Fraunhofer Institute for
Systems and Innovation Research ISI
Materials and raw materials have been important research areas at
Fraunhofer ISI for years. The motivation for the research is multifaceted and
includes the recurring turbulences in global raw materials markets, the
transition towards low-carbon energy together with the necessary technologies to
achieve it, and an increasing change in values towards more sustainability
while maintaining the competitiveness of the German/European economy.
Our activities are structured as follows:
around materials and raw materials are structured into six areas:
Raw materials encounter a complex network of actors and technical
possibilities in their journey from mining through all stages of transformation
into final products, use by society and finally disposal or recycling. We
develop dynamic material flow models to better understand physical stocks and
flows of materials on a global and/or national/regional level. In combination
with suitable scenarios (for example in the areas energy/climate and/or vehicle
fleets), these models also provide a comprehensible and transparent
quantification of the expected future demand for raw materials taking into
account increased resource efficiency, recycling and substitution. In addition,
models are developed in order to analyze and improve resource efficiency
strategies for enterprises.
Technological developments are often made possible by new materials. This results in a direct connection between innovation and the supply of raw materials. We conduct scientifically sound foresight processes and compile and propose scenarios and roadmaps depicting possible future developments as well as alternative visions of the future.
A reliable supply of raw materials is essential for a functioning
economy. We support industry and policy makers by characterizing supply risks, in
the early recognition of possible demand-driven bottlenecks, by identifying
critical raw materials as well as by developing and evaluating strategies to
increase the security of the supply of raw materials.
We investigate production technologies and develop industrial innovation
strategies as well as business models for enterprises and economic sectors
which rely heavily on certain materials and raw materials. Nanotechnology plays
an important role in many areas of the economy and society − for example electric
mobility or energy storage − as it generates important innovations, thereby
strengthening competitiveness. Shifts in supply and value chains as a
consequence of new (production) technologies are also an important research
We investigate the framework conditions for handling resources sustainably and efficiently as well as the relevant innovation processes and strategies. Our work follows the paradigm of the circular economy when assessing political instruments in the area of resource efficiency and contributing to their further development. Projects are also devoted to macroeconomic and ecological effects, recycling and the use of renewable raw materials as well as resource efficiency in enterprises.
reflection of the status quo as well as the effects of past and/or planned initiatives
relevant for materials and raw materials is essential for the efficient use
limited resources. We employ an extensive qualitative and quantitative pool of assessment
and evaluation methods, for example in order to assess the ecological impacts
and costs of new technologies, the technological performance of countries and
sectors as well as the effectiveness of research programs.
Dr.-Ing. Luis Tercero Espinoza is now member of the Operational Groups of the European Innovation Partnership (EIP) on Raw Materials.
More information about the Operational Groups of the European Innovation Partnership (EIP) on Raw Materials
© 2018 Fraunhofer ISI