Wiesbaden, Hesse, Germany
I’m a sustainability strategist with deep expertise across decarbonization and supplier engagement — spanning top‑tier strategy consulting at BCG, climate advisory at ClimatePartner, and now driving the corporate decarbonization strategy at Fresenius. With my scientific background, I combine data‑driven approaches with a pragmatic, action‑oriented mindset, translating ambition into real climate action.
I drive the development and implementation of the company’s global sustainability strategy, ensuring alignment with business goals, regulatory requirements, and stakeholder expectations. My work focuses on integrating ESG principles into core operations, developing a decarbonisation strategy, conducting a thorough risk assessment, and strengthening transparency in sustainability reporting. In my role I am coordinating the sustainability efforts within each segment and consolidating them on a group level.
As Team Lead for Consulting, I guide my team in helping clients meet CSRD E1 requirements, set Science-Based Targets, and create tailored decarbonization strategies. In addition to developing new solutions and foster team development, I’m responsible for revenue planning, resource management, and ensuring efficient project delivery.
I am supporting companies across industries set ambitious climate targets and reach their net-zero goals in alignment to the SBTi and the given CSRD framework.
Within the energy and biomanufacturing industry my focus was on the analysis of market developments, determining the strengths and weaknesses as well as the relative position of customers in the competitive environment. I contributed to translating this into the development of short, medium and long-term measures to strengthen the growth potential of our customers.
Student representative of the track "fundamental neuroscience" in the cognitive neuroscience research master.
I am tutoring bachelor students of the Maastricht Science Programme.
As part of my master thesis, I joined the group of Jürgen Knoblich to investigate the gene regulatory principles underlying human brain development using iPSC-derived neurons and organoids.