2023 - Research.com Materials Science in Italy Leader Award
Norberto Roveri applies the principles of Swelling, Scanning electron microscope, Modulus and Deformation (meteorology) in his work under Composite material. Norberto Roveri regularly links together related areas like Composite material in his Scanning electron microscope studies. In the field of Anatomy he connects related research areas like Collagen fiber and Cortical bone. His Collagen fiber study frequently intersects with other fields, such as Anatomy. He incorporates Organic chemistry and Polymer chemistry in his research. He performs multidisciplinary study on Polymer chemistry and Organic chemistry in his works. His studies link Amorphous solid with Crystallography. While working on this project, Norberto Roveri studies both Amorphous solid and Metal. Norberto Roveri performs multidisciplinary study in Metal and Magnesium in his work.
His Organic chemistry study spans across into areas like Inorganic chemistry and Biochemistry. Norberto Roveri undertakes multidisciplinary investigations into Biochemistry and Organic chemistry in his work. His work on Optics is being expanded to include thematically relevant topics such as X-ray crystallography. Norberto Roveri integrates many fields, such as X-ray crystallography and Diffraction, in his works. He merges Diffraction with Optics in his research. His Composite material study frequently links to other fields, such as Scanning electron microscope. His Scanning electron microscope study frequently draws connections between adjacent fields such as Composite material. With his scientific publications, his incorporates both Crystallography and Crystal structure. He conducts interdisciplinary study in the fields of Crystal structure and Crystallography through his works.
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Mechanical and thermal properties of gelatin films at different degrees of glutaraldehyde crosslinking.
A Bigi;G Cojazzi;S Panzavolta;K Rubini.
Stabilization of gelatin films by crosslinking with genipin.
A. Bigi;G. Cojazzi;S. Panzavolta;N. Roveri.
Biomimetic Hydroxyapatite–Drug Nanocrystals as Potential Bone Substitutes with Antitumor Drug Delivery Properties†
Barbara Palazzo;Michele Iafisco;Mariarita Laforgia;Nicola Margiotta.
Advanced Functional Materials (2007)
Magnesium influence on hydroxyapatite crystallization
A. Bigi;G. Falini;E. Foresti;A. Ripamonti.
Journal of Inorganic Biochemistry (1993)
CHEMICAL AND STRUCTURAL CHARACTERIZATION OF THE MINERAL PHASE FROM CORTICAL AND TRABECULAR BONE
A. Bigi;G. Cojazzi;S. Panzavolta;A. Ripamonti.
Journal of Inorganic Biochemistry (1997)
Biologically inspired synthesis of bone-like composite: Self-assembled collagen fibers/hydroxyapatite nanocrystals
Anna Tampieri;Giancarlo Celotti;Elena Landi;Monica Sandri.
Journal of Biomedical Materials Research Part A (2003)
The role of magnesium on the structure of biological apatites.
A. Bigi;E. Foresti;R. Gregorini;A. Ripamonti.
Calcified Tissue International (1992)
Nanocrystals of magnesium and fluoride substituted hydroxyapatite
Enrico Bertoni;Adriana Bigi;Gianna Cojazzi;Massimo Gandolfi.
Journal of Inorganic Biochemistry (1998)
Inhibiting effect of zinc on hydroxylapatite crystallization
A. Bigi;E. Foresti;M. Gandolfi;M. Gazzano.
Journal of Inorganic Biochemistry (1995)
Surface enamel remineralization: biomimetic apatite nanocrystals and fluoride ions different effects
Norberto Roveri;Elisa Battistella;Claudia Letizia Bianchi;Ismaela Foltran.
Journal of Nanomaterials (2009)
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