Conclusions and outlook • • •

https://www.nano.lu.se/sites/nano.lu.se/files/2021-10/Havir_Reflectometry%20Measurements%20on%20a%20Quantum%20Dot.pdf - 2025-07-16

MRS2021_high res.pdf PHOTOLUMINESCENCE MAPS OF WAFER-SCALE NANOWIRE ARRAYS Varied (a, b) and homogeneous (c, d) DTL doses. (a) and (c) show the highest measured intensity of every pixel. (b) and (d) show the peak position of the measured PL. Photoluminescence Maps 0 10 20 30 40 50 0 10 20 30 40 50 0 10 20 30 40 50 X [mm] 0 10 20 30 40 50 0 5000 10000 15000 20000 25000 30000 850 860 870 880 890 900

https://www.nano.lu.se/sites/nano.lu.se/files/2021-10/Hrachowina_Wafer-Scale%20Synthesis%20and%20Optical%20Characterization%20of%20InP%20Nanowire%20Arrays.pdf - 2025-07-16

PowerPoint Presentation Towards highly efficient earth-abundant photoelectrodes for solar-assisted catalysis Anurag Kawde1,2,3*, Lukas Hrachowina2, Pierre-Adrien Mante1, Kaibo Zheng1, Qi Shi1, Pavel Chabera1, Magnus Borgström2, Marius Graczyk2, Arkady Yartsev1, Jens Uhlig1,2,3*, Tonu Pullerits1,2* 1. Chemical Physics, Lund University, Sweden, 2. NanoLund, Lund University, Sweden, 3. LINXS, Lund Un

https://www.nano.lu.se/sites/nano.lu.se/files/2021-10/Kawde_Towards%20highly%20efficient%20earth-abundant%20photoelectrodes%20for%20solar-assisted%20catalysis.pdf - 2025-07-16

Higher-order sweet spot in a quantum double dot qubit References: Want to develop a new noise-resilient qubit design based on the available expertise at NanoLund: - Double quantum dots in nanowire systems. - Control with microwave resonators [1]. - Unique possible implementation with ring-like states [2]. We find a parameter regime of a double quantum dot which we expect to be highly resistent to

https://www.nano.lu.se/sites/nano.lu.se/files/2021-10/Kjaergaard%20Munk_PosterNanoLundAnnual2021MKM.pdf - 2025-07-16

Light Guiding and Tunneling, nanowire fabrication Photo-induced hot carrier cooling in two- dimensional perovskite single crystal Hot carrier solar cell (HCSC) is a promising solution to overcome Shockley-Queisser limit.[1-2] Here we investigate the potential of two-dimensional (2D) organic-inorganic hybrid perovskites [(BA)2(MA)2Pb3I10] as a building block in HCSC. To reveal the HC cooling mechan

https://www.nano.lu.se/sites/nano.lu.se/files/2021-10/Lin_Photo-induced%20hot%20carrier%20cooling%20in%20two%20dimensional%20perovskite%20single%20crystal.pdf - 2025-07-16

Correlation Clustering Correlation clustering - A tool to analyse blinking in semiconductor films Boris Louis1,2, Sudipta Seth1, Johan Hofkens2 and Ivan G. Scheblykin1 1Lund University, Division of Chemical Physics, SE-22100, Lund, Sweden 2KULeuven, Department of Chemistry, Celestijenlaan 200F, B-3001 Leuven, Belgium. 3. Results 4. Method Validation 5. Perspectives 2. Methods1. Introduction 6. Con

https://www.nano.lu.se/sites/nano.lu.se/files/2021-10/Louis_Correlation%20clustering%20-%20A%20tool%20to%20analyse%20blinking%20in%20semiconductor%20films.pdf - 2025-07-16

PowerPoint Presentation Ultrafast Dynamics in Charge Density Waves Pierre-Adrien Mante1,2, Chin Shen Ong3, Arkady Yartsev1,2, Oscar Gränås3, and Olle Eriksson3, 4 1. NanoLund, Lund University 2. Department of Chemical Physics, Lund University 3. Department of Physics and Astronomy, Uppsala University 4. School of Science and Technology, Örebro University, Sweden The strong interplay between degree

https://www.nano.lu.se/sites/nano.lu.se/files/2021-10/Mante_Ultrafast%20Dynamics%20in%20Charge%20Density%20Waves.pdf - 2025-07-16

AnnualMeeting2021 WACQT Wallenberg Centre for Quantum Technology Metastability and effective long-time dynamics • Metastable regime: defined by spectral gap • Long-time dynamics: • Projection onto metastable manifold [3,4]: • Every state probabilistic mixture of • constitute (competing) metastable phases |ρ(t)) ≈ |ρss) + eλ1t (ρ(0) ⃗l1) | ⃗r1) ρ(t) = p1(t) ρ̃1 + p2(t) ρ̃2 ρ̃1, ρ̃2 ρ̃1, ρ̃2 Quantum

https://www.nano.lu.se/sites/nano.lu.se/files/2021-10/Matern_Transient%20dynamics%20&%20metastability%20in%20parallel%20QDs.pdf - 2025-07-16

HEERA MENON1,2, NICHOLAS PAUL MORGAN3, HOSSEIN JEDDI2,4,5, CRISPIN HETHERINGTON2,6, HÅKAN PETTERSSON2,4,5, ANNA FONTCUBERTA i MORRAL3, MATTIAS BORG1,2 E-mail: heera.menon@eit.lth.seElectrical and Information Technology, Lund University 1. Electrical and Information Technology, Lund University, Lund, Sweden 2. NanoLund, Lund University, Sweden 3. Laboratory of Semiconductor Materials, Ecole Polytec

https://www.nano.lu.se/sites/nano.lu.se/files/2021-10/Menon_Integration%20of%20single%20crystalline%20InSb%20on%20Si%20by%20rapid%20melt%20growth_Optimized.pdf - 2025-07-16

NanoLund_poster_optimization of near surface quantum well processing a) c) b) A first step toward realization of a scalable platform for topological qubits: Optimizationof near-surface quantumwellprocessing Processing of near-surface quantum wells based on semiconductors with high mobility and strong spin–orbit coupling is very interesting for Majorana-based quantum devices. A network of lateral I

https://www.nano.lu.se/sites/nano.lu.se/files/2021-10/Olausson_NanoLund_poster_optimization%20of%20near%20surface%20quantum%20well%20processing.pdf - 2025-07-16

EAC2021_Landscape A sample delivery system for in-light aerosol studies at MAX IV Laboratory C. Preger1,2,3, N. Walsh2 , A. C. Eriksson1,3, A. Kivimäki2,4, M. Patanen4, N. Prisle5, and J. Rissler1,3,6 1Ergonomics and Aerosol Technology, 2MAX IV Laboratory , 3NanoLund - all at Lund University, Lund, SE-22100, Sweden 4Nano and Molecular Systems Research Unit, 5Center for Atmospheric Research - all

https://www.nano.lu.se/sites/nano.lu.se/files/2021-10/Preger_NanoLund2021_Preger.pdf - 2025-07-16

NanoLund Annual Meeting 2021 Light for Nano – Nano for Light 12 October 2021, Scandic Star Hotel, Glimmervägen 5, Lund More information: www.nano.lu.se/annualmeeting2021 Program chairs: Ivan Scheblykin and Jesper Wallentin 08:30 – 08:55 Coffee and registration Opening session Chairs: Ivan Scheblykin, Jesper Wallentin 08:55 Welcome and opening by Heiner Linke, Deputy Dean, LTH and Chair of NanoLund

https://www.nano.lu.se/sites/nano.lu.se/files/2021-10/Program%20NanoLund%20Annual%20Meeting%202021.pdf - 2025-07-16

PowerPoint Presentation 650 700 750 800 850 900 0.0 0.5 1.0 1.6 µm 800 nm 400 nm 200 nm MAPI flm Wavelength (nm) N o rm P L Abstract Are you used to the cut and paste approach? Good news – it works even for semiconductors! Summary PL Spectra The SiO2/Si template was made using electron beam lithography and dry etching. Metal halide perovskite have shown great performance in a broad range of optoel

https://www.nano.lu.se/sites/nano.lu.se/files/2021-10/Scheblykin_Poster%20Cut%20and%20Paste%20Perovkite%20preparation%202021%20Ivan.pdf - 2025-07-16

PowerPoint Presentation Solving EXACT COVER problem using Network-based Biocomputation Pradheebha Surendiran1, Christoph Robert Meinecke2, Aseem Salhotra3, Georg Heldt2, Alf Månsson3, Danny Reuter2, Hillel Kugler4, Falco C. M. J. M. van Delft5, Heiner Linke1, Till Korten6 1 NanoLund and Solid State Physics, Lund University, Lund, Sweden 2 Center for Microtechnologies, Technische Universität Chemni

https://www.nano.lu.se/sites/nano.lu.se/files/2021-10/Surendiran_Poster_excov_Nanolund%2021_Pradheebha.pdf - 2025-07-16

Poster Contact If you have any questions, do not hesitate to contact me at: david.wahlqvist@chem.lu.se References [1]: Koskinen P. et al., Self-Passivating Edge Reconstructions of Graphene, PhysRevLett, 2008, 101, 115502, DOI: 10.1103/ PhysRevLett.101.115502 [2]: Thomsen J.D. et al., Oxidation of Suspended Graphene: Etch Dynamics and Stability Beyond 1000 °C, ACS Nano, 2019, 13(2), 2281-2288, DOI:

https://www.nano.lu.se/sites/nano.lu.se/files/2021-10/Wahlqvist_PosterDavidWahlqvistNanoLund2021.pdf - 2025-07-16

Poster Imaging the ultrafast hot electron relaxation in InAs nanowires Lukas Wittenbecher1, Emil Vinas Boström¹, Jan Vogelsang¹, Sebastian Lehman¹, Kimberly A. Dick², Claudio Verdozzi¹, Donatas Zigmantas³ and Anders Mikkelsen¹ e- e- e- e- Background1 Experiment2 Results3 Conclusion4 Dt InAs nanowire Ph ot oe le ct ro ns wz zb wz Pump pulse (2.27 eV) Probe pulse (2.27 eV) PEEM • We combine time-res

https://www.nano.lu.se/sites/nano.lu.se/files/2021-10/Wittenbecher_Imaging%20the%20ultrafast%20hot%20electron%20relaxation%20in%20InAs%20nanowires.pdf - 2025-07-16

PowerPoint Presentation • • • • • • (a) (b) • • (a) (b) 20 nm Atomic scale characterization of Bi incorporation on InSb surfaces • • • (a) (b) (c) (d) 5 nm 20 nm 20 nm 5 nm • • • (a) (b) (c)

https://www.nano.lu.se/sites/nano.lu.se/files/2021-10/Yadav_Atomic%20scale%20characterization%20of%20Bi%20incorporation%20on%20InSb%20surfaces.pdf - 2025-07-16

NanoLund 2025 STRATEGIC PLAN FOR THE CENTER FOR NANOSCIENCE LUND UNIVERSITY | 2020–2025 www.nano.lu.se Background HISTORY NanoLund, the Center for Nanoscience at Lund University, was established in the year 2015 by agreement between the deans of the faculties of engineering (LTH), sciences, and medicine at Lund University. NanoLund was founded on the basis of the Nano- meter Structure Consortium (

https://www.nano.lu.se/sites/nano.lu.se/files/2021-12/NanoLund%20Strategic%20Plan%202025%20web%20version.pdf - 2025-07-16

Sequencing in tissues – Explore biological processes at the single base resolution with novel (micro-)fluidics Thesis Proposal In this project you will participate in an interdisciplinary research team with the goal of developing state-of-the-art sequencing technologies inside biological tissues. The specific goal of the thesis project is to develop and implement microfluidics coupled to microscop

https://www.nano.lu.se/sites/nano.lu.se/files/2022-01/MSc%20%20Fluidics_proposal2022.docx - 2025-07-16

NanoLund Retreat 2022 for faculty members and affiliated faculty members 31 May – 1 June at Hotel Öresund Conference & Spa, Landskrona Program: Tuesday 31 May 11.15 Bus leaves Lund, Professorsgatan 1 12.00 Lunch at Hotel Öresund Conference & Spa, Landskrona 13.00 Welcome 13.05 Update from NanoLund management and the new NanoLund area structure (Anders) 13.45 Break and move to groups for discussion

https://www.nano.lu.se/sites/nano.lu.se/files/2022-04/NanoLund%20Retreat%20Program.pdf - 2025-07-16