The promotion of young talent focuses on young academics and supports the social and societal responsibility of the University of Liechtenstein. All doctoral students employed as staff members who have successfully completed the preliminary study and are not completing their doctorate within the within the funding period are eligible. Excellent candidates are supported by this grant in the implementation of their own research projects and in the development of an independent research profile.
The candidates selected for the FFF Young Talents Grant in 2025 are Livia Herle and Lukas Salcher. Here are their research projects:
Crooked Wood – Livia Herle
Around 41% of the Principality of Liechtenstein is covered by forest. Three quarters of this forest is defined as protection forest due to an average slope gradient of 40% or more. Nevertheless, it is one of the most important sources of raw materials. However, around 70% of the wood harvested annually in Liechtenstein is used directly for energy, which drastically shortens the carbon storage cycle of wood. In addition, forest structures are changing due to climate change. Forecasts for Liechtenstein's forests indicate that spruce will disappear in 2070, particularly at low altitudes, and will only be able to survive in the higher regions. In contrast, hardwood species will increase, leading to a mixed forest. Therefore, research will focus on the potential of poor quality hardwood. A general aim is to extend the life of a log before it is used as an energy source. An analysis of the local occurrence of hardwood species and their quality will serve as a tool to translate this knowledge into constructive solutions. In addition, a comparison of different construction systems that can work with short logs of solid hardwood and that offer opportunities for resource efficiency and deconstructability will serve as a starting point for further research into truss structure systems. This construction system has been used massively historically, but also offers potential for future uses as it provides opportunities for the remaining hardwoods. Thus, the various parts of the system involved are being investigated for their structural role and properties to find potential in the existing but unused hardwood. A cataloging of poor quality hardwood, such as crooked, too short, too thick or twisted, redefines the available material. The goal can be formulated as a representation of possibilities within the structural system of timber-frame construction and to show new potential through the use of hardwood.
Lost in Translation: How Predictability Turns Into Performance –Lukas Salcher
Modern portfolio theory provides for a two-stage asset allocation process. However, the accurate prediction of returns and their effective utilization remains a challenge. This difficulty stems from a tenuous link between predictive accuracy and economic value, a topic of debate among researchers. While some researchers question whether returns are predictable at all, others aim to improve forecasting methods, including by adopting techniques from the field of machine learning. Our study addresses the problem of how predictability can be systematically harnessed for better economic outcomes, exploring different investment strategies and assets. By linking the predictability of returns directly to portfolio performance, we challenge the established focus on statistical mass. Our results suggest that even low predictability, strategically applied, can bring significant performance benefits.