The Max Planck Institute of Colloids and Interfaces (

German German(s) may refer to: * Germany (of or related to) **Germania (historical use) * Germans, citizens of Germany, people of German ancestry, or native speakers of the German language ** For citizens of Germany, see also German nationality law **Ger ...

: ''Max-Planck-Institut für Kolloid- und Grenzflächenforschung'') is located in Potsdam-Golm Science Park in Golm,

Potsdam Potsdam () is the capital and, with around 183,000 inhabitants, largest city of the German state of Brandenburg. It is part of the Berlin/Brandenburg Metropolitan Region. Potsdam sits on the River Havel, a tributary of the Elbe, downstream of B ...

Germany Germany,, officially the Federal Republic of Germany, is a country in Central Europe. It is the second most populous country in Europe after Russia, and the most populous member state of the European Union. Germany is situated betwe ...

. It was founded in 1990 as a successor of the Institute for Physical Chemistry and for Organic Chemistry, both in

Berlin Berlin ( , ) is the capital and largest city of Germany by both area and population. Its 3.7 million inhabitants make it the European Union's most populous city, according to population within city limits. One of Germany's sixteen constitue ...

- Adlershof, and for Polymer Chemistry in

Teltow Teltow [] is a town in the Potsdam-Mittelmark district, in Brandenburg, Germany. Geography Teltow is part of the agglomeration of Berlin. The distance to the Berlin city centre is , while the distance to Potsdam is . The Teltow Canal links the ...

. In 1999, it transferred to newly constructed extension facilities in Golm. It is one of 80 institutes in the

Max Planck Society The Max Planck Society for the Advancement of Science (german: Max-Planck-Gesellschaft zur Förderung der Wissenschaften e. V.; abbreviated MPG) is a formally independent non-governmental and non-profit association of German research institutes. ...

(''Max-Planck-Gesellschaft'').

Research

Being part of the Max Planck Society, the institute examines

nano- Nano (symbol n) is a unit prefix meaning "one billionth". Used primarily with the metric system, this prefix denotes a factor of 10−9 or . It is frequently encountered in science and electronics for prefixing Unit of measurement, units of tim ...

and microstructures specifically colloids in which many are found in nature. With discoveries, scientists create tiny apatite crystals in bones,

vesicle Vesicle may refer to: ; In cellular biology or chemistry * Vesicle (biology and chemistry), a supramolecular assembly of lipid molecules, like a cell membrane * Synaptic vesicle ; In human embryology * Vesicle (embryology), bulge-like features o ...

s formed out of membranes, pores in membranes for

fuel cells A fuel cell is an electrochemical cell that converts the chemical energy of a fuel (often hydrogen fuel, hydrogen) and an oxidizing agent (often oxygen) into electricity through a pair of redox reactions. Fuel cells are different from most bat ...

and

microcapsules Microencapsulation is a process in which tiny Particle, particles or Drop (liquid), droplets are surrounded by a coating to give small capsules, with useful properties. In general, it is used to incorporate Ingredient, food ingredients, Enzyme, enz ...

as vehicles for

medical drugs A medication (also called medicament, medicine, pharmaceutical drug, medicinal drug or simply drug) is a drug used to diagnose, cure, treat, or prevent disease. Drug therapy (pharmacotherapy) is an important part of the medical field and ...

- all are larger than an

atom Every atom is composed of a nucleus and one or more electrons bound to the nucleus. The nucleus is made of one or more protons and a number of neutrons. Only the most common variety of hydrogen has no neutrons. Every solid, liquid, gas, and ...

, yet too small to be seen with the

naked eye Naked eye, also called bare eye or unaided eye, is the practice of engaging in visual perception unaided by a magnifying, light-collecting optical instrument, such as a telescope or microscope, or eye protection. Vision corrected to normal ...

. The scientists at the Potsdam-based Institute endeavor to understand how they are composed and how they work in order to imitate behavior in new materials or in

vaccines A vaccine is a biological preparation that provides active acquired immunity The adaptive immune system, also known as the acquired immune system, is a subsystem of the immune system that is composed of specialized, systemic cells and pro ...

, for example. Understanding the function of these structures can also help to identify the causes of certain diseases that occur when the folding of membranes or the transport of materials in cells fails to work properly.

Departments

Colloid Chemistry

The Colloid Chemistry department, headed by Markus Antonietti, deals with the synthesis of various colloidal structures in the nanometer range. This includes inorganic and metallic nanoparticles, polymers and peptide structural units, their micelles and organised phases, as well as emulsions and foams. Colloid chemistry is able to create materials with a structural hierarchy through appropriate functionalized colloids. This creates new characteristics through the "teamwork" of the functional groups. With appropriate architecture, these colloids can fulfill very specialized tasks. Single molecular systems cannot do this, due to their lack of complexity. An example for this is skin: There is no synthetic material which is as soft and simultaneously so tear-resistant and yet is made mainly of water. The secret of this also lies in the interaction between three components (collagen, hyaluronic acid, proteoglycan). This unusual combination of characteristics is only made possible by forming a superstructure "in a team".

Biomaterials

The Department of Biomaterials, headed by Peter Fratzl, focuses on interdisciplinary research in the field of biological and biomimetic materials. The emphasis is on understanding how the mechanical or other physical properties are governed by structure and composition and how they adopt to environmental conditions. Furthermore, research on natural materials (such as bone or wood) has potential applications in many fields. First, design concepts for new materials may be improved by learning from Nature. Second, the understanding of basic mechanisms by which the structure of bone or connective tissue is optimized opens the way for studying diseases and, thus, for contributing to diagnosis and development of treatment strategies. A third option is to use structures grown by Nature and transform them by physical or chemical treatment into technically relevant materials (biotemplating). Given the complexity of natural materials, new approaches for structural characterization are needed. Some of these are further developed in the Department, in particular for studying hierarchical structures.

Theory and Bio-Systems

The Department of Theory and Bio-Systems, headed by Reinhard Lipowsky, investigates the structure and dynamics of molecules, colloids and nanoparticles in biological and biomimetic systems. The molecular building blocks of these systems assemble "by themselves" and form a variety of supramolecular nanostructures, which then interact to produce even larger structures and networks. These complex processes represent hidden dimensions of selforganization since they are difficult to observe on the relevant length and time scales. Current research focuses on molecular recognition, energy conversion and transport by molecular motors, dynamics of transcription and translation, as well as self-organization of filaments and membranes.

Interfaces

The Department of Interfaces, headed by Helmuth Möhwald, is primarily motivated to understand molecular interfaces and to relate this to colloidal systems which are by nature determined by the large surface/volume ratio. Consequently, the strength of the department in characterizing planar or quasi-planar interfaces has been increased and in addition it has been tried successfully to transfer this knowledge to curved interfaces. From this we have again learned about planar interfaces since surfaces could be studied by techniques requiring large surface area (NMR, DSC).

Biomolecular Systems

The researchers in the Biomolecular Systems department, headed by Peter H. Seeberger, are using new methods for synthesizing sugar chains. Until recently most of the known naturally occurring sugars were those that supply energy to organisms such as

sucrose Sucrose, a disaccharide, is a sugar composed of glucose and fructose subunits. It is produced naturally in plants and is the main constituent of white sugar. It has the molecular formula . For human consumption, sucrose is extracted and refined ...

(household sugar) and

starch Starch or amylum is a polymeric carbohydrate consisting of numerous glucose units joined by glycosidic bonds. This polysaccharide is produced by most green plants for energy storage. Worldwide, it is the most common carbohydrate in human diets ...

(in plants). However, the complex sugar molecules, which belong to the carbohydrate, are also involved in many biological processes. They cover all cells in the human body and play a crucial part in molecular identification of cell surfaces for example in infections, immune reactions and cancer metastases. Complex sugars are omnipresent as cell coatings in nature and can therefore also be used for vaccine development, e.g. against malaria. Carbohydrates are thus of significant interest for medicine; the major significance of sugar residues on the surfaces of cells for biology and medicine has only been recognized during the past approximately 20 years. Until recently a chemical synthesis method to create biologically relevant carbohydrates with a known structure in large quantities and for biological, pharmaceutical and medical research was lacking. Now, these gaps can be closed with the development of the first automated synthesis apparatus that can link sugar molecules with other sugars or also molecules.

Organization

The Golm-based institute has a total of 358 employees, including 91 scientists and 99 junior scientists and researchers, 6 apprentices, 138 employees paid with third-party funds and 24 guest researchers. The Institute of Colloids and Interfaces is currently headed by the following people: Scientific Members, Directors * Prof. Dr. Markus Antonietti * Prof. Dr. Peter Fratzl * Prof. Dr. Reinhard Lipowsky * Prof. Dr. Peter H. Seeberger Director Emeritus * Prof. Dr. Helmuth Möhwald Administration Manager * Andreas Stockhaus Board of Trustees * Ulrich Buller - Senior Vice President Research Planning, Fraunhofer Gesellschaft * Rolf Emmermann - Vice-chairman of the Board of Trustees, GeoForschungsZentrum Potsdam (GFZ) * Detlev Ganten - Chairman of the Board of Trustees, Chairman of the Board of the Charité - Universitätsmedizin Berlin * Norbert Glante - Member of the European Parliament * Jann Jakobs - Mayor of the City of Potsdam * Wilhelm Krull - Secretary General of the Volkswagen Stiftung * Sabine Kunst - Minister of Science, Research and Culture, Brandenburg * Wolfgang Plischke - Member of the Bayer AG board * Robert Seckler - University of Potsdam

International Max Planck School on Multiscale Bio-Systems

The International Max Planck School (IMPRS) on Multiscale Bio-Systems is a graduate program in association with the University of Potsdam,

Free University A free university is an organization offering uncredited, public classes without restrictions to who can teach or learn. They differ in structure. In 1980 in the United States, about half were associated with a traditional university, about a ...

, Humboldt University in

and the Fraunhofer Institute for Biomedical Engineering IBMT in

St. Ingbert St. Ingbert (also ''Sankt Ingbert''; pfl, Dingmert or ''Dimbert'') is a town in the Saarpfalz district in Saarland, Germany with a population of 35,213 (2020). It is situated approximately 10 km north-east of Saarbrücken and 10 km so ...

. In this program, young talented doctoral students can work on a challenging research project and develop their scientific communication and management skills.

Scientific scope

The IMPRS on Multiscale Bio-Systems addresses the fundamental levels of biosystems as provided by macromolecules in aqueous solutions, molecular recognition between these building blocks, free

energy transduction In physics, energy (from Ancient Greek: ἐνέργεια, ''enérgeia'', “activity”) is the quantitative property that is transferred to a body or to a physical system, recognizable in the performance of work and in the form of heat an ...

molecular machine A molecular machine, nanite, or nanomachine is a molecular component that produces quasi-mechanical movements (output) in response to specific stimuli (input). In cellular biology, macromolecular machines frequently perform tasks essential for l ...

s as well as structure formation and transport in cells and tissues. The research activities are focused on four core areas: * Molecular recognition of carbohydrates * Interaction of biomolecules with light * Directed intracellular processes * Directed shape changes of tissues

References

External links

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{{Authority control Colloids and Interfaces Chemical research institutes Educational institutions established in 1990 1990 establishments in Germany