
LUNDS UNIVERSITET · Lund
Lund University was founded in 1666 and is repeatedly ranked among the world’s top universities. The University has around 46 000 students and 8 500 staff based...
Lund University was founded in 1666 and is repeatedly ranked among the world’s top universities. The University has around 46 000 students and 8 500 staff based in Lund, Helsingborg and Malmö. We are united in our efforts to understand, explain and improve our world and the human condition.
High-throughput SAXS for Lipid Nanoparticle Structure and Function
Are you interested in developing next-generation scattering methods for one of the most important challenges in modern therapeutics?
We are seeking a highly motivated postdoctoral researcher to join the CoSAXS beamline at MAX IV and the Edler Group, at Lund University to develop high-throughput SAXS/WAXS approaches for understanding the structure and function of solid lipid nanoparticles.
This 36 month position offers the opportunity to work at one of the world’s most advanced synchrotron facilities, within an international and interdisciplinary research environment spanning soft matter physics, structural biology, nanomedicine, and advanced data analysis. The fellowship is funded through the prestigious AMBER Marie Skłodowska-Curie COFUND programme.
The Research Environment
The position is hosted jointly by the CoSAXS beamline and the Edler goup at Lund University.
CoSAXS (https://www.maxiv.lu.se/beamlines-accelerators/beamlines/cosaxs/) is a state-of-the-art SAXS/WAXS beamline operating on the 3 GeV storage ring at MAX IV, one of the world’s leading fourth-generation synchrotron sources. The beamline supports research in soft matter, biological materials, and nanostructured systems through advanced instrumentation and flexible sample environments.
The Edler Group ( https://www.cas.lu.se/research/materials-chemistry/edler-research-group) focuses on understanding how hierarchical functional materials form and how this understanding can be used to design new materials with tailored properties. Research in the group centres on self-assembly processes involving nanoparticles, surfactants, polymers, lipid systems, and other soft matter components, with particular emphasis on how nanoscale interactions govern structure and function across multiple length scales. The group combines advanced scattering and diffraction methods with a broad suite of complementary characterisation techniques such as TEM, SEM, AFM, NMR, light scattering, XRD, and neutron scattering approaches.
The project also involves collaboration with researchers at ESS and ISIS Neutron and Muon Source as part of the ESS First Science initiative “The Lifecycle of a Lipid Nanoparticle.”
The Project: High-throughput SAXS for Visualising Solid Lipid Nanoparticles
Lipid nanoparticles are rapidly transforming the field of drug delivery, including RNA therapeutics and precision medicine. Despite their importance, many fundamental questions remain about how nanoparticle structure governs encapsulation, stability, transport, and biological performance. This project aims to establish direct links between nanoscale structure and function in lipid nanoparticles using advanced synchrotron SAXS/WAXS methods at MAX IV.
The postdoctoral researcher will play a central role in developing new experimental and analytical capabilities for high-throughput lipid nanoparticle characterisation at CoSAXS. The work combines synchrotron experiments, advanced scattering analysis, and collaborative method development.
design, plan, and perform SAXS/WAXS experiments on solid lipid nanoparticles and related soft matter systems
develop high-throughput workflows for nanoparticle characterisation at CoSAXS
investigate nanoparticle formation pathways, internal organisation, and structural evolution
analyse scattering data using advanced computational approaches, including atomistic and coarse-grained modelling
contribute to the development of data analysis tools for complex nanoparticle systems
participate in neutron and synchrotron experiments at international large-scale facilities
support relevant user experiments and contribute to the broader scientific activities of the beamline
train and support users in scattering workflows and analysis methods
contribute to supervision of student projects and collaborative research activities
disseminate research through publications, conference presentations, workshops, and international collaborations
The position offers a unique opportunity to contribute both to frontier research in nanostructured therapeutics and to the development of next-generation experimental methods for the wider scientific community.
We are looking for an ambitious and collaborative researcher with strong experimental and analytical skills. Applicants should have:
PhD in a relevant science area, biophysics, lipid/amphiphile based physical chemistry or equivalent
Proven expertise in SAXS/WAXS and data interpretation
Proven experience in the use of synchrotron SAXS/WAXS for lipid or surfactant self-assembled structure determination
Documented expertise in data reduction and analysis using scripting (ideally python-based)
Experience carrying out SAXS/WAXS experiments at large scale facilities, ideally from self-authored proposals
Working experience with soft matter and/or protein systems including sample preparation for SAXS measurements
Ability to work independently and take initiatives
Strong social and communication skills
Good command of written and spoken English
Experience with lipid systems, surfactants, nanoparticle self-assembly, atomistic modelling, or beamline environments will be considered an advantage.
For the full advert and application, go here: https://lu.varbi.com/what:job/jobID:939549/
Observera att detta är en förkortad version av annonsen. För att se den fullständiga annonsen vänligen klicka på ”Ansök här” eller se Uppsala universitets hemsida för jobbannonser: https://www.uu.se/om-uu/jobba-hos-oss/lediga-jobb Vill du arbeta med reglerteknik samt cybersäkerhet och artificiell intelligens, med stöd av kompetenta och trevliga kollegor i en internationell miljö? Vill du ha en arbetsgivare som satsar på ett hållbart medarbetarskap och erbjuder trygga, förmånliga arbetsvillkor? Välkommen att söka anställning som doktorand vid Institutionen för informationsteknologi, Uppsala universitet. Doktoranden kommer att placeras i Secure Learning and Control Laboratory, en tvärvetenskaplig forskargrupp som utför grundläggande och tillämpad forskning i skärningspunkten mellan cybersäkerhet, reglerteori och maskininlärning. Arbetsuppgifter Doktoranden kommer främst att ägna sig åt den egna forskarutbildningen. Övrig tjänstgöring vid institutionen, som avser undervisning och administrativt arbete, kan ingå inom ramen för anställningen (max 20%). Utöver det inkluderar arbetsuppgifterna följande: Tvärvetenskaplig forskning inom säkerhet för cyberfysiska system, med fokus på säkra reglering under osäkerhet och i närvaro av realistiska motståndare. Publicering av vetenskapliga resultat i ledande vetenskapliga tidskrifter och vid framstående internationella konferenser. Bidrag till nätverksgemensamma aktiviteter samt genomförande av (transnationella) akademiska och/eller industriella forskningsvistelser inom Europa. Kvalifikationskrav Grundläggande behörighet till utbildning på forskarnivå har den som: avlagt examen på avancerad nivå inom elektroteknik, teknisk fysik, tillämpad matematik, datavetenskap eller ett närliggande område, eller fullgjort minst 240 högskolepoäng, varav minst 60 högskolepoäng på avancerad nivå inklusive ett självständigt arbete om minst 15 högskolepoäng, eller på något annat sätt inom eller utom landet förvärvat i huvudsak motsvarande kunskaper. För särskild behörighet, se studieplanen för ämnet. Därutöver krävs: Mycket goda studieresultat från tidigare högre utbildning. Goda kunskaper i reglerteknik och systemteori. God programmeringsvana (t.ex. i C, C++, Python, Julia eller Matlab). Hög kvalitet på examensarbete på avancerad nivå (eller motsvarande) av eller annat självständigt skriftligt arbete. Mycket god förmåga att uttrycka dig i tal och skrift på engelska. Personliga egenskaper såsom kreativitet, noggrannhet och/eller ett strukturerat arbetssätt vid problemlösning. För att vara behörig som doktorand inom MSCA (Marie Skłodowska-Curie Actions) får du inte ha avlagt doktorsexamen vid rekryteringstillfället, samt inte vara inskriven på ett doktorandprogram. MSCA:s mobilitetsregel innebär att sökande inte får ha varit bosatta eller haft sin huvudsakliga verksamhet (arbete, studier etc.) i det land där värdorganisationen finns (Sverige) i mer än 12 månader under de tre år som omedelbart föregår rekryteringstillfället. Önskvärt/meriterande i övrigt Dokumenterad analytisk förmåga av hög kvalitet. Personliga egenskaper såsom initiativförmåga, samarbetsförmåga samt förmåga att kommunicera effektivt med både internationella och nationella projektparter, liksom förmåga att arbeta både självständigt och i team. Meriterande är kunskaper inom ett eller flera av följande områden: maskininlärning, cybersäkerhet eller datorsystem. Bestämmelser för doktorander återfinns i Högskoleförordningen 5 kap §§ 1-7 samt i universitetets regler och riktlinjer. Ansökan Ansökan ska innehålla nedanstående handlingar. De inskickade materialen ska tydligt visa den sökandes kvalifikationer i förhållande till bedömningskriterierna. Personligt brev (högst två sidor) där den sökande beskriver sin motivation för att söka tjänsten samt tidigast möjliga startdatum. Brevet ska innehålla ett avsnitt med rubriken ”Lämplighet för denna tjänst”, där den sökande kort beskriver hur bakgrund, kunskaper och erfarenheter motsvarar kraven och bedömningskriterierna. Curriculum vitae (CV). Kopior av examensbevis och studieutdrag, inklusive betyg (med översättning till engelska eller svenska om originalhandlingarna är på ett annat språk). Examensarbete på avancerad nivå (eller ett utkast om arbetet ännu inte är slutfört) och/eller en annan egenproducerad teknisk eller vetenskaplig text som visar den sökandes forsknings- och analytiska förmåga. Sökande kan även bifoga publikationer eller andra relevanta dokument. Kontaktuppgifter till två referenser (namn, e-postadress och telefonnummer). Sökande kan även bifoga upp till två rekommendationsbrev. Om anställningen Anställningen är tidsbegränsad, enligt HF 5 kap § 7. Omfattningen är heltid. Tillträde 1 september 2026 eller enligt överenskommelse. Placeringsort: Uppsala Doktorander som anställs genom Marie Skłodowska-Curie-programmet erhåller lön i enlighet med programmets regler för doktorander under stipendieperioden (36 månader). Detta innebär att bruttolönen (det vill säga efter avdrag för arbetsgivaravgifter men inklusive inkomstskatt) uppgår till cirka 37 000 SEK per månad, beroende på växelkurs (exklusive eventuellt familjetillägg). Anställdas nationella och lokala skatter kommer att dras av från denna bruttolön innan nettolönen utbetalas till doktoranden. Vid projektets slut kan en ytterligare löneutbetalning ske om den genomsnittliga växelkursen under hela projektet är högre än den beräknade växelkursen. Under återstående tid av studierna kommer du att vara anställd på ett vanligt doktorandkontrakt, med lön enligt den överenskomna lönestegen för doktorander plus ett lönetillägg på 1800 kr/månad. Följ den här länken för att läsa mer om finansiering för doktorander och ett lokalt kollektivavtal för löner för doktorander. Upplysningar om anställningen lämnas av: Universitetslektor André Teixeira (telefon: +46 18-471 5414, email: andre.teixeira@it.uu.se) Välkommen med din ansökan senast den 17 augusti 2026, UFV-PA 2026/2342.
Do you want to join an international team of expertise to support industry in better understanding which defects in fibre-reinforced composite structures that can be accepted without compromising quality or safety? We have an open position for a doctoral candidate within LEGEND – a European doctoral network developing increased understanding of, and computational tools for studying the effects of defects in composite structures. About us The Doctoral student position is placed at the Division of Computational Mechanics and Materials Engineering, which belongs to the Department of Mechanical Engineering at Chalmers University of Technology. We foster an inclusive, friendly, and helpful work environment to which we welcome you to contribute. Our activities integrate computational mechanics and advanced materials technology, combining multidisciplinary expertise to predict, understand, and elevate the performance of engineering materials and structures. Within the project, you will also be connected to an international team of experts in the area of mechanics of composites through LEGEND – a Marie Sklodowska Curie Action doctoral network project. LEGEND, encompassing a collection of European research organisations and industries, will recruit 14 doctoral candidates, offering a lot of cross-over collaboration. For more information, please visit the LEGEND https://www.legend-msca-dn.com/. About the research project This project focuses on redefining how defects are assessed in composite aerospace structures - helping industry move beyond overly conservative repair or discard decisions. The Doctoral student will develop an advanced global–local modelling approach that captures how individual and interacting defects influence structural performance. By combining high-fidelity simulations with experimental testing of lab-scale components, our research will generate new data, validate predictive models, and establish improved defect acceptance criteria. The outcome will be a practical, industry-ready methodology that enables safer, more cost-efficient decisions when dealing with defects in composite components. The project will involve collaborations and secondments (in total 8 months during the first three years) at University of Kore (2 months) and Leonardo S.p.A. (6 months) in Italy. Who we are looking for The following requirements are mandatory: To qualify as a Doctoral student, you must have a Master's degree (masterexamen) of 120 credits or a Master’s degree (magisterexamen) of 60 credits* in Applied Mechanics, Structural Engineering, Computational Engineering, Engineering Mathematics, Engineering Physics or similar. Documented experience (education/courses or thesis project with high grades) in the finite element method and the mechanics of fibre-reinforced polymers. Interest and high skills in programming and numerical methods Strong written and verbal communication skills in English *for students with an education earned outside of Sweden, a 4-year Bachelor’s degree is accepted. We also expect that you are analytical, ambitious, independent, and a strong team player that thrives through collaboration. The following experience will strengthen your application: Documented knowledge (education/courses or thesis project) in computational homogenisation and/or computational micro/mesoscale modelling. What you will do Develop your scientific concepts and communicate the results of your research through written scientific publications and oral presentations at international conferences. Collaborate with fellow doctoral candidates within the LEGEND project, utilising synergies between projects. Actively participate in General Assembly meetings and doctoral training events within LEGEND, distributed across Europe. Take courses at an advanced level within the Graduate school of Solid and Structural Mechanics. Develop and implement a computational framework that links small-scale material defects to large-scale structural performance, enabling accurate prediction of how defects affect strength, stiffness, and fracture behaviour. Teach on Chalmers' undergraduate level corresponding to 10 percent of working hours. Contract terms The Doctoral student positions are fully funded from start. The position is a fixed-term appointment of four years, with the possibility to teach up to 10%, which extends the position up to four and a half years. Doctoral studies require physical presence throughout the entire study period. A valid residence permit must be presented by the study start date; otherwise the admission may be withdrawn. Applicants must not already be in possession of a doctoral degree. Researchers who have successfully defended their doctoral thesis but who have not yet formally been awarded the doctoral degree will not be considered eligible. Applicants must not not have resided, worked, or studied in Sweden for more than 12 months in the 3 years immediately prior to the date of recruitment. Compulsory national service, short stays such as holidays, and time spent as part of a procedure for obtaining refugee status under the Geneva Convention are not taken into account. To sign the contract, the chosen candidate must fulfil the http://ec.europa.eu/research/mariecurieactions. The MSCA DN programme offers a highly competitive and attractive salary and working conditions. The chosen candidate will receive a salary in accordance with the MSCA regulations. The MSCA DN grant offers a monthly Living Allowance (€5,012 per month, as adapted to Sweden), Mobility Allowance (€710 per month), and Family Allowance (€495 per month, if applicable). The salary is subject to taxation and social contributions. Chalmers guarantees the starting salary of the position is minimum 35,725 SEK. What we offer As a Doctoral student at Chalmers, you are an employee and enjoy all employee benefits. A dynamic and inspiring working environment in the coastal city of Gothenburg. Read more about Sweden’s generous parental leave, subsidized day care, free schools, healthcare etc at https://www.movetogothenburg.com/ Application procedure For information about the application procedure, please refer to the advert on Chalmers' website: https://www.chalmers.se/en/about-chalmers/work-with-us/vacancies/?rmpage=job&rmjob=15011&rmlang=UK We welcome your application no later than 31 August. For questions, please contact: Professor Martin Fagerström email: mailto:martin.fagerstrom@chalmers.se