| P50 | author | Luís A. E. Batista de Carvalho | Q58655015 |
| | Stewart F. Parker | Q42321483 |
| | Maria Paula M Marques | Q44426971 |
| | David Gonçalves | Q47268168 |
| | Eugénia Cunha | Q47503519 |
| P2093 | author name string | A P Mamede | |
| | A R Vassalo | |
| | C Makhoul | |
| P2860 | cites work | Osteometrics in burned human skeletal remains by neutron and optical vibrational spectroscopy | Q61410236 |
| | Raman spectroscopy reveals differences in collagen secondary structure which relate to the levels of mineralisation in bones that have evolved for different functions | Q62545031 |
| | The carbonate environment in bone mineral: a resolution-enhanced Fourier Transform Infrared Spectroscopy Study | Q69230284 |
| | Two types of carbonate substitution in the apatite structure | Q72342584 |
| | Evidence of hydroxyl-ion deficiency in bone apatites: an inelastic neutron-scattering study | Q73835329 |
| | Crystal clear: Vibrational spectroscopy reveals intrabone, intraskeleton, and interskeleton variation in human bones. | Q50123617 |
| | Linking crystal structure with temperature-sensitive vibrational modes in calcium carbonate minerals. | Q50613224 |
| | Optimization of Sample Preparation processes of Bone Material for Raman Spectroscopy. | Q51732178 |
| | Potential of Bioapatite Hydroxyls for Research on Archeological Burned Bone | Q57043503 |
| | Fluorescence of bone | Q57229499 |
| | Multi analytical technique study of human bones from an archaeological discovery | Q57251574 |
| | A structural approach in the study of bones: fossil and burnt bones at nanosize scale | Q57578103 |
| | Fluorescence of Bone | Q59085446 |
| | Biomaterials from human bone – probing organic fraction removal by chemical and enzymatic methods | Q59695282 |
| | The G-force awakens: the influence of gravity in bone heat-induced warping and its implications for the estimation of the pre-burning condition of human remains | Q59695318 |
| | Mantid—Data analysis and visualization package for neutron scattering andμSR experiments | Q59906156 |
| | Burned bones tell their own stories: A review of methodological approaches to assess heat-induced diagenesis | Q61410232 |
| | Vibrational neutron spectroscopy of collagen and model polypeptides | Q30538348 |
| | Application of vibrational spectroscopy to the study of mineralized tissues (review). | Q34013583 |
| | Post-mortem interval estimation of human skeletal remains by micro-computed tomography, mid-infrared microscopic imaging and energy dispersive X-ray mapping | Q35249431 |
| | Assessing various Infrared (IR) microscopic imaging techniques for post-mortem interval evaluation of human skeletal remains. | Q36319995 |
| | The forensic evaluation of burned skeletal remains: a synthesis | Q37326041 |
| | In situ X-ray scattering evaluation of heat-induced ultrastructural changes in dental tissues and synthetic hydroxyapatite | Q37735349 |
| | Estimating temperature exposure of burnt bone - A methodological review. | Q38454409 |
| | Spatially offset Raman spectroscopy for photon migration studies in bones with different mineralization levels. | Q38647713 |
| | Comparative study on inorganic composition and crystallographic properties of cortical and cancellous bone | Q39783729 |
| | A new forensic collection housed at the University of Coimbra, Portugal: The 21st century identified skeletal collection | Q41755255 |
| | Mineral maturity and crystallinity index are distinct characteristics of bone mineral | Q42407199 |
| | Effect of the proportion of organic material in bone on thermal decomposition of bone mineral: an investigation of a variety of bones from different species using thermogravimetric analysis coupled to mass spectrometry, high-temperature X-ray diffra | Q45154097 |
| | Infrared spectra of carbonate apatites: v2-Region bands | Q46181415 |
| | Novel dating method to distinguish between forensic and archeological human skeletal remains by bone mineralization indexes | Q46289545 |
| | An investigation of model forensic bone in soil environments studied using infrared spectroscopy | Q46681495 |
| | The application of histomorphometry and Fourier Transform Infrared Spectroscopy to the analysis of early Anglo-Saxon burned bone | Q47088975 |
| | Rather yield than break: assessing the influence of human bone collagen content on heat-induced warping through vibrational spectroscopy. | Q47189411 |
| | Heat-induced dimensional changes in bone and their consequences for forensic anthropology | Q47245279 |
| | Recent advances in the study of burned bone and their implications for forensic anthropology. | Q47299141 |
| | The Effect of Soft Tissue on Temperature Estimation from Burnt Bone Using Fourier Transform Infrared Spectroscopy. | Q47387149 |
| | Estimation of the late postmortem interval using FTIR spectroscopy and chemometrics in human skeletal remains | Q47414049 |
| | Effects of burning on human bone microstructure: a preliminary study | Q47440765 |
| P275 | copyright license | Creative Commons Attribution 4.0 International | Q20007257 |
| P6216 | copyright status | copyrighted | Q50423863 |
| P433 | issue | 1 | |
| P407 | language of work or name | English | Q1860 |
| P304 | page(s) | 15935 | |
| P577 | publication date | 2018-10-29 | |
| P1433 | published in | Scientific Reports | Q2261792 |
| P1476 | title | Heat-induced Bone Diagenesis Probed by Vibrational Spectroscopy | |
| P478 | volume | 8 | |