ArvidsonR. S.ErtanI. E.AmonetteJ., and LüttgeA. (2003, in press). “Variation in calcite dissolution rates: A fundamental problem?”Geochimica Cosmochimica Acta 67.
2.
ArvidsonR. S.BeigM. S., and LüttgeA. (2003, in revision). “A New Method for Comparison of Single Crystal and Powder Dissolution Rates by Vertical Scanning Interferometry,”American Mineralogist.
3.
IcenhowerJ. P.LüttgeA.McGrailB. P.BeigM. S.ArvidsonR. S.RodriguezE. A.SteeleJ. L., and BaumS. R. (2002, submitted). “Results of Vertical Scanning Interferometry (VSI) of dissolved borosilicate glass: Evidence for variable surface features and global surface retreat,”Proceedings of Materials Research Society in: Scientific Basis for Nuclear Waste ManagementXXVI.
4.
LasagaA. C. and LüttgeA. (2001). “Variation of crystal dissolution rate based on a dissolution stepwave model,”Science, 291, pp. 2400–2404.
5.
LasagaA. C. and LüttgeA. (2003a, accepted). “A model for crystal dissolution,”European Journal of Mineralogy.
6.
LasagaA. C. and LüttgeA. (2003b, in revision). “Mineralogical approaches to fundamental crystal dissolution kinetics I,”American Mineralogist.
7.
LasagaA. C. and LüttgeA. (2002c, in revision). “Mineralogical approaches to fundamental crystal dissolution kinetics II,”American Mineralogist.
8.
LüttgeA.ConradP. G. (2003, submitted). “Bacterial control of calcite dissolution kinetics,”Nature.
9.
LüttgeA.WinklerU., and LasagaA. C. (2003, in press). “An interferometric study of the dissolution kinetics of rhombohedral faces in dolomite,”Geochimica Cosmochimica Acta67.
10.
LüttgeA.BoltonE. W., and LasagaA. C. (1999). “An interferometric study of the dissolution kinetics of anorthite: The role of reactive surface area,” in: CanfieldD.BoudreauB. (eds.). “Biogeochemical cycles and their evolution over geologic time.” A special triple issue as a tribute to the career of Robert A. Berner. American Journal of Science, 299, pp. 652–678.
11.
TsukamotoK.van EnckefortW. J. P., and LüttgeA. (2003, in revision). “Heat and mass transport at solid-fluid interfaces, and step kinetics,” in: From Solid-fluid Interfaces to Nanostructural Engineering, Series on nanoscience and technologies (Plenum/Kluwer Academic Publisher).
