Peter Hoppe

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Hahn-Meitner-Weg 1, B.0.15
55128 Mainz
Telefon: +49(6131)305-5300

Peer-Reviewed Publications Peter Hoppe

1) Tang M., Anders E., Hoppe P., and Zinner E. (1989) Meteoritic SiC and its stellar sources: implications for galactic chemical evolution. Nature 339, 351-354.

2) Amari S., Hoppe P., Zinner E., and Lewis R. S. (1992) Interstellar SiC with unusual isotopic compositions: grains from a supernova? Astrophys. J. 394, L43-L46.

3) Hoppe P., Geiss J., Bühler F., Neuenschwander J., Amari S., and Lewis R. S. (1993) Fingerprints of carbon, nitrogen and silicon isotopes in small interstellar SiC grains from the Murchison meteorite. Geochim. Cosmochim. Acta 57, 4059-4068.

4) Amari S., Hoppe P., Zinner E., and Lewis R. S. (1993) Interstellar graphite grains in meteorites: Their isotopic compositions and stellar sources. Nature 365, 806-809.

5) Hoppe P., Amari S., Zinner E., Ireland T., and Lewis R. S. (1994) Carbon, nitrogen, magnesium, silicon, and titanium isotopic compositions of single interstellar silicon carbide grains from the the Murchison carbonaceous chondrite. Astrophys. J. 430, 870-890.

6) Hoppe P., Amari S., Zinner E., and Lewis R. S. (1995) Isotopic compositions of C, N, O, Mg and Si, trace element abundances, and morphologies of single interstellar graphite grains in four density fractions from the Murchison meteorite. Geochim. Cosmochim. Acta 59, 4029-4056.

7) Nittler L. R., Hoppe P., Alexander C. M. O’D., Amari S., Eberhardt P., Gao X., Lewis R. S., Strebel R., Walker R. M., and Zinner E. (1995) Silicon Nitride from Supernovae. Astrophys. J. 453, L25-L28.

8) Amari S., Hoppe P., Zinner E., and Lewis R. S. (1995) Trace-element concentrations in single circumstellar silicon carbide grains from the Murchison meteorite. Meteoritics 30, 679-693.

9) Hoppe P., Strebel R., Eberhardt P., Amari S., and Lewis R. S. (1996) Small SiC grains and a nitride grain of circumstellar origin from the Murchison meteorite: Implications for stellar evolution and nucleosynthesis. Geochim. Cosmochim. Acta 60, 883-907.

10) Hoppe P., Strebel R., Eberhardt P., Amari S., and Lewis R. S. (1996) Type II supernova matter in a silicon carbide grain from the Murchison meteorite. Science 272, 1314-1316.

11) Greshake A., Hoppe P., and Bischoff A. (1996) Mineralogy, chemistry, and oxygen isotopes of refractory inclusions from stratospheric interplanetary dust particles and micrometeorites. Meteoritics Planet. Sci 31, 739-748.

12) Hoppe P. and Ott U. (1997) Mainstream silicon carbide grains from meteorites. In Astrophysical implications of the laboratory study of presolar materials (eds. T. J. Bernatowicz and E. Zinner), pp. 27-58.  AIP Conference Proceedings 402.

13) Hoppe P., Annen P., Strebel R., Eberhardt P., Gallino R., Lugaro M., Amari S., and Lewis R. S. (1997) Meteoritic silicon carbide grains with unusual Si-isotopic compositions: Evidence for an origin in low-mass, low-metallicity asymptotic giant branch stars. Astrophys. J. 487, L101-L104.

14) Mostefaoui S., Hoppe P., and El Goresy A. (1998) In situ discovery of graphite with interstellar isotopic signatures in a chondrule-free clast in a L3 chondrite. Science 280, 1418-1420.

15) Frisch P. C., Dorschner J. M., Geiss J., Greenberg J. M., Grün E., Landgraf M., Hoppe P., Jones A. P., Krätschmer W., Linde T., Morfill G. E., Reach W., Slavin J. D., Svetska J., Witt A., and Zank G. P. (1999) Dust in the Local Interstellar Wind. Astrophys. J. 525, 492-516.

16) Hoppe P. (1999) Presolar silicon carbide grains in meteorites. In Astronomy with Radioactivities (eds. R. Diehl and D. Hartmann). MPE Report No. 274, pp. 21-24.

17) Jochum K. P., Dingwell D. B., Hofmann A. W., Stoll B., Raczek I., Rocholl A., Becker S., Besmehn A., Bessette D., Dietze H.-J., Dulski P., Erzinger J., Hellebrand E., Hoppe P., Horn I., Janssens K., Jenner G., Klein M., McDonough W. M., Maetz M., Nikogosian I. K., Pickhardt C., Seufert H. M., Simakin S. G., Sobolev A. V., Spettel B., Straub S., Vincze L., Wallianos A., Weckwerth G., Wolf D. and Zimmer M. (2000) New geological standard reference glasses for in-situ microanalysis. Geostandard Newsletter 24, 87-133.

18) Hoppe P. and Zinner E. (2000) Presolar dust grains from meteorites and their stellar sources. J. Geophysical Res.105, 10371-10385.

19) Hoppe P., Strebel R., Eberhardt P., Amari S., and Lewis R. S. (2000) Isotopic properties of silicon carbide X grains from the Murchison meteorite in the size range 0.5-1.5 m. Meteoritics Planet. Sci. 35, 1157-1176.

20) Hoppe P., Lodders K., Strebel R., Amari S., and Lewis R. S. (2001) Boron in presolar silicon carbide grains from supernovae. Astrophys. J. 551, 478-485.

21) Hoppe P. (2001) Stardust in meteorites and its relevance to nuclear astrophysics. Nuclear Physics A 688, 94c-101c.

22) Hoppe P., Goswami J. N., Krähenbühl U., and Marti K. (2001) Boron in chondrules. Meteoritics Planet. Sci. 36, 1331-1343.

23) Poller U., Huth J., Hoppe P., and Williams I. S. (2001) REE, U, Th, and Hf distribution in zircon from Western Carpathian Variscan granitoids: A combined cathodoluminescence and ion microprobe study. American Journal of Science 301, 858-876.

24) Hoppe P. (2001) Elemental and isotopic abundances in meteorites. In Solar and Galactic Composition (ed. R. F. Wimmer-Schweingruber), AIP Conference Proceedings 598, 31-40.

25) Busemann H., Binns W.R., Chiappini C., Gloeckler G., Hoppe P., Kirilova D., Leske L.A., Manuel O.K., Mewaldt R.A., Möbius E., Wieler R., Wiens R.C., Wimmer-Schweingruber R.F., and Yanasak N.E. (2001) Applications of abundance data and requirements for cosmochemical modeling. In Solar and Galactic Composition (ed. R. F. Wimmer-Schweingruber), AIP Conference Proceedings 598, 357-379.

26) Varela M. E., Kurat G., Hoppe P., and Brandstätter F. (2002) Chemistry of glass inclusions in olivines of the CR chondrites Renazzo, Acfer 182 and El Djouf 001. Geochim. Cosmochim. Acta 66, 1663-1679.

27) Hoppe P. (2002) NanoSIMS perspectives for nuclear astrophysics. In The International workshop: Astronomy with Radioactivities III (eds. R. Diehl, N. Prantzos, D. Hartmann, and P. Hoppe), New Astronomy Reviews 46, 589-595.

28) Mostefaoui S., El Goresy A., Hoppe P., Gillet P., and Ott U. (2002) Mode of occurrence, textural settings and nitrogen-isotopic compositions of in-situ diamonds and other carbon phases in the Bencubbin meteorite. Earth Planet. Sci. Lett. 204, 89-100.

29) Hoppe P. and Besmehn A. (2002) Evidence for extinct vanadium-49 in presolar silicon carbide grains from supernovae. Astrophys. J. 576, L69-L72.

30) Hellebrand E., Snow J. E., Hoppe P., and Hofmann A. W. (2002) Garnet-field melting and late-stage refertilization in ‚residual’ Abyssal peridotites from the Central Indian Ridge. J. of Petrology 43, 2305-2338.

31) Besmehn A. and Hoppe P. (2003) A NanoSIMS study of Si- and Ca-Ti-isotopic compositions of presolar silicon carbide grains from supernovae. Geochim. Cosmochim. Acta 67, 4693-4703.

32) Hammer C.U., Kurat P., Hoppe P., Grum W., and Clausen H.B. (2003) Thera eruption data 1645 BC confirmed by new ice core data. SCIEM 2000 Conference Proceedings (ed. M. Bietak), Verlag der Österreichischen Akademie der Wissenschaften, Wien, pp. 87-94.

33) Hoppe P. (2004) Stardust in meteorites. In Astrophysics of Dust (eds. A. Witt, G. C. Clayton, and B. T. Draine), pp. 265-283, ASP Conference Series, Volume 309.

34) Hoppe P., Ott U., and Lugmair G. (2004) NanoSIMS, the new tool of choice: 26Al, 44Ti, 49V, 53Mn, 60Fe, and more. New Astronomy Reviews 48, 171-176.

35) Ott U., Hoppe P., and Lugmair G. (2004) Developments in instrumentation for isotopic analyses of pre-solar grains. New Astronomy Reviews 48, 165-169.

36) Mostefaoui S., Lugmair G., Hoppe P., and El Goresy A. (2004) Evidence for live 60Fe in meteorites. New Astronomy Reviews 48, 155-159.

37) Mostefaoui S. and Hoppe P. (2004) Discovery of abundant in situ silicate and spinel grains from red giant stars in a primitive meteorite. Astrophys. J. 613, L149-L152.

38) Zinner E., Nittler L. R., Hoppe P., Gallino R., Straniero O., Alexander M. O’D., and Lewis R. S. (2005) Oxygen, magnesium and chromium isotopic ratios of presolar spinel grains. Geochim. Cosmochim. Acta 69, 4149-4165.

39) Varela M. E., Kurat G., Zinner E., Hoppe P., Ntaflos T., and Nazarov M. A. (2005) The non-igneous genesis of angrites: support from trace element distribution between phases in D’Orbigny. Meteoritics Planet. Sci. 40, 409-430.

40) Mostefaoui S., Zinner E., Hoppe P., Stadermann F. J., and El Goresy A. (2005) In situ survey of graphite in unequilibrated chondrites: Morphologies, C, N, O, and H isotopic ratios. Meteoritics Planet. Sci. 40, 721-743.

41) Mostefaoui S., Lugmair G. W., and Hoppe P. (2005) Iron-60: A heat source for planetary differentiation from a nearby supernova explosion. Astrophys. J. 625, 271-277.

42) Frisch P., Grün E., and Hoppe P. (2005) Interstellar and presolar grains in the Galaxy and in the Solar System. In The Solar System and beyond – Ten years of ISSI (eds J. Geiss and B. Hultquist). ISSI-Scientific report SR-003, p. 183-196, ESA Publications Division, Nordwijk.

43) Nittler L. R. and Hoppe P. (2005) Are presolar silicon carbide grains from novae actually from supernovae? Astrophys. J. 631, L89-L92.

44) Ott U. and Hoppe P. (2005) Sternenstaub im Labor – (Nicht nur) Edelsteine aus dem All. Sterne und Weltraum 9-2005, 38-45.

45) Hoppe P. (2006) NanoSIMS: A new tool in cosmochemistry. Applied Surface Science 252, 7102-7106.

46) Gröner E. and Hoppe P. (2006) Automated Ion Imaging with the NanoSIMS Ion Microprobe. Applied Surface Science 252, 7148-7151.

47) Winterholler B., Hoppe P., Andreae M. O., and S. Foley (2006) Measurement of Sulfur Isotope Ratios in Micrometer-Sized Samples by NanoSIMS. Applied Surface Science 252, 7128-7131.

48) Hoppe P., Stadermann F. J., Stephan T., Floss C., Leitner J., Marhas K. K., and Hörz F. (2006) SIMS studies of Allende projectiles fired into Stardust-type aluminum foils at 6 km/s. Meteoritics Planet. Sci. 41, 197-209.

49) Busemann H., Young A. F., Alexander C. M. O’D., Hoppe P., Mukhopadhyay S. and Nittler L. R. (2006) Records of interstellar chemistry in organic matter of primitive meteorites. Science 312, 727-730.

50) Heck P. R., Marhas K. K., Gallino R., Hoppe P., Baur H., and Wieler R. (2006) Helium and neon in single presolar grains from the meteorites Murchison and Murray. Mem. S. A. It. 77, 903-906.

51) Brownlee D. et al. (2006) Comet 81P/Wild 2 under a microscope. Science 314, 1711-1716.

52) Flynn G. J. et al. (2006) Elemental compositions of comet 81P/Wild 2 samples collected by Stardust. Science 314, 1731-1735.

53) Hörz F. et al. (2006) Impact features on Stardust: Implications for comet 81P/Wild 2 dust. Science 314, 1716-1719.

54) McKeegan K. D. et al. (2006) Isotopic compositions of cometary matter returned by Stardust. Science 314, 1724-1728.

55) Horvath-Bordon E., Riedel R., McMillan P. F., Kroll P., Miehe G., van Aken P. A., Zerr A., Hoppe P., Shebanova O., McLaren I., Lauterbach S., Kroke E., Boehler R. (2007) High-pressure synthesis of crystalline carbon nitride imide, C2N2(NH). Angewandte Chemie 46, 1476-1480.

56) Hoppe P., Macdougall D., and Lugmair G. W. (2007) High spatial resolution ion microprobe measurements refine chronology of Orgueil carbonate formation. Meteoritics Planet. Sci. 42, 1309-1320.

57) Lugaro M., Karakas A. I., Nittler L. R., Alexander C. M’OD., Hoppe P., Iliadis C., and Lattanzio J. C. (2007) On the asymptotic giant branch star origin of peculiar spinel grain OC2. Astron. Astrophys. 461, 657-664.

58) Ott U. and Hoppe P. (2007) Presolar grains in meteorites and interplanetary dust: An overview. In Highlights of Astronomy (eds. Anja C. Andersen & John  Lattanzio), Volume 14,  XXVIth IAU General Assembly, Prague.

59) Heck P., Marhas K. K., Hoppe P., Gallino R., Baur H., and Wieler R. (2007) Presolar He and Ne isotopes in single circumstellar SiC grains. Astrophys. J. 656, 1208-1222.

60) Zega T. J., Nittler L. R., Busemann H., Hoppe P., and Stroud R. M. (2007) Coordinated isotopic and mineralogic analyses of planetary materials enabled by in situ lift-out with a focused ion beam scanning electron microscope. Meteoritics Planet. Sci. 42, 1373-1386.

61) Marhas K. K., Hoppe P., and Ott U. (2007) NanoSIMS studies of Ba isotopic compositions in single presolar silicon carbide grains from AGB stars and supernovae. Meteoritics Planet. Sci. 42, 1077-1101.

62) Henkel T., Stephan T., Jessberger E. K., Hoppe P., Strebel R., Amari S., and Lewis R. S. (2007) 3-D elemental and isotopic composition of presolar silicon carbides. Meteoritics Planet. Sci. 42, 1121-1134.

63) Zinner E., Amari S., Guinness R., Jennings C., Mertz A. F., Nguyen A. N., Gallino R., Hoppe P., Lugaro M., Nittler L. R., and Lewis R. S. (2007) NanoSIMS isotopic analysis of small presolar grains: Search for Si3N4 grains from AGB stars and Al and Ti isotopic compositions of rare presolar SiC grains. Geochim. Cosmochim. Acta 71, 4786-4813.

64) Vollmer C., Hoppe P., Brenker F. E., and Holzapfel C. (2007) Stellar MgSiO3-Perovskite – a shock transformed stardust silicate found in a meteorite. Astrophys. J. 666, L49-L52.

65) Winterholler B., Hoppe P., Foley S., and Andreae M. O. (2008) Sulfur isotope ratio measurements of individual sulfate particles by NanoSIMS. Int. J. Mass Spectrometry 272, 63-77.

66) Hoppe P. and Vollmer C. (2008) Presolar silicates in meteorites and interplanetary dust particles. In IXth Torino Workshop on Evolution and Nucleosynthesis in AGB Stars and the IInd Perugia Workshop on Nuclear Astrophysics (eds. R. Guandalini, S. Palmerini, and M. Busso), pp. 254-261.  AIP Conference Proceedings 1001.

67) Westphal A. J. et al. (2008) Discovery of non-random spatial distribution of impacts in the Stardust cometary collector. Meteoritics Planet. Sci. 43, 415-429.

68) Stadermann F. J., Hoppe P.,  Floss C., Heck P. R., Hörz F., Huth J., Kearsley A. T., Leitner J., Marhas K. K., McKeegan K. D., and Stephan T. (2008) Stardust in STARDUST – the C, N, and O isotopic compositions of Wild 2 cometary matter in Al foil impacts. Meteoritics Planet. Sci. 43, 299-313.

69) Kearsley A. T., Borg J., Graham G. A., Burchell M. J., Cole M. J., Leroux H., Bridges J. C., Hörz F., Wozniakiewicz P. J., Bland P. A., Bradley J. P., Dai Z. R., Teslich N., See T., Hoppe P., Heck P. R., Huth J., Stadermann F. J., Floss C., Marhas K. K., Stephan T., and Leitner J. (2008) Dust from comet Wild 2: Interpreting particle size, shape, structure and composition from impact features on the Stardust aluminum foils. Meteoritics Planet. Sci. 43, 41-73.

70) Vollmer C., Hoppe P., and Brenker F. E. (2008) Si isotopic compositions of presolar silicate grains from red giant stars and supernovae. Astrophys. J. 684, 611-617.

71) Nittler L. R., Alexander C. M. O’D., Gallino R., Hoppe P., Nguyen A. N., Stadermann F. J., and Zinner E. K. (2008) Aluminum-, calcium- and titanium-rich oxide stardust in ordinary chondrite meteorites. Astrophys. J. 682, 1450-1478.

72) Hoppe P., Macdougall D., and Lugmair G. W. (2008) Extinct manganese-53 in carbonates from the Orgueil meteorite. New Astronomy Reviews 52, 467-470.

73) Hoppe P. (2008) Reservoir for Comet Material: Circumstellar Grains. Space Sci. Rev. 138, 43-57.

74) Sinha B. W., Hoppe P., Huth J., Foley S., and Andreae M. O. (2008) Sulfur isotope analyses of individual aerosol particles in the urban aerosol at a central European site (Mainz, Germany). Atmos. Chem. Phys. 8, 7217-7238.

75) Musat N.,  Halm H., Winterholler B., Hoppe P., Peduzzi S., Hillion F., Horreard F., Amann R., Jørgensen B, and Kuypers M. (2008) A single cell view on the ecophysiology of anaerobic phototrophic bacteria. PNAS 105, 17861-17866.

76) Nakashima D., Ott U., Hoppe P., and El Goresy A. (2008) Search for extinct 36Cl: Vigarano CAIs, the Pink Angel from Allende, and Ningqiang chondrule. Geochim. Cosmochim. Acta  72, 6141-6153.

77) Hoppe P., Leitner J., Meyer B. S., The L.-S., Lugaro M., and Amari S. (2009) An unusual presolar silicon carbide grain from a supernova: Implications for the production of silicon-29 in type II supernovae. Astrophys. J. 691, L20-L23.

78) Sinha B. W., Hoppe P., Huth J., Foley S., and Andreae M. O. (2009) Sulfur isotope analysis of individual aerosol particles – a new tool for studying heterogeneous oxidation processes in the marine environment. Atmos. Chem. Phys. Discuss.  9, 1-59.

79) Gail H.-P., Zhukovska S. V., Hoppe P., and Trieloff M. (2009) Stardust from asymptotic giant branch stars. Astrophys. J. 698, 1136-1154.

80) Holzapfel C., Soldera F., Vollmer C., Hoppe P.,  Mücklich F. (2009) TEM foil preparation of sub-micrometre sized individual grains by focused ion beam technique. Journal of Microscopy 235, 59–66.

81) Hoppe P., Leitner J., Meyer B. S., The L.-S., Lugaro M., and Amari S. (2009) SiC grains from supernovae and the solar Si-isotopic ratios. Geochim. Cosmochim. Acta 73, A548.

82) Hoppe P. (2009) Meteorites, In Landolt-Boernstein, Volume Astronomy, Astrophysics, Cosmology, subvolume B (ed. J. Trümper), Springer, pp. 450-466.

83) Vollmer C., Brenker F. E., Hoppe P., and Stroud R. M. (2009) Direct laboratory analysis of silicate stardust from red giant stars. Astrophys. J. 700, 774-782.

84) Heck P. R., Amari S., Hoppe P., Baur H., Lewis R. S., and Wieler R. (2009) Ne isotopes in individual presolar graphite grains from the Murchison meteorite together with He, C, O, Mg-Al isotopic analyses as tracers of their origins. Astrophys. J. 701, 1415-1425.

85) Hoppe P., Leitner J., Vollmer C., Gröner E., Heck P. R., Gallino R., and Amari S. (2009) Heavy element abundances in presolar silicon carbide grains from low-metallicity AGB stars. PASA 26, 284-288.

86) Vollmer C., Hoppe P., Stadermann F. J., Floss C., and Brenker F. E. (2009) NanoSIMS analysis and Auger electron spectroscopy of silicate and oxide stardust from the carbonaceous chondrite Acfer 094. Geochim. Cosmochim. Acta 73, 7127-7149.

87) Busemann H., Nguyen A. N., Cody G. D., Hoppe P., Kilcoyne A. L. D., Stroud R. M., Zega T. J., and Nittler L. R. (2009) Ultra-primitive Interplanetary Dust Particles from the Comet 26P/Grigg-Skjellerup Dust Stream Collection. Earth Planet. Sci. Lett. 288, 44-57.

88) Berg T., Maul J., Schönhense G., Marosits E., Hoppe P., Ott U., and Palme H. (2009) Direct evidence for condensation in the early solar system and implications for nebular cooling rates. Astrophys. J. 702, L172-L176.

89) Hoppe P. (2009) Sternenstaub in Meteoriten und Kometen. Physik in unserer Zeit 6/2009, 282-289.

90) Hoppe P. (2010) Stardust in meteorites and IDPs: Current status, recent advances, and future prospects. In Cosmic Dust: Near & Far (eds. T. Henning, E. Grün, and J. Steinacker), ASP Conference Series 414, pp. 148-156.

91) Gail H.-P. and Hoppe P. (2010) The origins of protoplanetary dust and the formation of accretion disks. In “Protoplanetary Dust: Astrochemical and Cosmochemical Perspectives (eds. D. Apai and D. Lauretta)”, Cambridge University Press, pp. 27-65.

92) Hoppe P. (2010) Stardust in primitive solar system materials. AIP Conference Proceedings 1213, pp. 84-94.

93) Hoppe P., Leitner J., Gröner E., Marhas K. K., Meyer B. S., and Amari S. (2010) NanoSIMS studies of small presolar SiC grains: New insights into supernova nucleosynthesis, chemistry, and dust formation. Astrophys. J. 719, 1370-1384.

94) Zega T. J., Alexander C. M. O’D., Busemann H., Nittler L. R., Hoppe P., Stroud R. M., and Young A. F. (2010) Mineral associations and character of isotopically anomalous organic material in the Tagish Lake carbonaceous chondrite Geochim. Cosmochim. Acta 74, 5966-5983.

95) Sinha B. W. and Hoppe P. (2010) Ion microprobe analysis: Basic principles, state-of-the-art instruments and recent applications with emphasis on the geosciences. In: F. Brenker, F. and Jordan, G. (eds.): EMU Notes in Mineralogy: Nanoscopic approaches in earth and planetary sciences, Volume 8, European Mineralogical Union.

96) Price M. C., Kearsley A. T., Burchell M. J., Hörz F., Borg J., Bridges J. C., Cole M. J., Floss C., Graham G., Green S. F., Hoppe P., Leroux H., Marhas K. K., Park N., Stroud R., Stadermann F. J., Telisch N. and Wozniakiewicz P. J. (2010) Comet 81P/Wild 2: The size distribution of finer (sub 10-micrometer) dust collected by the Stardust spacecraft. Meteoitics Planet. Sci. 45, 1409-1428.

97) Buntain J., Lugaro M., Stancliffe R. J., Karakas A., Nittler L., and Hoppe P. (2010) Wind composition beyond the tip of the AGB and ist relevance to stardust grains. Mem. S. A. It., 81, 958-963.

98) Hoppe P. (2011) Measurements of presolar grains. Proceedings of the 11th Symposium on Nuclei in the Cosmos (NIC XI). July 19 - July 23, 2010 Heidelberg, Germany. Available online at pos.sissa.it/cgi-bin/reader/conf.cgi.

99) Kodolany J. and Hoppe P. (2011) A promising method to obtain more accurate Mg and Fe isotope compositional data on presolar silicate particles. Proceedings of the 11th Symposium on Nuclei in the Cosmos (NIC XI). July 19 - July 23, 2010 Heidelberg, Germany. Available online at pos.sissa.it/cgi-bin/reader/conf.cgi.

100) Leitner J., Hoppe P., Vollmer C., and Zipfel J. (2011) The Inventory of Presolar Grains in Primitive Meteorites: A NanoSIMS Study of C-, N-, and O-isotopes in NWA 852. Proceedings of the 11th Symposium on Nuclei in the Cosmos (NIC XI). July 19 - July 23, 2010 Heidelberg, Germany. Available online at pos.sissa.it/cgi-bin/reader/conf.cgi.

101)  Buntain J., Lugaro M., Stancliffe R. J., Karakas A., Nittler L., and Hoppe P. (2011) Wind beyond the tip of the AGB and its relevance to stardust grain data. Proceedings of the 11th Symposium on Nuclei in the Cosmos (NIC XI). July 19 - July 23, 2010 Heidelberg, Germany. Available online at pos.sissa.it/cgi-bin/reader/conf.cgi.

102)  Fujiya W., Hoppe P., and Ott U. (2011) Hints for neutrino-process boron in presolar silicon carbide grains from supernovae. Astrophys. J. 730, L7.

103) Besmehn A., Hoppe P., and Ott U. (2011) Search for extinct Aluminum-26 and Titanium-44 in nanodiamonds from the Allende CV3 and Murchison CM2 meteorites. Meteoritics Planet. Sci. 46, 1265-1275.

104) Hoppe P., Fujiya W., and Zinner E. (2012) Sulfur molecule chemistry in supernova ejecta recorded by silicon carbide stardust. Astrophys. J. 745, L26.

105) Harris E., Sinha B., Hoppe P., Crowley J., Foley S., and Ono S. (2012) Sulfur isotope fractionation during oxidation of sulphur dioxide: Gas-phase oxidation by OH radicals and aqueous oxidation by H2O2, O3, and iron catalysis. Atmos. Chem. Phys. 12, 407-423.

106) Leitner J., Vollmer C., Hoppe P., and Zipfel J. (2012) Characterization of presolar material in the CR chondrite Northwest Africa 852. Astrophys. J. 745, 38.

107) Harris E., Sinha B., Foley S., Crowley J., Borrmann S., and Hoppe P. (2012) Sulfur isotope fractionation during heterogeneous oxidation of SO2 by mineral dust. Atmos. Chem. Phys. 12, 4867-4884.

108) Harris E., Sinha B., Hoppe P., Crowley J., Foley S., and Borrmann S. (2012) Fractionation of sulfur isotopes during heterogeneous oxidation of SO2 on sea salt aerosol: A new tool to investigate non-sea salt sulfate production in the marine boundary layer.  Atmos. Chem. Phys. 12, 4619-4631.

109) Srama R. et al. (2012) SARIM PLUS—sample return of comet 67P/CG and of interstellar matter. Exp. Astronomy, dx.doi.org/10.1007/s10686-011-9285-7.

110) Varela M. E., Zinner E., Kurat G., Chu H.-T., and Hoppe P. (2012) Dark inclusion Allende 4884-2B provides new insights on the formation of fayalitic olivine. Meteoritics Planet. Sci., 47, 832-852.

111) Wasson J. and Hoppe P. (2012) Co/Ni ratios at taenite/kamacite interfaces and relative cooling rates in iron meteorites. Geochim. Cosmochim. Acta 84, 508-524.

112) Ott U., Besmehn A., Farouqi K., Hallmann O., Hoppe P., Kratz K.-L., Melber K., and Wallner A. (2012) New attempts to understand nanodiamond stardust. PASA 20, 90-97.

113) Heck P,  Hoppe P., Huth J. (2012) Sulfur four isotope NanoSIMS analysis of comet-81P⁄Wild 2 dust in impact craters on aluminum foil C2037N from NASA’s Stardust mission. Meteorit. Planet. Sci. 47, 649-659.

114) Leitner J., Kodolanyi J., Hoppe P., and Floss C. (2012) Laboratory analysis of presolar silicate stardust from a nova. Astrophys. J. 754, L41.

115) Harris E., Sinha B., van Pinxteren D., Tilgner A., Fomba K. W., Schneider J., Roth A., Gnauck T., Fahlbusch B., Mertes S., Lee T., Collett J., Foley S., Borrmann S., Hoppe P., and Herrmann H. (2013) Enhanced role of transition metal ion catalysis during in-cloud oxidation of SO2. Science 340, 727-730.

116) Hoppe P., Cohen S., and Meibom A. (2013) NanoSIMS: Technical aspects and applications in cosmochemistry and biological geochemistry. Geostandards Geoanalytical Res. 37, 111-154.

117) Vollmer C., Hoppe P., and Brenker F. (2013) Transmission electron microscopy of Al-rich silicate stardust from asymptotic giant branch stars. Astrophys. J. 769, 61 (8pp).

118) Pignatari M., Zinner E., Bertolli M. G., Trappitsch R., Hoppe P., Rauscher T., Fryer C., Herwig F., Hirschi R., Timmes F. X., and Thielemann F.-K. (2013) Silicon carbide grains of type C provide evidence for the production of unstable isotope 32Si in supernovae. Astrophys. J. Lett. 771, L7 (5pp).

119) Harris E., Sinha B., Hoppe P., and Ono S. (2013) High-precision measurements of 33S and 34S fractionation during SO2 oxidation reveal causes of seasonality in SO2 and sulfate isotopic composition. Environmental Science & Technology 47, 12174-12183.

120) Fujiya W., Hoppe P., Zinner E., Pignatari M., and Herwig F. (2013) Evidence for radiogenic sulfur-32 in type AB presolar silicon carbide grains? Astrophys. J. Lett. 776, L29 (6pp).

121) Harris E. et al. (2014) In-cloud sulfate addition to single particles resolved with sulfur isotope analysis during HCCT 2010. Atmos. Chem. Phys. 14, 4219-4245.

122) Laukert G., von der Handt A., Hellebrand E., Snow J., Hoppe P., and Klügel A. (2014) High pressure reactive melt stagnation recorded in abyssal pyroxenites from ultraslow spreading Lena Trough, Arctic Ocean. J. Petrology 55, 427-458.

123) Davidson J., Busemann H., Nittler L. R., Alexander C. M. O. D., Orthous-Daunay F.-R., Franchi I. A., and Hoppe P. (2014) Abundances of presolar silicon carbide grains in primitive meteorites determined by NanoSIMS. Geochim. Cosmochim. Acta 139, 248-266.

124) Kodolanyi J., Hoppe P., Gröner E., Pauly C., and Mücklich F. (2014) The Mg isotope composition of presolar silicate grains from red giant stars. Geochim. Cosmochim. Acta 140, 577-605.

125) Westphal A. et al. (2014) Evidence for interstellar origin of 7 dust particles collected by the Stardust spacecraft. Science 345, 786-791.

126) Bechtel H. A. et al. (2014) Stardust Interstellar Preliminary Examination III: Infrared spectroscopic analysis of interstellar dust candidates. Meteorit Planet Sci 49, 1548-1561.

127) Brenker F. E. et al. (2014) Stardust Interstellar Preliminary Examination V: XRF analyses of interstellar dust candidates at ESRF ID13. Meteorit Planet Sci 49, 1594-1611.

128) Butterworth A. L. et al. (2014) Stardust Interstellar Preliminary Examination IV: Scanning transmission X-ray microscopy analyses of impact features in the Stardust Interstellar Dust Collector. Meteorit Planet Sci 49, 1562-1593.

129) Flynn G. J. et al. (2014) Stardust Interstellar Preliminary Examination VII: Synchrotron X-ray fluorescence analysis of six Stardust interstellar candidates measured with the Advanced Photon Source 2-ID-D microprobe. Meteorit Planet Sci 49, 1626-1644.

130) Frank D. R. et al. (2014) Stardust Interstellar Preliminary Examination II: Curating the interstellar dust collector, picokeystones, and sources of impact tracks. Meteorit Planet Sci 49, 1522-1547.

131) Gainsforth Z. et al. (2014) Stardust Interstellar Preliminary Examination VIII: Identification of crystalline material in two interstellar candidates. Meteorit Planet Sci 49, 1645-1665.

132) Postberg F. et al. (2014) Stardust Interstellar Preliminary Examination IX: High-speed interstellar dust analog capture in Stardust flight-spare aerogel. Meteorit Planet Sci 49, 1666-1679.

133) Simionovici A. S. et al. (2014) Stardust Interstellar Preliminary Examination VI: Quantitative elemental analysis by synchrotron X-ray fluorescence nanoimaging of eight impact features in aerogel. Meteorit Planet Sci 49, 1612-1625.

134) Sterken V. J. et al. (2014) Stardust Interstellar Preliminary Examination X: Impact speeds and directions of interstellar grains on the Stardust dust collector. Meteorit Planet Sci 49, 1680-1697.

135) Stroud R. M. et al. (2014) Stardust Interstellar Preliminary Examination XI: Identification and elemental analysis of impact craters on Al foils from the Stardust Interstellar Dust Collector. Meteorit Planet Sci 49, 1698-1719.

136) Westphal A. J. et al. (2014a) Stardust Interstellar Preliminary Examination I: Identification of tracks in aerogel. Meteorit Planet Sci 49, 1509-1521.

137) Westphal A. J. et al. (2014b) Final reports of the Stardust Interstellar Preliminary Examination. Meteorit Planet Sci 49, 1720-1733.

138) Vollmer C. et al. (2014) Fluid-induced organic synthesis in the solar nebula recorded in extraterrestrial dust from meteorites. Proceedings of the National Academy of Sciences 111, 15338-15343 (doi:10.1073/pnas).

139) Pernice M. et al. (2014) A nanoscale secondary ion mass spectrometry study of dinoflagellate functional diversity in reef-building corals. Environmental Microbiology, doi: 10.1111/1462-2920.12518.

140) Harries D., Hoppe P., and Langenhorst F. (2015) Reactive ammonia in the solar protoplanetary disk and the origin of Earth's nitrogen. Nature Geoscience 8, 97-101 (doi: 10.1038/NGEO2339).

141) Fujiya W., Sugiura N., Marrocchi Y., Takahata N., Hoppe P., Shirai K., Sano Y. and Hiyagon H. (2015) Comprehensive study of carbon and oxygen isotopic compositions, trace element abundances, and cathodoluminescence intensities of calcite in the Murchison CM chondrite. Geochimica et Cosmochimica Acta 161, 101-117.

142) Hoppe P., Lodders K., and Fujiya W. (2015) Sulfur in presolar silicon carbide grains from asymptotic giant branch stars. Met. Planet. Sci. 50, 1122-1138.

143) Pignatari M., Zinner E., Hoppe P., Jordan C. J., Gibson B. K., Trappisch R., Herwig F., Fryer C., Hirschi R., and Timmes F. X. (2015) Production of carbon-rich presolar grains from massive stars. Grains with 12C/13C and 14N/15N ratios lower than solar and the missing galactic 15N. Astrophys. J. Lett. 808, L43 (6pp).

144) Hoppe P., Leitner J. and Kodolanyi J. (2015) New constraints on the abundances of silicate and oxide stardust from supernovae in the Acfer 094 meteorite. Astrophys. J. 808, L9 (6pp).

145) Groopman E., Zinner E. Gyngard F., Amari S., Hoppe P., Jadhav M., Lin Y., Xu Y., Marhas K. and Nittler L. R. (2015) 26Al/27Al Ratios in Presolar Stardust Grains from Supernovae are Higher than Previously Estimated. Astrophys. J. 809, 31 (16pp).

146) Hoppe P. (2016) NanoSIMS and more: New tools in nuclear astrophysics. Journal of Physics: Conference Series 665, 012075.

147) Leitner J., Vollmer C., Floss C., Zipfel J. and Hoppe P. (2016) Ancient stardust in fine-grained chondrule dust rims from carbonaceous chondrites. Earth & Planet. Sci. Lett.434, 117-128.

148) Li K., Sinha B., Poehlker C. and Hoppe P. (2016) Speciation of nitrogen bearing species using negative and positive secondary ion spectra with Nano Secondary Ion Mass Spectrometry. Anal. Chemistry 88, 3281-3288.

149) Li K., Sinha, B. and Hoppe P. (2016) Nitrogen isotope analysis of NaNO3 and KNO3 by nano secondary ion mass spectrometry using the 15N16O2-/14N16O2-  ratio. J. Vac. Sci. Technol. B 34, 030601.

150) Hoppe P. (2016) Stardust from Supernovae and its Isotopes. In Handbook of Supernovae (eds. A.W. Alsabti and P. Murdin). Springer International Publishing, DOI 10.1007/978-3-319-20794-0_113-1.

151) Fujiya W., Hoppe P., and Ott U. (2016) Boron abundances and isotopic ratios of olivine grains on Itokawa returned by the Hayabusa spacecraft. Meteorit. Planet. Sci. 51, 1721-1729.

152) Hoppe P. (2017) Presolar Grains. In Encyclopedia of Geochemistry (eds. W. M. White and H. Yurimoto), Springer International Publishing, DOI 10.1007/978-3-319-39193-9_309-1.

153) Hoppe P., Leitner J., and Kodolányi J. (2017) The stardust abundance in the local interstellar cloud at the birth of the Solar System. Nature Astronomy 1, 617-620.

154) Hoppe P., Pignatari M., Kodolányi J., Gröner E., and Amari S. (2018) NanoSIMS isotope studies of rare types of presolar silicon carbide grains from the Murchison meteorite: Implications for supernova models and the role of 14C. Geochim. Cosmochim. Acta 221, 182-199.

155) Nguyen A., Nittler L.R., Alexander C.M.O.D. and Hoppe P. (2018) Titanium isotopic compositions of rare presolar SiC grain types from the Murchison meteorite. Geochim. Cosmochim. Acta 221, 162-181.

156) Leitner J., Hoppe P., Floss C., Hillion F. and Henkel T. (2018) Correlated nanoscale characterization of a unique complex oxygen-rich stardust grain: Implications for circumstellar dust formation. Geochim. Cosmochim. Acta 221, 255-274.

157) Pignatari M., Hoppe P., Trappitsch R., Fryer C., Timmes F.X., Herwig F. and Hirschi R. (2018) The neutron capture process in the He shell in core-collapse supernovae: Presolar silicon carbide grains as a diagnostic tool for nuclear astrophysics. Geochim. Cosmochim. Acta 221, 37-46.

158) Stephan T., Trappitsch R., Davis A. M., Pellin M. J., Rost D., Savina M. R., Jadhav M., Kelly C. H., Gyngard F., Hoppe P., and Dauphas N. (2018) Strontium and barium isotopes in presolar silicon carbide grains measured with CHILI - two types of X grains. Geochim. Cosmochim. Acta 221, 109-126.

159) Kodolanyi J., Stephan T., Trappitsch R., Hoppe P., Pignatari M., Davis A.M. and Pellin M.J. (2018) Iron and nickel isotope compositions of presolar silicon carbide grains from supernovae. Geochim. Cosmochim. Acta 221, 127-144.