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Orlando Rojas is the 2018 Anselme Payen Award recipient for his contributions in the field of cellulose and renewable materials. He is elected Fellow of the American Chemical Society and Foreign Member of the Finnish Academy of Science and Letters.
Nanomaterials, colloids and surfaces form the basis of his multidisciplinary approach to understanding the fundamental principles involved in design, manufacture and performance of biobased systems. His BiCMat group strives to learn the science and engineering of processes involving biopolymers from plants and animals and the development of advanced materials from renewable resources. The combination of expertise in his group enables control and design of self-assembly and structural hierarchies in multicomponent hybrid materials, upward from the molecular and colloidal levels. Multiphase systems are at the core of his research.
He was awarded an ERC Advanced Grant (EU Research Commission) and co-PI of the Academy of Finland's Center of Excellence in Molecular Engineering of Biosynthetic Hybrid Materials Research, HYBER (2014-2019). HYBER combines groups working on molecular self-assembly, genetic engineering of proteins, biotechnical production of engineered biomolecules, and plant cell wall materials.
Nanomaterials, colloids and surfaces form the basis of his multidisciplinary approach to understanding the fundamental principles involved in design, manufacture and performance of biobased systems. His BiCMat group strives to learn the science and engineering of processes involving biopolymers from plants and animals and the development of advanced materials from renewable resources. The combination of expertise in his group enables control and design of self-assembly and structural hierarchies in multicomponent hybrid materials, upward from the molecular and colloidal levels. Multiphase systems are at the core of his research.
He was awarded an ERC Advanced Grant (EU Research Commission) and co-PI of the Academy of Finland's Center of Excellence in Molecular Engineering of Biosynthetic Hybrid Materials Research, HYBER (2014-2019). HYBER combines groups working on molecular self-assembly, genetic engineering of proteins, biotechnical production of engineered biomolecules, and plant cell wall materials.
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ADVANCES IN COLLOID AND INTERFACE SCIENCE (2024): 103095-103095
Current Opinion in Colloid & Interface Sciencepp.101822, (2024)
ACS nanono. 23 (2024): 14954-14967
ACS applied materials & interfacesno. 17 (2024): 22532-22546
International Journal of Biological Macromoleculesno. Pt 2 (2024): 133504-133504
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