Electrostatically Dened Bottom-Heated InAs Nanowire Quantum Dot Systems Sven Dorsch, Soa Fahlvik, and Adam Burke NanoLund and Solid State Physics, Lund University, Lund, Sweden ACKNOWLEDGEMENTS 1) B. Sothmann et al., Nanotechnology 26 (2014). 2) M. Josefsson et al., Nat. Nanotechnol. 13 (2018). 3) S. Dorsch et al., Nano Lett. 21 (2021). 4) E. Bonet et al., Phys. Rev. B 65 (2002). Device Layout & B

https://www.nano.lu.se/sites/nano.lu.se/files/2021-10/Dorsch_AnnualMeeting_2021_Sven_Dorsch.pdf - 2025-08-24

Surface physics play an outsized role in nanostructured electronic devices such as solar cells. Surface potential microscopy (SPM) provides a unique and relevant characterization (electrical, structural), even in unconventional 3D geometries. We unveil a flexible, non-destructive AFM technique for directly measuring nanowires (NW) within an array still on the growth substrate. This cross-sectional

https://www.nano.lu.se/sites/nano.lu.se/files/2021-10/Irish_Walking%20the%20Plank%20Solar%20Cell%20Nanowire%20Arrays%20Probed%20in%20situ%20by%20Surface%20Potential%20Microscopy.pdf - 2025-08-24

https://www.nano.lu.se/sites/nano.lu.se/files/2021-10/Jash_Time-resolved%20photoluminescence%20studies%20of%20single%20interface%20polytype%20heterostructured%20InP%20nanowires.pdf - 2025-08-24

Effects of photovoltaic nanowire arrays on human cancer cells HNW a b d 0 s 0.8 s5 µm c a c PHOTOVOLTAIC NANOWIRES INTERFACING CANCER CELLS: Effects of photovoltaic nanowire arrays on human cancer cells Vertical nanowire arrays are attractive as cell culture substrates, as they can steer the behavior of cells cultured on the array. However, less is known about the effects of culturing cells on nan

https://www.nano.lu.se/sites/nano.lu.se/files/2021-10/Johansson_NanoLund_Poster_A0_ThereseJohansson_2021.pdf - 2025-08-24

PowerPoint Presentation Time-Resolved Spectroscopy of new Fe-Based Photosensitizers Linearly aligned “push-pull” structure to separate the electron from the hole upon excitation. Broadening of absorption spectrum due to substituents, good to match solar spectrum. - Goal is to replace Ru with Fe in photosensitizers - Fe-based photosensitizers have developed with the carbene-ligand - Applications ar

https://www.nano.lu.se/sites/nano.lu.se/files/2021-10/Lindh_PosterLinneaLindh_A0.pdf - 2025-08-24

PowerPoint Presentation Hot Carrier Extraction in InAs/InP Nanowires Studied by Laser Combined Scanning Gate Microscopy I. Introduction II. Experimental setup III. Theoretical IV. Results V. Conclusion yen-po.liu@sljus.lu.se Laser light: variable wavelength laser with 500nm beam spot size in 600- 900 nm for hot carrier excitation. AFM tip: topography and mobile gate Electrical measurement: source-

https://www.nano.lu.se/sites/nano.lu.se/files/2021-10/Liu_Laser%20combined%20scanning%20gate%20microscopy%20on%20InAs%20NW%20device%20with%20an%20InP%20quantum%20barrier.pdf - 2025-08-24

PowerPoint Presentation References PLQY(f,P) mapping of perovskite films 1E-6 1E-5 1E-4 0.001 0.01 0.1 1 10 100 1000 0.1 1 10 100 1000 10000 PLQY(f,P) of MAPbI 3 film OD0 OD1 OD2 OD3 OD4 P L Q Y Power Density (W/cm 2 ) 1E-6 1E-5 1E-4 0.001 0.01 0.1 1 10 100 1000 0.1 1 10 100 1000 10000 PLQY(f,P) of 2D MAPbI 3 OD0 OD1 OD2 OD3 OD4 P L Q Y Power Density (W/cm 2 ) 1E-6 1E-5 1E-4 0.001 0.01 0.1 1 10 10

https://www.nano.lu.se/sites/nano.lu.se/files/2021-10/Rao_PLQY%20mapping%20of%20Perovskite%20films.pdf - 2025-08-24

Exploring the NIR region of DNA-stabilized silver nanoclusters Vanessa Rück, Cecilia Cerretani, Mikkel Baldtzer Liisberg, and Tom Vosch* Nano-Science Center, Department of Chemistry, University of Copenhagen, Universitetsparken 5, 2100 Copenhagen, Denmark, *tom@chem.ku.dk U N I V E R S I T Y O F C O P E N H A G E N D E P A R T M E N T O F C H E M I S T R Y • The fluorescence quantum yield and deca

https://www.nano.lu.se/sites/nano.lu.se/files/2021-10/Ru%CC%88ck_Poster_NanoLund.pdf - 2025-08-24

PowerPoint Presentation 1.6 s0.8 s c d 0.0 s b Mehran Sedrpooshan1,2, Calle Preger1,3, Claudiu Bulbucan1,2, Pau Ternero1,3, Simone Finizio4, Adam M. Burke1,3, Maria E. Messing1,2,3, Rasmus Westerström1,2 1. NanoLund, Lund University, Box 118, 221 00 Lund, Sweden, 2. Synchrotron Radiation Research, Lund University, Box 118, 221 00 Lund, Sweden, 3. Solid State Physics, Lund University, Box 118, 221

https://www.nano.lu.se/sites/nano.lu.se/files/2021-10/Sedrapoosan_Poster2021_MehranS.pdf - 2025-08-24

nanolund2021_poster_A1_horizontal.pdf PVD GROWTH IN THE AEROSOL PHASE: Synthesis and Characterization of Au@Zn Core@Shell Aerosol Nanoparticles Generated by Spark Ablation and on-line PVD MARKUS SNELLMAN1, NAMSOON EOM1, MARTIN EK2, MARIA E. MESSING1, KNUT DEPPERT1 1Lund University, Department of Physics and NanoLund, Box 118, 22100 Lund, Sweden 2Lund University, Department of Chemistry and NanoLun

https://www.nano.lu.se/sites/nano.lu.se/files/2021-10/Snellman_nanolund2021_poster_A1_horizontal.pdf - 2025-08-24

PowerPoint Presentation Diameter Dependent Polarization Property on Perovskite Nanowires Chen Sun1, Zhaojun Zhao2, Juanzi Shi1, Jesper Wallentin2, Ivan G Scheblykin1* 1 Division of Chemical Physics, Lund University, Box 124, 22100, Lund, Sweden 2 Division of Synchrotron Radiation Research, Lund University, Box 124, 22100, Lund, Sweden ivan.scheblykin@chemphys.lu.se The work was supported by the Sw

https://www.nano.lu.se/sites/nano.lu.se/files/2021-10/Sun_Diameter%20dependent%20polarization%20property%20on%20perovskite%20nanowires.pdf - 2025-08-24

poster Quantum dots with proximity induced superconducting pairing Quantum dots (QD) coupled to superconductors (S) are excellent platforms to study states induced in the superconducting gap, the so called Andreev bound states (ABS). In this context ABSs are often referred to as Yu- Shiba-Rusinov (YSR) states, a term originally used to describe sub-gap states caused by magnetic impurities in S. In

https://www.nano.lu.se/sites/nano.lu.se/files/2021-10/Tsintzis_poster_Athanasios_Tsintzis.pdf - 2025-08-24

Simon Wozny1, Martin Josefsson1, Martin Leijnse1 Future plans Toy model: Anderson model with the Pauli master equation approach REFERENCES ACKNOWLEDGEMENTS This project is a part of the nanothermodynamics KAW agship project on TURs. Theory collaborations: Patrick Potts, Peter Samuelsson, Experimental collaborations: Sven Dorsch, Adam Burke, Ville Maisi, Heiner Linke. We acknowledge nancial support

https://www.nano.lu.se/sites/nano.lu.se/files/2021-10/Wozny_Noise%20and%20Thermodynamic%20Uncertainty%20Relations%20in%20Quantum%20Dot%20heat%20engines.pdf - 2025-08-24

1 November 29, 2021 Junior Scientist Ideas Award. Funding for seedling projects by students and postdocs. Do you have a research idea that you would like to try out? Do you know what might be the next big thing? All masters students, PhD students and postdocs within NanoLund are invited to propose a project and obtain seed funds to try out a new research idea: • Eligibility: The proposer (masters

https://www.nano.lu.se/sites/nano.lu.se/files/2021-11/Call%20for%20seedling%20projects%202022.pdf - 2025-08-24

CV Linke December 2021 December 2021 Heiner Linke, Lund University EDUCATION 1997 PhD, Solid State Physics, Lund University, Sweden 1992 Dipl. Phys. (MSc) Physics Department, Technical University Munich, Germany CURRENT POSITION 2021 – 2023 Deputy Dean (prorektor), Faculty of Engineering LTH, Lund University 2009 - Professor of Nanophysics, Physics Department, Lund University PREVIOUS POSITIONS 20

https://www.nano.lu.se/sites/nano.lu.se/files/2021-12/CV%20Linke%20December%202021.pdf - 2025-08-24

Introduction to NanoLund event 16 February 2022 What is NanoLund? Which are the scientific possibilities? What does it mean to be involved in NanoLund? How is it organised? Which are the benefits? How can I find collaborators? How can I use equipment in other labs? In need of tips and tricks for PhD students and postdocs? To answer these and many other questions, we would like to welcome you to an

https://www.nano.lu.se/sites/nano.lu.se/files/2021-12/Introduction%20event%202022_February.pdf - 2025-08-24

A result from aligning the crossection of a potassium doped CsPb(I,Br)3 sam- ple in a nano X-ray beam in order to measure the distribution of potassi- um in the sample by nano-XRF. The different lines are linescans over the crossection, while each line was mea- sured at a different angle between the X-ray beam and the sample. Klara Suchan, PhD student Warmest wishes for a happy holiday season and

https://www.nano.lu.se/sites/nano.lu.se/files/2021-12/Julkort%202021.pdf - 2025-08-24

Funded NanoLund Projects 2021 e03-2021 Luke Hankin Enhanced Lithography Capabilities at Lund Nano Lab Equipment e04-2021 Anders Mikkelsen Electron microscopy at extreme timescales Equipment e05-2021 Anders Kvennefors Critical Windows upgrade for Voyager EBL and Beamer Software for EBL and DLW Equipment e07-2021 Luke Hankin Co-funding towards 2021 investment applications for PECVD and/or PVD Equipm

https://www.nano.lu.se/sites/nano.lu.se/files/2022-01/NanoLund_project_funding_2021_final.pdf - 2025-08-24

Flyer Nanosafetykurs 2022 - - The aim of the course is to mediate knowledge of safe manufacturing and handling of engineered nanoparticles and of nanomaterials i.e. materials containing nanoparticles, in the perspective of human health and of environment. Aspects such as safety, important particle character- istics, exposure- and emission assessment, nanotoxicology, precautionary principle, safe-b

https://www.nano.lu.se/sites/nano.lu.se/files/2022-04/Flyer%20Nanosafetykurs%202022.pdf - 2025-08-24

ANNUAL MEETING 2022 Materials – building the world 11 OCT Welcome to NanoLund’s Annual Meeting! When: October 11, 2022 Where: Scandic Star, Glimmerv 5, Lund 8:30 The program starts, featuring invited and contributed talks, posters covering all areas of nanoscience 17.30 Posters and pre-dinner drink 19:00 Dinner, prizes and awards Read more: nano.lu.se/annualmeeting2022

https://www.nano.lu.se/sites/nano.lu.se/files/2022-05/AnnualMeeting2022poster3.pdf - 2025-08-24