
Carriel Schmitt, C.; Rapp, M.; Voigt, A.; De Carvalho, M. dos S.
2022. Coatings, 12 (11), Art.-Nr.: 1666. doi:10.3390/coatings12111666  

Energy Yield Modeling of Bifacial All‐Perovskite Two‐Terminal Tandem Photovoltaics
Gota, F.; An, S. X.; Hu, H.; Abdollahi Nejand, B.; Paetzold, U. W.
2022. Advanced Optical Materials, Art.-Nr.: 2201691. doi:10.1002/adom.202201691  

UV-Light-Tunable p-/n-Type Chemiresistive Gas Sensors Based on Quasi-1D TiS3 Nanoribbons: Detection of Isopropanol at ppm Concentrations
Sysoev, V. V.; Lashkov, A. V.; Lipatov, A.; Plugin, I. A.; Bruns, M.; Fuchs, D.; Varezhnikov, A. S.; Adib, M.; Sommer, M.; Sinitskii, A.
2022. Sensors, 22 (24), Art.-Nr.: 9815. doi:10.3390/s22249815  

Fully Printed Temperature Sensor Array Comprising 625 60×60 µm${}^2$ pixels
Huber, R.; Eizaguirre, S.; Mescher, H.; Willig, C.; Zhang, Q.; Lemmer, U.
2022. Advanced Sensor Research, Art.-Nr.: 2200031. doi:10.1002/adsr.202200031 

3D-printed facet-attached optical elements for beam shaping in optical phased arrays
Singer, S.; Xu, Y.; Skacel, S. T.; Bao, Y.; Zwickel, H.; Maier, P.; Freter, L.; Dietrich, P.-I.; Kaschel, M.; Menzel, C.; Randel, S.; Freude, W.; Koos, C.
2022. Optics Express, 30 (26), 46564–46574. doi:10.1364/OE.456952  

3D-printed facet-attached optical elements for connecting VCSEL and photodiodes to fiber arrays and multi-core fibers
Maier, P.; Xu, Y.; Trappen, M.; Lauermann, M.; Henniger-Ludwig, A.; Kapim, H.; Kind, T.; Dietrich, P.-I.; Weber, A.; Blaicher, M.; Wurster, C.; Randel, S.; Freude, W.; Koos, C.
2022. Optics Express, 30 (26), 46602–46625. doi:10.1364/OE.470676  

Gas-assisted blade-coating of organic semiconductors: molecular assembly, device fabrication and complex thin-film structuring
Mejri, H.; Haidisch, A.; Krebsbach, P.; Seiberlich, M.; Hernandez-Sosa, G.; Perevedentsev, A.
2022. Nanoscale, 14 (47), 17743–17753. doi:10.1039/d2nr05947a  

Implied Open‐circuit Voltage Imaging via a Single Bandpass Filter Method—Its First Application in Perovskite Solar Cells
Soufiani, A. M.; Lee-Chin, R.; Fassl, P.; Mahmud, M. A.; Pollard, M. E.; Zheng, J.; Weber, J. W.; Ho-Baillie, A.; Trupke, T.; Hameiri, Z.
2022. Advanced Functional Materials, Art.-Nr.: 2210592. doi:10.1002/adfm.202210592  

In Situ Process Monitoring and Multichannel Imaging for Vacuum‐Assisted Growth Control of Inkjet‐Printed and Blade‐Coated Perovskite Thin‐Films
Schackmar, F.; Laufer, F.; Singh, R.; Farag, A.; Eggers, H.; Gharibzadeh, S.; Abdollahi Nejand, B.; Lemmer, U.; Hernandez-Sosa, G.; Paetzold, U. W.
2022. Advanced Materials Technologies, Art.-Nr.: 2201331. doi:10.1002/admt.202201331  

Real-time degradation of methylene blue using bio-inspired superhydrophobic PDMS tube coated with Ta-ZnO composite
Verma, G.; Islam, M.; Gupta, A.
2022. Chemical Engineering Journal Advances, 12, Art.-Nr.: 100423. doi:10.1016/j.ceja.2022.100423  

Acquisitions with random shim values enhance AI-driven NMR shimming
Becker, M.; Lehmkuhl, S.; Kesselheim, S.; Korvink, J. G.; Jouda, M.
2022. Journal of Magnetic Resonance, 345, Art.-Nr.: 107323. doi:10.1016/j.jmr.2022.107323 

Quantifying Deformation and Migration Properties of U87 Glioma Cells Using Dielectrophoretic Forces
Elitas, M.; Islam, M.; Korvink, J. G.; Sengul, E.; Sharbati, P.; Ozogul, B.; Kaymaz, S. V.
2022. Biosensors, 12 (11), Art.-Nr.: 946. doi:10.3390/bios12110946  

Roll-to-roll fabrication of superhydrophobic pads covered with nanofur for the efficient clean-up of oil spills
Weiser, P.; Kietz, R.; Schneider, M.; Worgull, M.; Hölscher, H.
2022. Beilstein Journal of Nanotechnology, 13, 1228–1239. doi:10.3762/bjnano.13.102 

Mitigation of Open‐Circuit Voltage Losses in Perovskite Solar Cells Processed over Micrometer‐Sized‐Textured Si Substrates
Farag, A.; Fassl, P.; Hu, H.; Feeney, T.; Quintilla, A.; Ruiz-Preciado, M. A.; Hempel, W.; Bagrowski, D.; Noack, P.; Wattenberg, B.; Dippell, T.; Paetzold, U. W.
2022. Advanced Functional Materials, 33 (3), Art.-Nr.: 2210758. doi:10.1002/ADFM.202210758  

Heat-driven Thermoacoustic Cooling Technology: A Review and Perspective [热驱动热声制冷技术发展现状与展望]
Xu, J.; Luo, E.
2022. Zhileng-xuebao = Journal of refrigeration, 43 (4), 12–25. doi:10.3969/j.issn.0253-4339.2022.04.012 

Tracing the technology development and trends of hard carbon anode materials - A market and patent analysis
Liu, H.; Baumann, M.; Dou, X.; Klemens, J.; Schneider, L.; Wurba, A.-K.; Häringer, M.; Scharfer, P.; Ehrenberg, H.; Schabel, W.; Fleischer, J.; von der Aßen, N.; Weil, M.
2022. Journal of Energy Storage, 56 (B), Art.-Nr.: 105964. doi:10.1016/j.est.2022.105964  

Integrated electrochemical and photocatalytic degradation using ZnO caterpillars photocatalyst: Two-step approach for textile industry based wastewater recovery
Verma, G.; Rai, P. K.; Korvink, J. G.; Islam, M.; Gupta, A.
2022. Materials Science and Engineering B: Solid-State Materials for Advanced Technology, 286, Art.Nr. 116078. doi:10.1016/j.mseb.2022.116078 

Imaging a microfocus X-ray focal spot with a thin coded aperture
Davis, G. R.; Beckenbach, T.; Meyer, P.
2022. Scientific Reports, 12 (1), Artikel-Nr.: 18635. doi:10.1038/s41598-022-23338-y  

Surface characterisation reveals substrate suitability for Cyanobacterial phototaxis
Julius, L. A. N.; Matter, L.; Schuergers, N.; Lützenkirchen, J.; Trouillet, V.; Gil-Díaz, T.; Mamleyev, E. R.; Wilde, A.; Badilita, V.; Korvink, J. G.
2022. Acta Biomaterialia. doi:10.1016/j.actbio.2022.10.035  

Coupled Finite Element Simulation of Shape Memory Bending Microactuator
Tshikwand, G. K.; Seigner, L.; Wendler, F.; Kohl, M.
2022. Shape Memory and Superelasticity, 8, 373–393. doi:10.1007/s40830-022-00396-9  

Limitation of room temperature phosphorescence efficiency in metal organic frameworks due to triplet-triplet annihilation
Zhao, T.; Busko, D.; Richards, B. S.; Howard, I. A.
2022. Frontiers in Chemistry, 10, Art.-Nr.: 1010857. doi:10.3389/fchem.2022.1010857  

Transformation-optics modeling of 3D-printed freeform waveguides
Nesic, A.; Blaicher, M.; Orlandini, E.; Olariu, T.; Paszkiewicz, M.; Negredo, F.; Kraft, P.; Sukhova, M.; Hofmann, A.; Dörfler, W.; Rockstuhl, C.; Freude, W.; Koos, C.
2022. Optics Express, 30 (21), 38856–38879. doi:10.1364/OE.452243 

Inkjet-Printed Dual-Mode Electrochromic and Electroluminescent Displays Incorporating Ecofriendly Materials
Pietsch, M.; Casado, N.; Mecerreyes, D.; Hernandez-Sosa, G.
2022. ACS Applied Materials and Interfaces, 14 (38), 43568–43575. doi:10.1021/acsami.2c12799 

Microfluidic devices for the detection of contamination in water samples: A review
Rai, P. K.; Islam, M.; Gupta, A.
2022. Sensors and Actuators A: Physical, 347, Art.Nr. 113926. doi:10.1016/j.sna.2022.113926 

Preparation of Electrospun Porous Alumina Nanofibers for Origami‐Inspired Manufacturing
Ni, Y.; Gupta, A.; Verma, G.; Gupta, S.; Weidler, P. G.; Mager, D.; Korvink, J. G.; Islam, M.
2022. Advanced Engineering Materials, 24 (12), Artkl.Nr.: 2201183. doi:10.1002/adem.202201183  

Bulk morphology of porous materials at submicrometer scale studied by dark-field x-ray imaging with Hartmann masks
Zakharova, M.; Mikhaylov, A.; Reich, S.; Plech, A.; Kunka, D.
2022. Physical Review B, 106 (14), Art.-Nr.: 144204. doi:10.1103/PhysRevB.106.144204  

Magnetic characterization of Permalloy nanodome surfaces on flexible PEEK/TiO 2 vertical nanotubes composites
Martin-Rubio, C.; Rivelles, A.; Schneider, M.; Del Hoyo, J. C.; Privitera, V.; Worgull, M.; Maicas, M.; Sanz, R.
2022. IEEE Transactions on Magnetics, 1. doi:10.1109/TMAG.2022.3212831 

Towards market commercialization: Lifecycle economic and environmental evaluation of scalable perovskite solar cells
Martulli, A.; Rajagopalan, N.; Gota, F.; Meyer, T.; Paetzold, U. W.; Claes, S.; Salone, A.; Verboven, J.; Malina, R.; Vermang, B.; Lizin, S.
2022. Progress in Photovoltaics: Research and Applications. doi:10.1002/pip.3623 

Simulating multilevel diffractive optical elements on a spatial light modulator
Mohapi, L.; Geiger, L. M.; Korvink, J. G.; Dudley, A.; Forbes, A.
2022. Applied Optics, 61 (26), 7625–7631. doi:10.1364/AO.469511 

Enhancement of Shock Absorption Using Hybrid SMA-MRF Damper by Complementary Operation
Jacob, K.; Tan, A. S.; Sattel, T.; Kohl, M.
2022. Actuators, 11 (10). doi:10.3390/act11100280  

Four-terminal Perovskite/CIGS Tandem Solar Cells: Unveiling the Path to >27% in Power Conversion Efficiency
Hossain, I. M.; Feeney, T.; Gharibzadeh, S.; Gota, F.; Singh, R.; Fassl, P.; Mertens, A.; Farag, A.; Becker, J.-P.; Paetel, S.; Ahlswede, E.; Paetzold, U. W.
2022. Solar RRL, 6 (12), Art.Nr. 2200662. doi:10.1002/solr.202200662 

Metal Organic Framework-Derived ZnO@GC Nanoarchitecture as an Effective Hydrogen Gas Sensor with Improved Selectivity and Gas Response
Sharma, A.; Karuppasamy, K.; Vikraman, D.; Cho, Y.; Adaikalam, K.; Korvink, J. G.; Kim, H.-S.; Sharma, B.
2022. ACS Applied Materials & Interfaces, 14 (39), 44516–44526. doi:10.1021/acsami.2c10706 

Towards single-cell pulsed EPR using VCO-based EPR-on-a-chip detectors
Hassan, M. A.; Kern, M.; Chu, A.; Kalra, G.; Shabratova, E.; Tsarapkin, A.; MacKinnon, N.; Lips, K.; Teutloff, C.; Bittl, R.; Korvink, J. G.; Anders, J.
2022. Frequenz, 76 (11-12), 699–717. doi:10.1515/freq-2022-0096 

Inorganic‐based printed thermoelectric materials and devices
Sarbajna, A.; Rösch, A. G.; Franke, L.; Lemmer, U.; Mallick, M. M.
2022. Advanced Engineering Materials. doi:10.1002/adem.202200980  

Highly Fluorinated Peptide Probes with Enhanced In Vivo Stability for ${}^{19}$F‐MRI
Meng, B.; Grage, S. L.; Babii, O.; Takamiya, M.; MacKinnon, N.; Schober, T.; Hutskalov, I.; Nassar, O.; Afonin, S.; Koniev, S.; Komarov, I. V.; Korvink, J. G.; Strähle, U.; Ulrich, A. S.
2022. Small, 18 (41), Art.Nr. 2107308. doi:10.1002/smll.202107308  

High Figure‐of‐Merit Telluride‐Based Flexible Thermoelectric Films through Interfacial Modification via Millisecond Photonic‐Curing for Fully Printed Thermoelectric Generators
Mallick, M. M.; Franke, L.; Rösch, A. G.; Geßwein, H.; Long, Z.; Eggeler, Y. M.; Lemmer, U.
2022. Advanced Science, 9 (31), Art.Nr.: 2202411. doi:10.1002/advs.202202411  

All-optical thermometry using a single multimode fiber endoscope and diamond nanoparticles containing nitrogen vacancy centers
Ishikawa, L.; Shikama, T.; Kakuno, T.; Watanabe, T.; Jouda, M.; Hasuo, M.
2022. Review of Scientific Instruments, 93 (8), Art.-Nr.: 083705. doi:10.1063/5.0102531 

Bulk and Surface Acoustic Wave Biosensors for Milk Analysis
Länge, K.
2022. Biosensors, 12 (8), 602. doi:10.3390/bios12080602  

Correlated Study of Material Interaction Between Capillary Printed Eutectic Gallium Alloys and Gold Electrodes
Hussain, N.; Scherer, T.; Das, C.; Heuer, J.; Debastiani, R.; Gumbsch, P.; Aghassi-Hagmann, J.; Hirtz, M.
2022. Small, 18 (42), Article no: 2202987. doi:10.1002/smll.202202987  

Sample-centred shimming enables independent parallel NMR detection
Cheng, Y.-T.; Jouda, M.; Korvink, J.
2022. Scientific Reports, 12 (1), Article no: 14149. doi:10.1038/s41598-022-17694-y  

Topology optimization for surface flows
Deng, Y.; Zhang, W.; Liu, Z.; Zhu, J.; Korvink, J. G.
2022. Journal of Computational Physics, 467, Article no: 111415. doi:10.1016/j.jcp.2022.111415 

Aerosol Jet Printing of 3D Pillar Arrays from Photopolymer Ink
Vlnieska, V.; Gilshtein, E.; Kunka, D.; Heier, J.; Romanyuk, Y. E.
2022. Polymers, 14 (16), Article no: 3411. doi:10.3390/polym14163411  

Numerical study on a heat-driven thermoacoustic cryocooler operating near liquid-helium temperature ranges
Chi, J.; Chen, L.; Chen, G.; Zhou, Y.; Luo, E.; Xu, J.
2022. Applied Thermal Engineering, 216, Art.-Nr.: 119085. doi:10.1016/j.applthermaleng.2022.119085 

Printed temperature sensor array for high-resolution thermal mapping
Bücher, T.; Huber, R.; Eschenbaum, C.; Mertens, A.; Lemmer, U.; Amrouch, H.
2022. Scientific Reports, 12 (1), 14231. doi:10.1038/s41598-022-18321-6  

Wide Bandgap Perovskite Photovoltaic Cells for Stray Light Recycling in a System Emitting Broadband Polarized Light
Martínez-Denegri, G.; Ferreira, C. G.; Ruiz-Preciado, M. A.; Fassl, P.; Kramarenko, M.; Paetzold, U. W.; Martorell, J.
2022. Advanced Energy Materials, 12 (36), Art.-Nr.: 2201473. doi:10.1002/aenm.202201473  

Expanding the Angle of Incidence Tolerance of Unclonable Anticounterfeiting Labels Based on Microlens Arrays and Luminescent Microparticles
Kumar, V.; Dottermusch, S.; Chauhan, A.; Richards, B. S.; Howard, I. A.
2022. Advanced Photonics Research, 3 (6), Art.-Nr.: 2100202. doi:10.1002/adpr.202100202  

Automated Laser‐Transfer Synthesis of High‐Density Microarrays for Infectious Disease Screening
Paris, G.; Heidepriem, J.; Tsouka, A.; Liu, Y.; Mattes, D. S.; Pinzón Martín, S.; Dallabernardina, P.; Mende, M.; Lindner, C.; Wawrzinek, R.; Rademacher, C.; Seeberger, P. H.; Breitling, F.; Bischoff, F. R.; Wolf, T.; Loeffler, F. F.
2022. Advanced Materials, 34 (23), Art.Nr. 2200359. doi:10.1002/adma.202200359  

RASER MRI: Magnetic resonance images formed spontaneously exploiting cooperative nonlinear interaction
Lehmkuhl, S.; Fleischer, S.; Lohmann, L.; Rosen, M. S.; Chekmenev, E. Y.; Adams, A.; Theis, T.; Appelt, S.
2022. Science Advances, 8, Art.-Nr.: eabp8483. doi:10.1126/sciadv.abp8483  

Numerical study of a heat-driven thermoacoustic refrigerator based on a time-domain lumped acoustic–electrical analogy model
Xiao, L.; Xu, J.; Luo, K.; Chen, G.; Luo, E.
2022. Energy Conversion and Management, 268, Art.-Nr.: 115982. doi:10.1016/j.enconman.2022.115982 

Time resolved in-situ multi-contrast X-ray imaging of melting in metals
Massimi, L.; Clark, S. J.; Marussi, S.; Doherty, A.; Shah, S. M.; Schulz, J.; Marathe, S.; Rau, C.; Endrizzi, M.; Lee, P. D.; Olivo, A.
2022. Scientific Reports, 12, Art.-Nr.: 12136. doi:10.1038/s41598-022-15501-2  

Net-phase flow NMR for compact applications
Silva, P. F.; Jouzdani, M. A.; Condesso, M.; Hurtado Rivera, A. C.; Jouda, M.; Korvink, J. G.
2022. Journal of Magnetic Resonance, 341, Art.-Nr. 107233. doi:10.1016/j.jmr.2022.107233  

Scanning high-sensitive x-ray polarization microscopy
Marx-Glowna, B.; Grabiger, B.; Lötzsch, R.; Uschmann, I.; Schmitt, A. T.; Schulze, K. S.; Last, A.; Roth, T.; Antipov, S.; Schlenvoigt, H.-P.; Sergueev, I.; Leupold, O.; Röhlsberger, R.; Paulus, G. G.
2022. New Journal of Physics, 24 (5), 053051. doi:10.1088/1367-2630/ac6e80  

Erratum: “Dosimetry on first clinical dark‐field chest radiography" Med Phys 48(10), 6152–6159
Frank, M.; Urban, T.; Willer, K.; Noichl, W.; De Marco, F.; Schick, R.; Gleich, B.; Schegerer, A.; Lechel, U.; Meyer, P.; Mohr, J.; Koehler, T.; Yaroshenko, A.; Maack, I.; Pralow, T.; Proksa, R.; Renger, B.; Noël, P.; Fingerle, A.; Pfeiffer, D.; Rummeny, E.; Herzen, J.; Pfeiffer, F.
2022. Medical Physics, 49 (7), 4933–4934. doi:10.1002/mp.15770 

Scalable two-terminal all-perovskite tandem solar modules with a 19.1% efficiency
Abdollahi Nejand, B.; Ritzer, D. B.; Hu, H.; Schackmar, F.; Moghadamzadeh, S.; Feeney, T.; Singh, R.; Laufer, F.; Schmager, R.; Azmi, R.; Kaiser, M.; Abzieher, T.; Gharibzadeh, S.; Ahlswede, E.; Lemmer, U.; Richards, B. S.; Paetzold, U. W.
2022. Nature Energy, 7, 620–630. doi:10.1038/s41560-022-01059-w  

Electrospun carbon nanofibre-assisted patterning of metal oxide nanostructures
Islam, M.; Dolle, C.; Sadaf, A.; Weidler, P. G.; Sharma, B.; Eggeler, Y. M.; Mager, D.; Korvink, J. G.
2022. Microsystems & Nanoengineering, 8 (1), Art.Nr. 71. doi:10.1038/s41378-022-00409-8  

Direct observation of significant hot carrier cooling suppression in a two-dimensional silicon phononic crystal
Yan, W.; Long, L.; Zang, Y.; Yang, G.; Liang, G.
2022. NPG Asia Materials, 14, Art.-Nr.: 51. doi:10.1038/s41427-022-00397-1  

Selective Solar Harvesting Windows for Full‐Spectrum Utilization
Li, W.; Lin, C.; Huang, G.; Hur, J.; Huang, B.; Yao, S.
2022. Advanced Science, 9 (21), Art.Nr. 2201738. doi:10.1002/advs.202201738  

Influence of microheater patterns: MoSi2-SnO2 as energy-saving chemiresistors for gas sensing applications
Sharma, A.; Sharma, B.
2022. Sensors and Actuators B: Chemical, 351, Art.Nr. 130901. doi:10.1016/j.snb.2021.130901 

Corrigendum to “Influence of microheater patterns: MoSi${}_2$-SnO${}_2$ as energy-saving chemiresistors for gas sensing applications” [Sens. Actuators B Chem. 351 (2022) 130901]
Sharma, A.; Sharma, B.
2022. Sensors and Actuators B: Chemical, 361, Art.Nr. 131712. doi:10.1016/j.snb.2022.131712 

Taxonomy for engineered living materials
Lantada, A. D.; Korvink, J. G.; Islam, M.
2022. Cell Reports Physical Science, 3 (4), Art.-Nr.: 100807. doi:10.1016/j.xcrp.2022.100807  

Renewable energy powered membrane technology: Energy consumption analysis of ultrafiltration backwash configurations
Li, S.; Milia, M.; Schäfer, A. I.; Richards, B. S.
2022. Separation and Purification Technology, 287, Art.-Nr.: 120388. doi:10.1016/j.seppur.2021.120388 

Fabrication of Bragg Mirrors by Multilayer Inkjet Printing
Zhang, Q.; Jin, Q.; Mertens, A.; Rainer, C.; Huber, R.; Fessler, J.; Hernandez-Sosa, G.; Lemmer, U.
2022. Advanced Materials, Article no: 2201348. doi:10.1002/adma.202201348 

Thermal processes of miniature thermomagnetic generators in resonant self-actuation mode
Joseph, J.; Ohtsuka, M.; Miki, H.; Kohl, M.
2022. iScience, 25 (7), 104569. doi:10.1016/j.isci.2022.104569  

Laminated Monolithic Perovskite/Silicon Tandem Photovoltaics
Roger, J.; Schorn, L. K.; Heydarian, M.; Farag, A.; Feeney, T.; Baumann, D.; Hu, H.; Laufer, F.; Duan, W.; Ding, K.; Lambertz, A.; Fassl, P.; Worgull, M.; Paetzold, U. W.
2022. Advanced Energy Materials, 12 (27), Art.-Nr. 2200961. doi:10.1002/aenm.202200961  

Efficient Light Harvesting in Thick Perovskite Solar Cells Processed on Industry-Applicable Random Pyramidal Textures
Farag, A.; Schmager, R.; Fassl, P.; Noack, P.; Wattenberg, B.; Dippell, T.; Paetzold, U. W.
2022. ACS Applied Energy Materials, 5 (6), 6700–6708. doi:10.1021/acsaem.1c04028 

A heat-driven combined cooling and heating system based on thermoacoustic technology
Yang, Y.; Chi, J.; Wu, Z.; Yang, R.; Xu, J.; Zhang, L.; Hu, J.; Luo, E.
2022. Applied Physics Letters, 120 (22), Art.-Nr.: 223902. doi:10.1063/5.0095482 

Development of a small-scale piezoelectric-driven thermoacoustic cooler
Chen, G.; Xu, J.
2022. Applied Thermal Engineering, 213, Art.-Nr.: 118667. doi:10.1016/j.applthermaleng.2022.118667 

Monolithic Two-Terminal Perovskite/CIS Tandem Solar Cells with Efficiency Approaching 25%
Ruiz-Preciado, M. A.; Gota, F.; Fassl, P.; Hossain, I. M.; Singh, R.; Laufer, F.; Schackmar, F.; Feeney, T.; Farag, A.; Allegro, I.; Hu, H.; Gharibzadeh, S.; Nejand, B. A.; Gevaerts, V. S.; Simor, M.; Bolt, P. J.; Paetzold, U. W.
2022. ACS Energy Letters, 7 (7), 2273–2281. doi:10.1021/acsenergylett.2c00707 

Fabrication of Microlens Arrays with High Quality and High Fill Factor by Inkjet Printing
Zhang, Q.; Schambach, M.; Schlisske, S.; Jin, Q.; Mertens, A.; Rainer, C.; Hernandez-Sosa, G.; Heizmann, M.; Lemmer, U.
2022. Advanced Optical Materials, 10 (14), Article no: 2200677. doi:10.1002/adom.202200677  

Accurate surface normal representation to facilitate gradient coil optimization on curved surface
Ren, H.; Pan, H.; Jia, F.; Korvink, J. G.; Liu, Z.
2022. Magnetic Resonance Letters. doi:10.1016/j.mrl.2022.05.001  

Charge Carrier and Exciton Dynamics in Perovskites Revealed by Time‐Integrated Photoluminescence after Double‐Pulse Excitation
Kaiser, M.; Li, Y.; Gharibzadeh, S.; Richards, B. S.; Paetzold, U. W.; Howard, I. A.
2022. Advanced Materials Technologies, 7 (11), Art.Nr.: 2200152. doi:10.1002/admt.202200152  

Stretchable inkjet-printed electronics on mechanically compliant island-bridge architectures covalently bonded to elastomeric substrates
Pietsch, M.; Schlisske, S.; Held, M.; Maag, P.; Hernandez-Sosa, G.
2022. Flexible and Printed Electronics, 7, Art.-Nr.: 025007. doi:10.1088/2058-8585/ac6c64  

Multiphysics modeling and experiments on ultrasound-triggered drug delivery from silk fibroin hydrogel for Wilms tumor
Gharehnazifam, Z.; Dolatabadi, R.; Baniassadi, M.; Shahsavari, H.; Kajbafzadeh, A.-M.; Abrinia, K.; Gharehnazifam, K.; Baghani, M.
2022. International Journal of Pharmaceutics, 621, Art.-Nr.: 121787. doi:10.1016/j.ijpharm.2022.121787 

TiNiHf/SiO 2 /Si shape memory film composites for bi-directional micro actuation
Curtis, S. M.; Sielenkämper, M.; Arivanandhan, G.; Dengiz, D.; Li, Z.; Jetter, J.; Hanke, L.; Bumke, L.; Quandt, E.; Wulfinghoff, S.; Kohl, M.; Kohl, M.
2022. International Journal of Smart and Nano Materials, 13 (2), 293–314. doi:10.1080/19475411.2022.2071352  

Investigation on the mechanical interface stability of curved high aspect ratio x-ray gratings made by deep x-ray lithography
Richter, M.; Beckenbach, T.; Daerr, H.; Prevrhal, S.; Börner, M.; Gutekunst, J.; Zangi, P.; Last, A.; Korvink, J. G.; Meyer, P.
2022. Journal of Micro/Nanopatterning, Materials, and Metrology, 21 (2), Art.Nr. 024901. doi:10.1117/1.JMM.21.2.024901 

Surface Color on Demand: Chameleon Effect
Mougin, K.; Hoelscher, H.; Spangenberg, A.
2022. JOM, 74 (3), 847–852. doi:10.1007/s11837-021-05138-3 

Influence of the Available Surface Area and Cell Elasticity on Bacterial Adhesion Forces on Highly Ordered Silicon Nanopillars
Doll, P. W.; Doll, K.; Winkel, A.; Thelen, R.; Ahrens, R.; Stiesch, M.; Guber, A. E.
2022. ACS Omega, 7 (21), 17620–17631. doi:10.1021/acsomega.2c00356  

Skin stimulation and recording: Moving towards metal-free electrodes
Shaner, S. W.; Islam, M.; Kristoffersen, M. B.; Azmi, R.; Heissler, S.; Ortiz-Catalan, M.; Korvink, J. G.; Asplund, M.
2022. Biosensors and Bioelectronics: X, 11, Art.-Nr.: 100143. doi:10.1016/j.biosx.2022.100143  

A Technological Approach for Miniaturization of Three-Dimensional Inductive Levitation Microsuspensions
Mamleyev, E. R.; Voigt, A.; Moazenzadeh, A.; Korvink, J.; Kohl, M.; Poletkin, K.
2022. IEEE Magnetics Letters, 13, Art.-Nr.: 2103904. doi:10.1109/LMAG.2022.3174522  

Resemblance-Ranking Peptide Library to Screen for Binders to Antibodies on a Peptidomic Scale
Jenne, F.; Biniaminov, S.; Biniaminov, N.; Marquardt, P.; Bojničić-Kninski, C. von; Popov, R.; Seckinger, A.; Hose, D.; Nesterov-Mueller, A.
2022. International Journal of Molecular Sciences, 23 (7), 3515. doi:10.3390/ijms23073515  

Wall Microstructures of High Aspect Ratio Enabled by Near‐Field Electrospinning
Sadaf, A.; Elter, M.; Mager, D.; Bunz, U. H. F.; Islam, M.; Korvink, J. G.
2022. Advanced Engineering Materials, 24 (9), Artkl.Nr.: 2101740. doi:10.1002/adem.202101740  

Comparing Carbon Origami from Polyaramid and Cellulose Sheets
Islam, M.; Weidler, P. G.; Mager, D.; Korvink, J. G.; Martinez-Duarte, R.
2022. Micromachines, 13 (4), Artkl.Nr.: 503. doi:10.3390/mi13040503  

Analysis of U87 glioma cells by dielectrophoresis
Sengul, E.; Sharbati, P.; Elitas, M.; Islam, M.; Korvink, J. G.
2022. ELECTROPHORESIS, 43 (12), 1357–1365. doi:10.1002/elps.202100374 

Lasing from Laminated Quasi‐2D/3D Perovskite Planar Heterostructures
Li, Y.; Roger, J.; Allegro, I.; Fischer, J. C.; Jin, Q.; Lemmer, U.; Howard, I. A.; Paetzold, U. W.
2022. Advanced Functional Materials, 32 (27), Artkl.Nr.: 2200772. doi:10.1002/adfm.202200772  

Energy yield modelling of textured perovskite/silicon tandem photovoltaics with thick perovskite top cells
Gota, F.; Schmager, R.; Farag, A.; Paetzold, U. W.
2022. Optics Express, 30 (9), 14172–14188. doi:10.1364/OE.447069  

Calculation of magnetic force and torque between two arbitrarily oriented circular filaments using Kalantarov–Zeitlin’s method
Poletkin, K. V.
2022. International Journal of Mechanical Sciences, 220, Artkl.Nr.: 107159. doi:10.1016/j.ijmecsci.2022.107159 

Perovskite Solar Modules
Bruno, A.; Di Carlo, A.; Paetzold, U. W.
2022. Solar RRL, 6 (3), Artk.Nr.: 2101046. doi:10.1002/solr.202101046 

Assessing Polymer-Surface Adhesion with a Polymer Collection
Eickelmann, S.; Moon, S.; Liu, Y.; Bitterer, B.; Ronneberger, S.; Bierbaum, D.; Breitling, F.; Loeffler, F. F.
2022. Langmuir, 38 (7), 2220–2226. doi:10.1021/acs.langmuir.1c02724  

Unclonable Anti-Counterfeiting Labels Based on Microlens Arrays and Luminescent Microparticles
Kumar, V.; Dottermusch, S.; Katumo, N.; Chauhan, A.; Richards, B. S.; Howard, I. A.
2022. Advanced Optical Materials, 10 (9), Art.-Nr.: 2102402. doi:10.1002/adom.202102402  

Single-exposure X-ray phase imaging microscopy with a grating interferometer
Wolf, A.; Akstaller, B.; Cipiccia, S.; Flenner, S.; Hagemann, J.; Ludwig, V.; Meyer, P.; Schropp, A.; Schuster, M.; Seifert, M.; Weule, M.; Michel, T.; Anton, G.; Funk, S.
2022. Journal of Synchrotron Radiation, 29 (3). doi:10.1107/S160057752200193X  

Photonic Curing Enables Ultrarapid Processing of Highly Conducting β-Cu2−δSe Printed Thermoelectric Films in Less Than 10 ms [in press]
Mallick, M. M.; Franke, L.; Rösch, A. G.; Geßwein, H.; Eggeler, Y. M.; Lemmer, U.
2022. ACS Omega, 7 (12), 10695–10700. doi:10.1021/acsomega.2c00412 

Development and Experimental Assessment of a Model for the Material Deposition by Laser-Induced Forward Transfer
Paris, G.; Bierbaum, D.; Paris, M.; Mager, D.; Loeffler, F. F.
2022. Applied Sciences, 12 (3), Art.-Nr.: 1361. doi:10.3390/app12031361  

Polarization-Sensitive Photodetectors Based on Directionally Oriented Organic Bulk-Heterojunctions
Perevedentsev, A.; Mejri, H.; Ruiz-Preciado, L. A.; Marszalek, T.; Lemmer, U.; Blom, P. W. M.; Hernandez-Sosa, G.
2022. Advanced Optical Materials, 10 (7), Art.-Nr.: 2102397. doi:10.1002/adom.202102397  

Frontiers in Photonics Spot Light
Anvari, B.; De Angelis, C.; Huang, S.; Litchinitser, N.; Poon, T.-C.; Scalari, G.; Richards, B. S.; Peccianti, M.
2022. Frontiers in Photonics, 3, Art.-Nr.: 853456. doi:10.3389/fphot.2022.853456  

Wafer scale manufacturing of high precision micro-optical components through X-ray lithography yielding 1800 Gray Levels in a fingertip sized chip
Kalaiselvi, S. M. P.; Tang, E. X.; Moser, H. O.; Breese, M. B. H.; Turaga, S. P.; Kasi, H.; Heussler, S. P.
2022. Scientific reports, 12 (1), Art.-Nr.: 2730. doi:10.1038/s41598-022-06688-5  

Inverted Hartmann mask made by deep X-ray lithography for single-shot multi-contrast X-ray imaging with laboratory setup
Mikhaylov, A.; Vlnieska, V.; Khanda, A.; Bremer, S.; Zuber, M.; Henrique Pezzin, S.; Kunka, D.
2022. Optics Express, 30 (6), 8494. doi:10.1364/OE.452114  

Fabrication of High Surface Area Microporous ZnO from ZnO/Carbon Sacrificial Composite Monolith Template
Mondal, K.; Islam, M.; Singh, S.; Sharma, A.
2022. Micromachines, 13 (2), 335. doi:10.3390/mi13020335  

Design Strategy for Nanostructured Arrays of Metallodielectric Cuboids to Systematically Tune the Optical Response and Eliminate Spurious Bulk Effects in Plasmonic Biosensors
Grab, A. L.; Bacher, A.; Nesterov-Mueller, A.; Dahint, R.
2022. Bioengineering, 9 (2), 63. doi:10.3390/bioengineering9020063  

Dark-field computed tomography reaches the human scale
Viermetz, M.; Gustschin, N.; Schmid, C.; Haeusele, J.; Teuffenbach, M. von; Meyer, P.; Bergner, F.; Lasser, T.; Proksa, R.; Koehler, T.; Pfeiffer, F.
2022. Proceedings of the National Academy of Sciences of the United States of America, 119 (8), e2118799119. doi:10.1073/pnas.2118799119  

Deep regression with ensembles enables fast, first-order shimming in low-field NMR
Becker, M.; Jouda, M.; Kolchinskaya, A.; Korvink, J. G.
2022. Journal of magnetic resonance, 336, Art.-Nr. 107151. doi:10.1016/j.jmr.2022.107151  

Dual-color dynamic anti-counterfeiting labels with persistent emission after visible excitation allowing smartphone authentication
Katumo, N.; Li, K.; Richards, B. S.; Howard, I. A.
2022. Scientific reports, 12 (1), Art.Nr.: 2100. doi:10.1038/s41598-022-05885-6  

Cubic versus hexagonal - phase, size and morphology effects on the photoluminescence quantum yield of NaGdF ${}_4$:Er${}^{3+}$/Yb${}^{3+}$ upconverting nanoparticles
Quintanilla, M.; Hemmer, E.; Marques-Hueso, J.; Rohani, S.; Lucchini, G.; Wang, M.; Zamani, R. R.; Roddatis, V.; Speghini, A.; Richards, B. S.; Vetrone, F.
2022. Nanoscale, 14 (4), 1492–1504. doi:10.1039/d1nr06319g 

Ultra-fast optical ranging using quantum-dash mode-locked laser diodes
Trocha, P.; Kemal, J. N.; Gaimard, Q.; Aubin, G.; Lelarge, F.; Ramdane, A.; Freude, W.; Randel, S.; Koos, C.
2022. Scientific Reports, 12 (1), Art.-Nr.: 1076. doi:10.1038/s41598-021-04368-4  

BODIPY–pyrene donor–acceptor sensitizers for triplet–triplet annihilation upconversion: the impact of the BODIPY-core on upconversion efficiency
Kiseleva, N.; Filatov, M. A.; Fischer, J. C.; Kaiser, M.; Jakoby, M.; Busko, D.; Howard, I. A.; Richards, B. S.; Turshatov, A.
2022. Physical chemistry, chemical physics, 24 (6), 3568–3578. doi:10.1039/d1cp05382e  

Microfluidics: Recent Advances Toward Lab‐on‐Chip Applications in Bioanalysis
Sharma, B.; Sharma, A.
2022. Advanced engineering materials, 24 (2), Art. Nr.: 2100738. doi:10.1002/adem.202100738 

Emergence of Deep Traps in Long-Term Thermally Stressed CH₃NH₃PbI₃ Perovskite Revealed by Thermally Stimulated Currents
Khan, M. R.; Schwenzer, J. A.; Lehr, J.; Paetzold, U. W.; Lemmer, U.
2022. The journal of physical chemistry letters, 13 (2), 552–558. doi:10.1021/acs.jpclett.1c03522 

Consensus statement: Standardized reporting of power-producing luminescent solar concentrator performance
Yang, C.; Atwater, H. A.; Baldo, M. A.; Baran, D.; Barile, C. J.; Barr, M. C.; Bates, M.; Bawendi, M. G.; Bergren, M. R.; Borhan, B.; Brabec, C. J.; Brovelli, S.; Bulović, V.; Ceroni, P.; Debije, M. G.; Delgado-Sanchez, J.-M.; Dong, W.-J.; Duxbury, P. M.; Evans, R. C.; Forrest, S. R.; Gamelin, D. R.; Giebink, N. C.; Gong, X.; Griffini, G.; Guo, F.; Herrera, C. K.; Ho-Baillie, A. W. Y.; Holmes, R. J.; Hong, S.-K.; Kirchartz, T.; Levine, B. G.; Li, H.; Li, Y.; Liu, D.; Loi, M. A.; Luscombe, C. K.; Makarov, N. S.; Mateen, F.; Mazzaro, R.; McDaniel, H.; McGehee, M. D.; Meinardi, F.; Menéndez-Velázquez, A.; Min, J.; Mitzi, D. B.; Moemeni, M.; Moon, J. H.; Nattestad, A.; Nazeeruddin, M. K.; Nogueira, A. F.; Paetzold, U. W.; Patrick, D. L.; Pucci, A.; Rand, B. P.; Reichmanis, E.; Richards, B. S.; Roncali, J.; Rosei, F.; Schmidt, T. W.; So, F.; Tu, C.-C.; Vahdani, A.; Sark, W. G. J. H. M.; Verduzco, R.; Vomiero, A.; Wong, W. W. H.; Wu, K.; Yip, H.-L.; Zhang, X.; Zhao, H.; Lunt, R. R.
2022. Joule, 6 (1), 8–15. doi:10.1016/j.joule.2021.12.004 

Noble-metal-free photosensitizers for continuous-flow photochemical oxidation of steroid hormone micropollutants under sunlight
Lyubimenko, R.; Richards, B. S.; Schäfer, A. I.; Turshatov, A.
2022. Journal of membrane science, 642, Art.-Nr. 119981. doi:10.1016/j.memsci.2021.119981 

Silver-Nanoparticle-Based Metallodielectric Wavelength-Selective Reflectors for Quantum-Dot-Enhanced White-Light-Emitting Diodes
Chen, J.; Theobald, D.; Shams, A. B.; Jin, Q.; Mertens, A.; Gomard, G.; Lemmer, U.
2022. ACS applied nano materials, 5 (1), 87–93. doi:10.1021/acsanm.1c02885 

Perovskite Solar Cells with Vivid, Angle‐Invariant and Customizable Inkjet‐printed Colorization for Building‐Integrated Photovoltaics
Eggers, H.; Gharibzadeh, S.; Koch, S.; Schackmar, F.; Ritzer, D.; Abzieher, T.; Richards, B. S.; Erban, C.; Paetzold, U. W.
2022. Solar RRL, 6 (4), Art.-Nr.: 2100897. doi:10.1002/solr.202100897  

Oligocat: Oligoesters as Pseudo-Homogenous Catalysts for Biodiesel Synthesis
Vlnieska, V.; Muniz, A. S.; Oliveira, A. R. dos S.; César-Oliveira, M. A. F.; Kunka, D.
2022. Polymers, 14 (1), Art.-Nr.: 210. doi:10.3390/polym14010210  

Synthesis and Chemical Functionalization of Pseudo-Homogeneous Catalysts for Biodiesel Production—Oligocat
Vlnieska, V.; Muniz, A. S.; Oliveira, A. R. S.; César-Oliveira, M. A. F.; Kunka, D.
2022. Polymers, 14 (1), Art.-Nr.: 19. doi:10.3390/polym14010019  

An open-access database and analysis tool for perovskite solar cells based on the FAIR data principles
Jacobsson, T. J.; Hultqvist, A.; García-Fernández, A.; Anand, A.; Al-Ashouri, A.; Hagfeldt, A.; Crovetto, A.; Abate, A.; Ricciardulli, A. G.; Vijayan, A.; Kulkarni, A.; Anderson, A. Y.; Darwich, B. P.; Yang, B.; Coles, B. L.; Perini, C. A. R.; Rehermann, C.; Ramirez, D.; Fairen-Jimenez, D.; Di Girolamo, D.; Jia, D.; Avila, E.; Juarez-Perez, E. J.; Baumann, F.; Mathies, F.; González, G. S. A.; Boschloo, G.; Nasti, G.; Paramasivam, G.; Martínez-Denegri, G.; Näsström, H.; Michaels, H.; Köbler, H.; Wu, H.; Benesperi, I.; Dar, M. I.; Bayrak Pehlivan, I.; Gould, I. E.; Vagott, J. N.; Dagar, J.; Kettle, J.; Yang, J.; Li, J.; Smith, J. A.; Pascual, J.; Jerónimo-Rendón, J. J.; Montoya, J. F.; Correa-Baena, J.-P.; Qiu, J.; Wang, J.; Sveinbjörnsson, K.; Hirselandt, K.; Dey, K.; Frohna, K.; Mathies, L.; Castriotta, L. A.; Aldamasy, M. H.; Vasquez-Montoya, M.; Ruiz-Preciado, M. A.; Flatken, M. A.; Khenkin, M. V.; Grischek, M.; Kedia, M.; Saliba, M.; Anaya, M.; Veldhoen, M.; Arora, N.; Shargaieva, O.; Maus, O.; Game, O. S.; Yudilevich, O.; Fassl, P.; Zhou, Q.; Betancur, R.; Munir, R.; Patidar, R.; Stranks, S. D.; Alam, S.; Kar, S.; Unold, T.; Abzieher, T.; Edvinsson, T.; David, T. W.; Paetzold, U. W.; Zia, W.; Fu, W.; Zuo, W.; Schröder, V. R. F.; Tress, W.; Zhang, X.; Chiang, Y.-H.; Iqbal, Z.; Xie, Z.; Unger, E.
2022. Nature Energy, 7, 107–115. doi:10.1038/s41560-021-00941-3  

Light Management for Enhancing Optical Gain in a Solar‐Pumped Fiber Laser Employing a Solid‐State Luminescent Solar Concentrator
Masuda, T.; Aoyagi, K.; Dottermusch, S.; Howard, I. A.; Richards, B. S.; Endo, M.
2022. Advanced photonics research, 3 (2), Art.Nr.: 2100214. doi:10.1002/adpr.202100214  

Optical Arbitrary Waveform Measurement Using Silicon Photonic Slicing Filters
Fang, D.; Zazzi, A.; Mueller, J.; Dray, D.; Fullner, C.; Marin-Palomo, P.; Tabatabaei Mashayekh, A.; Dipta Das, A.; Weizel, M.; Gudyriev, S.; Freude, W.; Randel, S.; Scheytt, J.; Witzens, J.; Koos, C.
2022. Journal of Lightwave Technology, 40 (6). doi:10.1109/JLT.2021.3130764 

A Self‐Assembly Method for Tunable and Scalable Nano‐Stamps: A Versatile Approach for Imprinting Nanostructures
Donie, Y. J.; Yuan, Y.; Allegro, I.; Schackmar, F.; Hossain, I. M.; Huber, R.; Roger, J.; Paetzold, U. W.; Gomard, G.; Lemmer, U.
2022. Advanced materials technologies, 7 (6), Art.Nr.: 2101008. doi:10.1002/admt.202101008  

Sn-Pb Mixed Perovskites with Fullerene-Derivative Interlayers for Efficient Four-Terminal All-Perovskite Tandem Solar Cells
Hu, H.; Moghadamzadeh, S.; Azmi, R.; Li, Y.; Kaiser, M.; Fischer, J. C.; Jin, Q.; Maibach, J.; Hossain, I. M.; Paetzold, U. W.; Abdollahi Nejand, B.
2022. Advanced Functional Materials, 32 (12), Art.-Nr.: 2107650. doi:10.1002/adfm.202107650  

Nanoporous Polymer Reflectors for Organic Solar Cells
Yu, S.; Guo, B.; Johnsen, S.; Wiegand, G.; Lemmer, U.; Guo, X.; Zhang, M.; Li, Y.; Sprau, C.; Hölscher, H.; Colsmann, A.; Gomard, G.
2022. Energy technology, 10 (2), Art.-Nr. 2100676. doi:10.1002/ente.202100676  

Ultra-flexible β-Cu2-δSe-based p-type printed thermoelectric films
Mallick, M. M.; Sarbajna, A.; Rösch, A. G.; Franke, L.; Geßwein, H.; Eggeler, Y. M.; Lemmer, U.
2022. Applied materials today, 26, Art.Nr. 101269. doi:10.1016/j.apmt.2021.101269 

Single crystal monolithic up-converter solar cell device tandems with integrated optics
Arnaoutakis, G.; Favilla, E.; Tonelli, M.; Richards, B.
2022. Journal of the Optical Society of America / B, 39 (1), 239–247. doi:10.1364/JOSAB.437892 

Influence of Wind Speed on Volcano Ash Removal From Self-Cleaning Cover Films Dedicated for Photovoltaics
Roslizar, A.; Taddeucci, J.; Paetzold, U. W.; Hölscher, H.; Richards, B. S.
2022. IEEE journal of photovoltaics, 12 (1), 453–460. doi:10.1109/JPHOTOV.2021.3117913 

Fast Tool Machining and Hot embossing for the manufacture of diffractive structured surfaces
Boinski, A.-K.; Riemer, O.; Karpuschewski, B.; Schneider, M.; Guttmann, M.; Worgull, M.
2022. Precision engineering, 7 (4), 12–19. doi:10.1016/j.precisioneng.2021.10.002 

Correlative In Situ Multichannel Imaging for Large-Area Monitoring of Morphology Formation in Solution-Processed Perovskite Layers
Ternes, S.; Laufer, F.; Scharfer, P.; Schabel, W.; Richards, B. S.; Howard, I. A.; Paetzold, U. W.
2022. Solar RRL, 6 (3), Art.-Nr. 2100353. doi:10.1002/solr.202100353  

Self‐healing triggering mechanism in epoxy‐based material containing microencapsulated amino‐polysiloxane
Da Costa, S. F.; Zuber, M.; Zakharova, M.; Mikhaylov, A.; Baumbach, T.; Kunka, D.; Pezzin, S. H.
2022. Nano select, 3 (3), 577–593. doi:10.1002/nano.202100091  

A modular microfluidic bioreactor to investigate plant cell–cell interactions
Finkbeiner, T.; Manz, C.; Raorane, M. L.; Metzger, C.; Schmidt-Speicher, L.; Shen, N.; Ahrens, R.; Maisch, J.; Nick, P.; Guber, A. E.
2022. Protoplasma, 259 (1), 173–186. doi:10.1007/s00709-021-01650-0  

From Groundwork to Efficient Solar Cells: On the Importance of the Substrate Material in Co‐Evaporated Perovskite Solar Cells
Abzieher, T.; Feeney, T.; Schackmar, F.; Donie, Y. J.; Hossain, I. M.; Schwenzer, J. A.; Hellmann, T.; Mayer, T.; Powalla, M.; Paetzold, U. W.
2021. Advanced functional materials, 31 (42), Art.-Nr.: 2104482. doi:10.1002/adfm.202104482  

Active Damping of Thin Film Shape Memory Alloy Devices
Ahmadi, S.; Jacob, K.; Wendler, F.; Padhy, A.; Kohl, M.
2021. Proceedings in applied mathematics and mechanics, 20 (1). doi:10.1002/pamm.202000310  

Single-shot grating-based phase-contrast imaging of a micrometer sample at a laser-driven x-ray backlighter source
Akstaller, B.; Schreiner, S.; Hofmann, F.; Meyer, P.; Neumayer, P.; Schuster, M.; Wolf, A.; Zielbauer, B.; Ludwig, V.; Michel, T.; Anton, G.; Funk, S.
2021. Journal of Instrumentation, 16 (06), Articel: P06021. doi:10.1088/1748-0221/16/06/P06021 

Bimolecular and Auger Recombination in Phase-Stable Perovskite Thin Films from Cryogenic to Room Temperature and Their Effect on the Amplified Spontaneous Emission Threshold
Allegro, I.; Li, Y.; Richards, B. S.; Paetzold, U. W.; Lemmer, U.; Howard, I. A.
2021. The journal of physical chemistry letters, 12 (9), 2293–2298. doi:10.1021/acs.jpclett.1c00099  

Device Performance of Emerging Photovoltaic Materials (Version 2)
Almora, O.; Baran, D.; Bazan, G. C.; Berger, C.; Cabrera, C. I.; Catchpole, K. R.; Erten-Ela, S.; Guo, F.; Hauch, J.; Ho-Baillie, A. W. Y.; Jacobsson, T. J.; Janssen, R. A. J.; Kirchartz, T.; Kopidakis, N.; Li, Y.; Loi, M. A.; Lunt, R. R.; Mathew, X.; McGehee, M. D.; Min, J.; Mitzi, D. B.; Nazeeruddin, M. K.; Nelson, J.; Nogueira, A. F.; Paetzold, U. W.; Park, N.-G.; Rand, B. P.; Rau, U.; Snaith, H. J.; Unger, E.; Vaillant-Roca, L.; Yip, H.-L.; Brabec, C. J.
2021. Advanced Energy Materials, 11 (48), Art.Nr. 2102526. doi:10.1002/aenm.202102526  

Device Performance of Emerging Photovoltaic Materials (Version 1)
Almora, O.; Baran, D.; Bazan, G. C.; Berger, C.; Cabrera, C. I.; Catchpole, K. R.; Erten-Ela, S.; Guo, F.; Hauch, J.; Ho-Baillie, A. W. Y.; Jacobsson, T. J.; Janssen, R. A. J.; Kirchartz, T.; Kopidakis, N.; Li, Y.; Loi, M. A.; Lunt, R. R.; Mathew, X.; McGehee, M. D.; Min, J.; Mitzi, D. B.; Nazeeruddin, M. K.; Nelson, J.; Nogueira, A. F.; Paetzold, U. W.; Park, N.-G.; Rand, B. P.; Rau, U.; Snaith, H. J.; Unger, E.; Vaillant-Roca, L.; Yip, H.-L.; Brabec, C. J.
2021. Advanced energy materials, 11 (11), Art. Nr.: 2002774. doi:10.1002/aenm.202002774  

Microfluidic Impedance Biosensor Chips Using Sensing Layers Based on DNA-Based Self-Assembled Monolayers for Label-Free Detection of Proteins
Alsabbagh, K.; Hornung, T.; Voigt, A.; Sadir, S.; Rajabi, T.; Länge, K.
2021. Biosensors, 11 (3). doi:10.3390/bios11030080  

3D-M3: high-spatial-resolution spectroscopy with extreme AO and 3D-printed micro-lenslets
Anagnos, T.; Trappen, M.; Kuo Tiong, B. C.; Feger, T.; Yerolatsitis, S.; Harris, R. J.; Lozi, J.; Jovanovic, N.; Birks, T. A.; Vievard, S.; Guyon, O.; Gris-Sánchez, I.; Leon-Saval, S. G.; Norris, B.; Haffert, S. Y.; Hottinger, P.; Blaicher, M.; Xu, Y.; Betters, C. H.; Koos, C.; Coutts, D. W.; Schwab, C.; Quirrenbach, A.
2021. Applied optics, 60 (19), D108-D121. doi:10.1364/AO.420855 

Whole-body x-ray dark-field radiography of a human cadaver
Andrejewski, J.; De Marco, F.; Willer, K.; Noichl, W.; Gustschin, A.; Koehler, T.; Meyer, P.; Kriner, F.; Fischer, F.; Braun, C.; Fingerle, A. A.; Herzen, J.; Pfeiffer, F.; Pfeiffer, D.
2021. European radiology experimental, 5, Art.Nr. 6. doi:10.1186/s41747-020-00201-1  

Retrieval of 3D information in X-ray dark-field imaging with a large field of view
Andrejewski, J.; De Marco, F.; Willer, K.; Noichl, W.; Urban, T.; Frank, M.; Gustschin, A.; Meyer, P.; Koehler, T.; Pfeiffer, F.; Herzen, J.
2021. Scientific reports, 11, ArtNr.: 23504. doi:10.1038/s41598-021-02960-2  

Substitutional landscape of a split fluorescent protein fragment using high-density peptide microarrays
Antonescu, O. N.; Rasmussen, A.; Damm, N. A. M.; Heidemann, D. F.; Popov, R.; Nesterov-Mueller, A.; Johansson, K. E.; Winther, J. R.
2021. PLOS ONE, 16 (2), Article: e0241461. doi:10.1371/journal.pone.0241461  

Diarylethene-Based Photoswitchable Inhibitors of Serine Proteases
Babii, O.; Afonin, S.; Diel, C.; Huhn, M.; Dommermuth, J.; Schober, T.; Koniev, S.; Hrebonkin, A.; Nesterov-Mueller, A.; Komarov, I. V.; Ulrich, A. S.
2021. Angewandte Chemie - International Edition, 60 (40), 21789–21794. doi:10.1002/anie.202108847  

Coordination mechanism of cyanine dyes on the surface of core@active shell β-NaGdF${}_4$:Yb${}^{3+}$,Er${}^{3+}$ nanocrystals and its role in enhancing upconversion luminescence
Beygi Nasrabadi, H.; Madirov, E.; Popescu, R.; Štacková, L.; Štacko, P.; Klán, P.; Richards, B. S.; Hudry, D.; Turshatov, A.
2021. Journal of materials chemistry / C, 9 (45), 16313–16323. doi:10.1039/d1tc03333f  

Renewable energy powered membrane technology: System resilience under solar irradiance fluctuations during the treatment of fluoride-rich natural waters by different nanofiltration/reverse osmosis membranes
Boussouga, Y.-A.; Richards, B. S.; Schäfer, A. I.
2021. Journal of membrane science, 617, Art. Nr.: 118452. doi:10.1016/j.memsci.2020.118452 

Elucidating the role of metal-ion co-doping towards boosting upconversion luminescence in gadolinium vanadate
Chauhan, A.; Kataria, S.; Busko, D.; Cardona, F. A.; Turshatov, A.; Richards, B. S.
2021. Journal of materials chemistry / C, 9 (46), 16709–16720. doi:10.1039/D1TC03205D  

Untuned broadband spiral micro-coils achieve sensitive multi-nuclear NMR TX/RX from microfluidic samples
Davoodi, H.; Nordin, N.; Munakata, H.; Korvink, J. G.; MacKinnon, N.; Badilita, V.
2021. Scientific reports, 11 (1), Art.-Nr.: 7798. doi:10.1038/s41598-021-87247-2  

Efficient bifacial monolithic perovskite/silicon tandem solar cells via bandgap engineering
De Bastiani, M.; Mirabelli, A. J.; Hou, Y.; Gota, F.; Aydin, E.; Allen, T. G.; Troughton, J.; Subbiah, A. S.; Isikgor, F. H.; Liu, J.; Xu, L.; Chen, B.; Van Kerschaver, E.; Baran, D.; Fraboni, B.; Salvador, M. F.; Paetzold, U. W.; Sargent, E. H.; De Wolf, S.
2021. Nature energy, 6 (2), 167–175. doi:10.1038/s41560-020-00756-8 

Negative CG dinucleotide bias: An explanation based on feedback loops between Arginine codon assignments and theoretical minimal RNA rings
Demongeot, J.; Moreira, A.; Seligmann, H.
2021. Bioessays, 43 (3), Art.-Nr.: 2000071. doi:10.1002/bies.202000071 

New Concept of Patient-specific Flow Diversion Treatment of Intracranial Aneurysms – Design Aspects and in vitro Fluid Dynamics
Ding, A.; Braschkat, A.; Guber, A.; Cattaneo, G.
2021. Clinical neuroradiology, 31, 671–679. doi:10.1007/s00062-020-00930-1 

Analysis of the optical properties of the silvery spots on the wings of the Gulf Fritillary, Dione vanillae
Dolinko, A.; Borgmann, L.; Lutz, C.; Curticean, E. R.; Wacker, I.; Vidal, M. S.; Szischik, C.; Donie, Y.; Inchaussandague, M.; Skigin, D.; Hölscher, H.; Tubaro, P.; Barreira, A.
2021. Scientific Reports, 11 (1), 19341. doi:10.1038/s41598-021-98237-9  

Enhancing the soft‐tissue integration of dental implant abutments - in vitro study to reveal an optimized microgroove surface design to maximize spreading and alignment of human gingival fibroblasts
Doll, P. W.; Husari, A.; Ahrens, R.; Spindler, B.; Guber, A. E.; Steinberg, T.
2021. Journal of Biomedical Materials Research Part B: Applied Biomaterials, 109 (11), 1768–1776. doi:10.1002/jbm.b.34836  

Etch-less Microfabrication of Structured TiO Implant Coatings on Bulk Titanium Grade 23 by Direct Lithographic Anodic Oxidation
Doll, P. W.; Ahrens, R.; Guber, A. E.
2021. Journal of micromechanics and microengineering, 31, Art.Nr. 35007. doi:10.1088/1361-6439/abdae6 

Phase-Separated Nanophotonic Structures by Inkjet Printing
Donie, Y. J.; Schlisske, S.; Siddique, R. H.; Mertens, A.; Narasimhan, V.; Schackmar, F.; Pietsch, M.; Hossain, I. M.; Hernandez-Sosa, G.; Lemmer, U.; Gomard, G.
2021. ACS nano, 15 (4), 7305–7317. doi:10.1021/acsnano.1c00552 

Solar Pumping of Fiber Lasers with Solid-State Luminescent Concentrators: Design Optimization by Ray Tracing
Dottermusch, S.; Masuda, T.; Endo, M.; Richards, B. S.; Howard, I. A.
2021. Advanced Optical Materials, 9 (12), Art.-Nr.: 2100479. doi:10.1002/adom.202100479  

Optimization of SnO${}_2$ electron transport layer for efficient planar perovskite solar cells with very low hysteresis†
Eliwi, A. A.; Malekshahi Byranvand, M.; Fassl, P.; Khan, M. R.; Hossain, I. M.; Frericks, M.; Ternes, S.; Abzieher, T.; Schwenzer, J. A.; Mayer, T.; Hofmann, J. P.; Richards, B. S.; Lemmer, U.; Saliba, M.; Paetzold, U. W.
2021. Materials advances, 3 (1), 456–466. doi:10.1039/d1ma00585e  

Photodegradation of Triple-Cation Perovskite Solar Cells: The Role of Spectrum and Bias Conditions
Farooq, A.; Khan, M. R.; Abzieher, T.; Voigt, A.; Lupascu, D. C.; Lemmer, U.; Richards, B. S.; Paetzold, U. W.
2021. ACS applied energy materials, 4 (4), 3083–3092. doi:10.1021/acsaem.0c02813 

Revealing the internal luminescence quantum efficiency of perovskite films via accurate quantification of photon recycling
Fassl, P.; Lami, V.; Berger, F. J.; Falk, L. M.; Zaumseil, J.; Richards, B. S.; Howard, I. A.; Vaynzof, Y.; Paetzold, U. W.
2021. Matter, 4 (4), 1391–1412. doi:10.1016/j.matt.2021.01.019 

The Effect of Patterned Micro-Structure on the Apparent Contact Angle and Three-Dimensional Contact Line
Foltyn, P.; Restle, F.; Wissmann, M.; Hengsbach, S.; Weigand, B.
2021. Fluids, 6 (2), Article: 92. doi:10.3390/fluids6020092  

Dosimetry on First Clinical Dark‐Field Chest Radiography
Frank, M.; Urban, T.; Willer, K.; Noichl, W.; De Marco, F.; Schick, R.; Gleich, B.; Schegerer, A.; Lechel, U.; Meyer, P.; Mohr, J.; Koehler, T.; Yaroshenko, A.; Maack, I.; Pralow, T.; Proksa, R.; Renger, B.; Noël, P.; Fingerle, A.; Pfeiffer, D.; Rummeny, E.; Herzen, J.; Pfeiffer, F.
2021. Medical physics, 48 (10), 6152–6159. doi:10.1002/mp.15132 

Käfer ist Vorbild für strahlend weiße Oberflächen
Frisch, A.
2021. JOT, Journal fuer Oberflaechentechnik, 61 (7), 12. doi:10.1007/s35144-021-1251-1 

Co-evaporation of CH${}_3$NH${}_3$PbI${}_3$: How Growth Conditions Impact Phase Purity, Photostriction, and Intrinsic Stability
Gallet, T.; Poeira, R. G.; Lanzoni, E. M.; Abzieher, T.; Paetzold, U. W.; Redinger, A.
2021. ACS applied materials & interfaces, 13 (2), 2642–2653. doi:10.1021/acsami.0c19038 

Ratiometric Luminescent Thermometry with Excellent Sensitivity over a Broad Temperature Range Utilizing Thermally‐Assisted and Multiphoton Upconversion in Triply‐Doped La₂O₃:Yb³⁺/Er³⁺/Nd³⁺
Gao, G.; Busko, D.; Katumo, N.; Joseph, R.; Madirov, E.; Turshatov, A.; Howard, I. A.; Richards, B. S.
2021. Advanced optical materials, 9 (5), Art.-Nr.: 2001901. doi:10.1002/adom.202001901  

Efficiency Improvement of Miniaturized Heat Exchangers
Gerken, I.; Wetzel, T.; Brandner, J. J.
2021. Fluids, 6 (1), Article no: 25. doi:10.3390/fluids6010025  

Two birds with one stone: dual grain-boundary and interface passivation enables >22% efficient inverted methylammonium-free perovskite solar cells
Gharibzadeh, S.; Fassl, P.; Hossain, I. M.; Rohrbeck, P.; Frericks, M.; Schmidt, M.; Duong, T.; Khan, M. R.; Abzieher, T.; Nejand, B. A.; Schackmar, F.; Almora, O.; Feeney, T.; Singh, R.; Fuchs, D.; Lemmer, U.; Hofmann, J. P.; Weber, S. A. L.; Paetzold, U. W.
2021. Energy & environmental science, 14 (11), 5875–5893. doi:10.1039/D1EE01508G  

Interplay of structural dynamics and electronic effects in an engineered assembly of pentacene in a metal–organic framework
Haldar, R.; Kozlowska, M.; Ganschow, M.; Ghosh, S.; Jakoby, M.; Chen, H.; Ghalami, F.; Xie, W.; c; Tsutsui, Y.; Freudenberg, J.; Seki, S.; Howard, I. A.; Richards, B. S.; Bunz, U. H. F.; Elstner, M.; Wenzel, W.; Wöll, C.
2021. Chemical science, 12 (12), 4477–4483. doi:10.1039/d0sc07073d  

Nanoantennas Inversely Designed to Couple Free Space and a Metal–Insulator–Metal Waveguide
Han, Y.; Lin, Y.; Ma, W.; Korvink, J. G.; Duan, H.; Deng, Y.
2021. Nanomaterials, 11 (12), Art.-Nr.: 3219. doi:10.3390/nano11123219  

A thermal grooving study of relative grain boundary energies of nickel in polycrystalline Ni and in a Ni/YSZ anode measured by atomic force microscopy
Haremski, P.; Epple, L.; Wieler, M.; Lupetin, P.; Thelen, R.; Hoffmann, M. J.
2021. Acta materialia, 214, Art. Nr.: 116936. doi:10.1016/j.actamat.2021.116936  

Impact of n-Butylammonium Bromide on the Chemical and Electronic Structure of Double-Cation Perovskite Thin Films
Hauschild, D.; Seitz, L.; Gharibzadeh, S.; Steininger, R.; Jiang, N.; Yang, W.; Paetzold, U. W.; Heske, C.; Weinhardt, L.
2021. ACS Applied Materials and Interfaces, 13 (44), 53202–53210. doi:10.1021/acsami.1c15707 

Siphon-Controlled Automation on a Lab-on-a-Disc Using Event-Triggered Dissolvable Film Valves
Henderson, B. D.; Kinahan, D. J.; Rio, J.; Mishra, R.; King, D.; Torres-Delgado, S. M.; Mager, D.; Korvink, J. G.; Ducrée, J.
2021. Biosensors, 11 (3), Art.-Nr. 73. doi:10.3390/bios11030073  

InnovationLab Special Section in
Hernandez-Sosa, G.
2021. Advanced materials technologies, 6 (2), 2001069. doi:10.1002/admt.202001069 

Experimental validation of a modeling framework for upconversion enhancement in 1D-photonic crystals
Hofmann, C. L. M.; Fischer, S.; Eriksen, E. H.; Bläsi, B.; Reitz, C.; Yazicioglu, D.; Howard, I. A.; Richards, B. S.; Goldschmidt, J. C.
2021. Nature Communications, 12 (1), Aricle no: 104. doi:10.1038/s41467-020-20305-x  

On-sky results for the integrated microlens ring tip-tilt sensor
Hottinger, P.; Harris, R. J.; Crass, J.; Dietrich, P.-I.; Blaicher, M.; Bechter, A.; Sands, B.; Morris, T.; Basden, A. G.; Bharmal, N. A.; Heidt, J.; Anagnos, T.; Neureuther, P. L.; Gluck, M.; Power, J.; Pott, J.-U.; Koos, C.; Sawodny, O.; Quirrenbach, A.
2021. Journal of the Optical Society of America B: Optical Physics, 38 (9), 2517–2527. doi:10.1364/JOSAB.421459 

Improved performance of perovskite light-emitting diodes with a NaCl doped PEDOT:PSS hole transport layer
Huang, X.; Bäuerle, R.; Scherz, F.; Tisserant, J.-N.; Kowalsky, W.; Lovrinčić, R.; Hernandez-Sosa, G.
2021. Journal of Materials Chemistry C, 9 (12), 4344–4350. doi:10.1039/d0tc06058e  

Blue-emission tuning of perovskite light-emitting diodes with a simple TPBi surface treatment
Huang, X.; Bäuerle, R.; Tisserant, J.-N.; Kowalsky, W.; Lovrinčić, R.; Hernandez-Sosa, G.
2021. MRS communications, 11, 856–861. doi:10.1557/s43579-021-00108-x  

Interface Pattern Engineering in Core-Shell Upconverting Nanocrystals: Shedding Light on Critical Parameters and Consequences for the Photoluminescence Properties
Hudry, D.; De Backer, A.; Popescu, R.; Busko, D.; Howard, I. A.; Bals, S.; Zhang, Y.; Pedrazo-Tardajos, A.; Van Aert, S.; Gerthsen, D.; Altantzis, T.; Richards, B. S.
2021. Small, 17 (47), Art.-Nr. 2104441. doi:10.1002/smll.202104441  

Design, Manufacturing, and Numerical Simulation of a Tube-in-Tube High-Temperature Heat Exchanger with Microstructures to Enhance Heat Transfer
Hurtado Rivera, A. C.; Löffler, F. B.; Burchasky, E. C.; Schell, K. G.; Thompson, E. S.; Nestle, N.; Schreyer, H.; Korvink, J. G.; Brandner, J. J.
2021. Chemical engineering transactions, 86, 1195–1200. doi:10.3303/CET2186200 

Carbon‐Based Materials for Articular Tissue Engineering: From Innovative Scaffolding Materials toward Engineered Living Carbon
Islam, M.; Lantada, A. D.; Mager, D.; Korvink, J. G.
2021. Advanced healthcare materials, 11 (1), Art.-Nr.: 2101834. doi:10.1002/adhm.202101834  

Carbon fiber/microlattice 3D hybrid architecture as multi-scale scaffold for tissue engineering
Islam, M.; Sadaf, A.; Gómez, M. R.; Mager, D.; Korvink, J. G.; Lantada, A. D.
2021. Materials Science and Engineering C, 126, Art.-Nr.: 112140. doi:10.1016/j.msec.2021.112140 

“Nano-on-Micro” approach enables synthesis of ZnO nano-cactus for gas sensing applications
Islam, M.; Srivastava, A. K.; Basavaraja, B. M.; Sharma, A.
2021. Sensors International, 2, Article: 100084. doi:10.1016/j.sintl.2021.100084  

Expanding excitation wavelengths for azobenzene photoswitching into the near-infrared range via endothermic triplet energy transfer
Isokuortti, J.; Kuntze, K.; Virkki, M.; Ahmed, Z.; Vuorimaa-Laukkanen, E.; Filatov, M. A.; Turshatov, A.; Laaksonen, T.; Priimagi, A.; Durandin, N. A.
2021. Chemical science, 12 (21), 7504–7509. doi:10.1039/d1sc01717a  

Rare-earth coordination polymers with multimodal luminescence on the nano-, micro-, and milli-second time scales
Jakoby, M.; Beil, C.; Nazari, P.; Richards, B. S.; Seitz, M.; Turshatov, A.; Howard, I. A.
2021. iScience, 24 (3), Art. Nr.: 102207. doi:10.1016/j.isci.2021.102207  

Method for accurate experimental determination of singlet and triplet exciton diffusion between thermally activated delayed fluorescence molecules
Jakoby, M.; Heidrich, S.; Graf von Reventlow, L.; Degitz, C.; Suresh, S. M.; Zysman-Colman, E.; Wenzel, W.; Richards, B. S.; Howard, I. A.
2021. Chemical science, 12 (3), 1121–1125. doi:10.1039/d0sc05190j  

High Dynamic Range Smart Window Display by Surface Hydrophilization and Inkjet Printing
Jin, Q.; Zhang, Q.; Chen, J.; Gehring, T.; Eizaguirre, S.; Huber, R.; Gomard, G.; Lemmer, U.; Kling, R.
2021. Advanced materials technologies, 5 (7), Art.-Nr.: 2101026. doi:10.1002/admt.202101026  

Lumped Element Model for Thermomagnetic Generators Based on Magnetic SMA Films
Joseph, J.; Ohtsuka, M.; Miki, H.; Kohl, M.
2021. Materials, 14 (5), 1234. doi:10.3390/ma14051234  

Numerical Study of Perturbators Influence on Heat Transfer and Investigation of Collector Performance for a Micro-Combined Heat and Power System Application
Joseph, J.; Delanaye, M.; Nacereddine, R.; Giraldo, A.; Rouabah, M.; Korvink, J. G.; Brandner, J. J.
2021. Heat transfer engineering, 42 (6), 456–478. doi:10.1080/01457632.2019.1707387 

Bright constant color upconversion based on dual 980 and 1550 nm excitation of SrF${}_2$:Yb${}^{3+}$, Er${}^{3+}$ and β-NaYF${}_4$:Yb${}^{3+}$, Er${}^{3+}$ micropowders― considerations for persistence of vision displays
Joseph, R. E.; Hudry, D.; Busko, D.; Biner, D.; Turshatov, A.; Krämer, K.; Richards, B. S.; Howard, I. A.
2021. Optical materials, 111, Art.Nr. 110598. doi:10.1016/j.optmat.2020.110598 

A Single‐Step Hot Embossing Process for Integration of Microlens Arrays in Biodegradable Substrates for Improved Light Extraction of Light‐Emitting Devices
Jürgensen, N.; Fritz, B.; Mertens, A.; Tisserant, J.-N.; Kolle, M.; Gomard, G.; Hernandez-Sosa, G.
2021. Advanced materials technologies, 6 (2), Art.Nr. 1900933. doi:10.1002/admt.201900933  

Green ink formulation for inkjet printed transparent electrodes in OLEDs on biodegradable substrates
Jürgensen, N.; Pietsch, M.; Hai, X.; Schlisske, S.; Hernandez-Sosa, G.
2021. Synthetic Metals, 282, Art.-Nr.: 116930. doi:10.1016/j.synthmet.2021.116930 

Interpreting the Time-Resolved Photoluminescence of Quasi-2D Perovskites
Kaiser, M.; Li, Y.; Allegro, I.; Richards, B. S.; Paetzold, U. W.; Howard, I. A.
2021. Advanced Materials Interfaces, 8 (24), Art.-Nr.: 2101326. doi:10.1002/admi.202101326  

How free exciton-exciton annihilation lets bound exciton emission dominate the photoluminescence of 2D-perovskites under high-fluence pulsed excitation at cryogenic temperatures
Kaiser, M.; Li, Y.; Schwenzer, J.; Jakoby, M.; Allegro, I.; Gerhard, M.; Koch, M.; Ducinskas, A.; Richards, B. S.; Graetzel, M.; Milić, J. V.; Paetzold, U. W.; Howard, I. A.
2021. Journal of Applied Physics, 129 (12), Art.-Nr.: 123101. doi:10.1063/5.0037800 

Switchable p-n gas response for 3D-hierarchical NiFe2O4 porous microspheres for highly selective and sensitive toluene gas sensors
Karuppasamy, K.; Sharma, B.; Vikraman, D.; Jo, E.-B.; Sivakumar, P.; Kim, H.-S.
2021. Journal of alloys and compounds, 886, Art.Nr. 161281. doi:10.1016/j.jallcom.2021.161281 

Anticounterfeiting Labels with Smartphone‐Readable Dynamic Luminescent Patterns Based on Tailored Persistent Lifetimes in Gd${}_2$O${}_2$S:Eu${}^{3+}$/Ti${}^{4+}$
Katumo, N.; Ruiz-Preciado, L. A.; Kumar, V.; Hernandez-Sosa, G.; Richards, B. S.; Howard, I. A.
2021. Advanced materials technologies, 6 (7), Art.-Nr.: 2100047. doi:10.1002/admt.202100047  

Unraveling the dependency on multiple passes in laser-induced graphene electrodes for supercapacitor and H₂O₂ sensing
Kaur, S.; Mager, D.; Korvink, J. G.; Islam, M.
2021. Materials Science for Energy Technologies, 4, 407–412. doi:10.1016/j.mset.2021.09.004 

Special Issue on “Advances in Microfluidics Technology for Diagnostics and Detection”
Kinahan, D. J.; Mager, D.; Vereshchagina, E.; Miyazaki, C. M.
2021. Processes, 9 (5), Article: 854. doi:10.3390/pr9050854  

Microfluidic Overhauser DNP chip for signal-enhanced compact NMR
Kiss, S. Z.; MacKinnon, N.; Korvink, J. G.
2021. Scientific reports, 11 (1), Art. Nr.: 4671. doi:10.1038/s41598-021-83625-y  

Biophotonic sensors with integrated Si${}_3$N${}_4$-organic hybrid (SiNOH) lasers for point-of-care diagnostics
Kohler, D.; Schindler, G.; Hahn, L.; Milvich, J.; Hofmann, A.; Länge, K.; Freude, W.; Koos, C.
2021. Light: Science and Applications, 10 (1), Art.-Nr.: 64. doi:10.1038/s41377-021-00486-w  

Inkjet-Printed Tin Oxide Hole-Blocking Layers for Organic Photodiodes
Krebsbach, P.; Schlisske, S.; Strobel, N.; Seiberlich, M.; Ruiz-Preciado, L. A.; Rainer, C.; Huang, X.; Lemmer, U.; Hernandez-Sosa, G.
2021. ACS applied electronic materials, 3 (11), 4959–4966. doi:10.1021/acsaelm.1c00760 

Architectural tunability of mechanical metamaterials in the nanometer range
Kurpiers, C. M.; Hengsbach, S.; Schwaiger, R.
2021. MRS advances, 6, 507–512. doi:10.1557/s43580-021-00094-1  

Heusler alloy-based heat engine using pyroelectric conversion for small-scale thermal energy harvesting
Lallart, M.; Yan, L.; Miki, H.; Sebald, G.; Diguet, G.; Ohtsuka, M.; Kohl, M.
2021. Applied energy, 288, Article no: 116617. doi:10.1016/j.apenergy.2021.116617 

Renewable Energy Powered Membrane Technology: Electrical Energy Storage Options for a Photovoltaic-Powered Brackish Water Desalination System
Li, S.; Carvalho, A. P. S. G. de; Schäfer, A. I.; Richards, B. S.
2021. Applied Sciences, 11 (2), Art.-Nr.: 856. doi:10.3390/app11020856  

Exciton versus free carrier emission: Implications for photoluminescence efficiency and amplified spontaneous emission thresholds in quasi-2D and 3D perovskites
Li, Y.; Allegro, I.; Kaiser, M.; Malla, A. J.; Richards, B. S.; Lemmer, U.; Paetzold, U. W.; Howard, I. A.
2021. Materials Today, 49, 35–47. doi:10.1016/j.mattod.2021.05.002  

Anisotropic optical behavior of an amorphous organic polymer locally aligned by inkjet-printing
Lindberg, F. W.; Synnatschke, K.; Rödlmeier, T.; Brenner, P.; Krings, M.; Dietl, M. C.; Lemmer, U.; Backes, C.; Hernandez-Sosa, G.
2021. Progress in Organic Coatings, 154, Art.-Nr.: 106184. doi:10.1016/j.porgcoat.2021.106184 

Distinct Roles of Tensile and Compressive Stresses in Graphitizing and Properties of Carbon Nanofibers
Liu, Y.; Lau, E.; Mager, D.; Madou, M. J.; Ghazinejad, M.
2021. Micromachines, 12 (9), Article no: 1096. doi:10.3390/mi12091096  

Photodegradation of steroid-hormone micropollutants in a flow-through membrane reactor coated with Pd(II)-porphyrin
Lyubimenko, R.; Gutierrez Cardenas, O. I.; Turshatov, A.; Richards, B. S.; Schäfer, A. I.
2021. Applied catalysis / B, 291, Art.-Nr.: 120097. doi:10.1016/j.apcatb.2021.120097 

Selective excitation enables encoding and measurement of multiple diffusion parameters in a single experiment
MacKinnon, N.; Alinaghian, M.; Silva, P.; Gloge, T.; Luy, B.; Jouda, M.; Korvink, J. G.
2021. Magnetic resonance, 2 (2), 835–842. doi:10.5194/mr-2-835-2021  

An up-conversion luminophore with high quantum yield and brightness based on BaF${}_2$:Yb${}^{3+}$,Er${}^{3+}$ single crystals
Madirov, E. I.; Konyushkin, V. A.; Nakladov, A. N.; Fedorov, P. P.; Bergfeldt, T.; Busko, D.; Howard, I. A.; Richards, B. S.; Kuznetsov, S. V.; Turshatov, A.
2021. Journal of materials chemistry / C, 9 (10), 3493–3503. doi:10.1039/d1tc00104c  

Realizing High Thermoelectric Performance of Bi-Sb-Te-Based Printed Films through Grain Interface Modification by an In Situ-Grown β-Cu2-δSe Phase
Mallick, M. M.; Franke, L.; Rösch, A. G.; Ahmad, S.; Geßwein, H.; Eggeler, Y. M.; Rohde, M.; Lemmer, U.
2021. ACS applied materials & interfaces, 13 (51), 61386–61395. doi:10.1021/acsami.1c13526  

Shape-Versatile 3D Thermoelectric Generators by Additive Manufacturing
Mallick, M. M.; Franke, L.; Rösch, A. G.; Lemmer, U.
2021. ACS energy letters, 6, 85–91. doi:10.1021/acsenergylett.0c02159 

Nano- and Microstructured Copper/Copper Oxide Composites on Laser-Induced Carbon for Enzyme-Free Glucose Sensors
Mamleyev, E. R.; Weidler, P. G.; Nefedov, A.; Szabó, D. V.; Islam, M.; Mager, D.; Korvink, J. G.
2021. ACS applied nano materials, 4 (12), 13747–13760. doi:10.1021/acsanm.1c03149