Ultrastructural examination of dentin using focused ion-beam cross-sectioning and transmission electron microscopy.
暂无分享,去创建一个
R O Ritchie | A M Minor | R. Ritchie | R. Nalla | A. Tomsia | V. Radmilović | A. Minor | E. Stach | C. Daraio | A. Porter | E A Stach | A P Tomsia | R K Nalla | A E Porter | C Daraio | V Radmilovic | R. O. Ritchie | A. E. Porter | Chiara Daraio | A. M. Minor | Velimir Radmilovic | E. A. Stach | Robert O. Ritchie
[1] R. B. Irwin,et al. Transmission electron microscope specimen preparation of Zn powders using the focused ion beam lift-out technique , 1998 .
[2] R M FRANK,et al. Electron microscopy of undecalcified sections of human adult dentine. , 1959, Archives of oral biology.
[3] Andrés J. García. Get a grip: integrins in cell-biomaterial interactions. , 2005, Biomaterials.
[4] A. Heuer,et al. Fracture Properties of Human Enamel and Dentin , 1976, Journal of dental research.
[5] Y. Shimada,et al. Interfacial structure between dentin and seven dentin bonding systems revealed using argon ion beam etching. , 1993, Operative dentistry.
[6] I. Monnet,et al. An improved Gallium liquid metal ion source geometry for nanotechnology , 2004 .
[7] R O Ritchie,et al. Age-related transparent root dentin: mineral concentration, crystallite size, and mechanical properties. , 2005, Biomaterials.
[8] G W Marshall,et al. The dentin substrate: structure and properties related to bonding. , 1997, Journal of dentistry.
[9] P Zioupos,et al. Mechanical properties and the hierarchical structure of bone. , 1998, Medical engineering & physics.
[10] R. Ritchie,et al. On the fracture of human dentin: is it stress- or strain-controlled? , 2003, Journal of biomedical materials research. Part A.
[11] R. Hackenberg,et al. A comparison of EDS microanalysis in FIB-prepared and electropolished TEM thin foils. , 2003, Ultramicroscopy.
[12] J. Cairney,et al. Redeposition effects in transmission electron microscope specimens of FeAl-WC composites prepared using a focused ion beam. , 2003, Micron.
[13] D. Scott. THE ELECTRON MICROSCOPY OF ENAMEL AND DENTIN , 1955, Annals of the New York Academy of Sciences.
[14] R. Ritchie,et al. A transmission electron microscopy study of mineralization in age-induced transparent dentin. , 2005, Biomaterials.
[15] R. Ritchie,et al. Mechanistic fracture criteria for the failure of human cortical bone , 2003, Nature materials.
[16] A. Evans. Perspective on the Development of High‐Toughness Ceramics , 1990 .
[17] B. Van Meerbeek,et al. Demonstration of a focused ion-beam cross-sectioning technique for ultrastructural examination of resin-dentin interfaces. , 1995, Dental materials : official publication of the Academy of Dental Materials.
[18] R. Ritchie. Mechanisms of fatigue-crack propagation in ductile and brittle solids , 1999 .
[19] C. Bulle-lieuwma,et al. Novel scheme for the preparation of transmission electron microscopy specimens with a focused ion beam , 1993 .
[20] B. Baker,et al. Fibxtem— Focussed Ion Beam Milling for TEM Sample Preparation , 1991 .
[21] P. Stuart,et al. Demonstration of an Internal Structure within the Red Blood Cell by Ion Etching and Scanning Electron Microscopy , 1968, Nature.
[22] K. Sasaki,et al. Surface damage induced by focused-ion-beam milling in a Si/Si p–n junction cross-sectional specimen , 2005 .
[23] P. Munroe,et al. The development of aligned precipitates during internal carbonitridation of Fe–Ni–Cr alloys , 2000 .
[24] M. M. Cremasco. Dental histology: study of aging processes in root dentine. , 1998 .
[25] R O Ritchie,et al. Crack blunting, crack bridging and resistance-curve fracture mechanics in dentin: effect of hydration. , 2003, Biomaterials.
[26] Alfred Wagner,et al. High Resolution Focused Ion Beams: FIB and Its Applications , 2003 .
[27] Steve Weiner,et al. THE MATERIAL BONE: Structure-Mechanical Function Relations , 1998 .
[28] R O Ritchie,et al. Mechanistic aspects of fracture and R-curve behavior in human cortical bone. , 2005, Biomaterials.
[29] F. Tay,et al. An ultrastructural study of the application of dentine adhesives to acid-conditioned sclerotic dentine. , 2000, Journal of dentistry.
[30] R O Ritchie,et al. On the origin of the toughness of mineralized tissue: microcracking or crack bridging? , 2004, Bone.
[31] N. Baba,et al. Application of ion-beam etching techniques to the fine structure of biological specimens as examined with a field emission SEM at low voltage. , 1989, Journal of electron microscopy technique.
[32] Bill Kahler,et al. Fracture-toughening mechanisms responsible for differences in work to fracture of hydrated and dehydrated dentine. , 2003, Journal of biomechanics.
[33] P. Fratzl,et al. Fibrillar structure and mechanical properties of collagen. , 1998, Journal of structural biology.
[34] B. Levers,et al. The amount and distribution of sclerotic human root dentine. , 1983, Archives of oral biology.
[35] M. Hashimoto,et al. Deproteinizing effects on resin-tooth bond structures. , 2004, Journal of biomedical materials research. Part B, Applied biomaterials.
[36] H. Fernández-morán. A diamond knife for ultrathin sectioning. , 1953, Experimental cell research.
[37] T. Kamino,et al. Observation of human dentine by focused ion beam and energy‐filtering transmission electron microscopy , 2001, Journal of microscopy.
[38] K. F. Russell,et al. Strategies for fabricating atom probe specimens with a dual beam FIB. , 2005, Ultramicroscopy.
[39] R. Frank. Ultrastructure of human dentine 40 years ago--progress and perspectives. , 1999, Archives of oral biology.
[40] Hidehiko Sano,et al. In vitro degradation of resin-dentin bonds analyzed by microtensile bond test, scanning and transmission electron microscopy. , 2003, Biomaterials.
[41] F. R. Shroff,et al. Electron microscope studies of dentine; the true nature of the dentinal canals. , 1954, Oral surgery, oral medicine, and oral pathology.
[42] P. Lambrechts,et al. Morphological Aspects of the Resin-Dentin Interdiffusion Zone with Different Dentin Adhesive Systems , 1992, Journal of dental research.
[43] R O Ritchie,et al. Effect of orientation on the in vitro fracture toughness of dentin: the role of toughening mechanisms. , 2003, Biomaterials.
[44] K. Sasaki,et al. Cross-sectional TEM observation of multilayer structure of a galvannealed steel , 1998 .
[45] A. Linde. Dentin and dentinogenesis , 1984 .
[46] J. Cairney,et al. Preparation of transmission electron microscope specimens from FeAl and WC powders using focused-ion beam milling , 2001 .
[47] R. Ritchie. Mechanisms of fatigue crack propagation in metals, ceramics and composites: Role of crack tip shielding☆ , 1988 .
[48] Robert Puers,et al. A review of focused ion beam applications in microsystem technology , 2001 .
[49] W. Holt. Structure and composition of Ivory of the African elephant Loxodonta africana. , 1997 .
[50] G. Willems,et al. Dual-cure luting composites: Part I: Filler particle distribution. , 1993, Journal of oral rehabilitation.
[51] Charles H. Gerould. Ultramicrostructures of the Human Tooth as Revealed by the Electron Microscope , 1944 .