Roadmap on carbon molecular nanostructures in space

Klavs Hansen; D. A. García-Hernández; E. E. B. Campbell; Dogan Erbahar; Alicja Domaracka; Cornelia Jäger; C. Ewels; Polona Umek; S. Kwok; E. Peeters; J. Cami; Greg C. Sloan; P. Ehrenfreund; H. Linnartz; A. Manchado; Nick L. J. Cox; J. Bernard-Salas; E. K. Campbell; A. Monreal-Ibero; B. H. Foing; J. Smoker; M. Elyajouri; A. Ebenbichler; J. Th. van Loon; J. Bouwman; A. Farhang; F. Salama; C. Joblin; G. Mulas; U. Jacovella; M. A. Gómez-Muñoz; R. Barzaga; T. Huertas-Roldán; Hugh Mohan; Michał Bartkowski; Silvia Giordani; Gao-Lei Hou; J. J. Díaz-Luis; J. Alcolea; D. Tafoya; V. Bujarrabal; N. Došlić; T. Došlić; E. Catalano; M. Yesiltas; P. Ferrari; S. Brünken; G. Berden; J. M. Bakker; J. Oomens; B. Redlich; A. Pitanti; B. Bertoni; L. Vicarelli; P. Lamberti; M. Cojocari; G. Fedorov; Yu. Svirko; P. Kuzhir; M. Hochlaf; M. Mogren Al Mogren; Alexey Potapov; Eftal Gezer; H. Zettergren; H. T. Schmidt; Mark H. Stockett; Eleanor K. Ashworth; James N. Bull; M. Fárník; T. Wakabayashi; L. Ganner; M. Kappe; E. Gruber; C. Pardanaud; J. Dezalay; J. A. Noble; K. Tőkési; Z. Li; X. H. Zhou; J. M. Gong; R. G. Zeng; Z. J. Ding; Clayton S.-C. Yang; Feng Jin; Sudhir Trivedi; Uwe Hommerich; Laszlo Nemes; Alan C. Samuels; G. Shmavonyan; L. Misakyan; A. Shmavonyan; I. Sciriha; S. Suriyaprasanth; Dhanoj Gupta; D. A. Kalchevski; D. Trifonov; S. Kolev; T. Milenov; Miguel A. Caro; SeyedAbdolreza Sadjadi; Quentin Andrew Parker; A. Lombardi; Martin McCoustra; F. Koch; I. Schubert; C. Trautmann; M. E. Toimil-Molares; B. Kerkeni; D. Talbi; C. P. Hsu; G. Ouerfelli; H. H. Chuang; Ko-Ju Chuang; Yu-Jung Chen; E. Villaver; M. Manteiga

doi:10.1140/epjd/s10053-025-00984-1

Roadmap on carbon molecular nanostructures in space

Klavs Hansen
, D. A. García-Hernández^*
, E. E. B. Campbell
, Dogan Erbahar
, Alicja Domaracka
, Cornelia Jäger
, C. Ewels
, Polona Umek
, S. Kwok
, E. Peeters
, J. Cami
, Greg C. Sloan
, P. Ehrenfreund
, H. Linnartz
, A. Manchado
, Nick L. J. Cox
, J. Bernard-Salas
, E. K. Campbell
, A. Monreal-Ibero
, B. H. Foing

J. Smoker, M. Elyajouri, A. Ebenbichler, J. Th. van Loon, J. Bouwman, A. Farhang, F. Salama, C. Joblin, G. Mulas, U. Jacovella, M. A. Gómez-Muñoz, R. Barzaga, T. Huertas-Roldán, Hugh Mohan, Michał Bartkowski, Silvia Giordani, Gao-Lei Hou, J. J. Díaz-Luis, J. Alcolea, D. Tafoya, V. Bujarrabal, N. Došlić, T. Došlić, E. Catalano, M. Yesiltas, P. Ferrari, S. Brünken, G. Berden, J. M. Bakker, J. Oomens, B. Redlich, A. Pitanti, B. Bertoni, L. Vicarelli, P. Lamberti, M. Cojocari, G. Fedorov, Yu. Svirko, P. Kuzhir, M. Hochlaf, M. Mogren Al Mogren, Alexey Potapov, Eftal Gezer, H. Zettergren, H. T. Schmidt, Mark H. Stockett, Eleanor K. Ashworth, James N. Bull, M. Fárník, T. Wakabayashi, L. Ganner, M. Kappe, E. Gruber, C. Pardanaud, J. Dezalay, J. A. Noble, K. Tőkési, Z. Li, X. H. Zhou, J. M. Gong, R. G. Zeng, Z. J. Ding, Clayton S.-C. Yang, Feng Jin, Sudhir Trivedi, Uwe Hommerich, Laszlo Nemes, Alan C. Samuels, G. Shmavonyan, L. Misakyan, A. Shmavonyan, I. Sciriha, S. Suriyaprasanth, Dhanoj Gupta, D. A. Kalchevski, D. Trifonov, S. Kolev, T. Milenov, Miguel A. Caro, SeyedAbdolreza Sadjadi, Quentin Andrew Parker, A. Lombardi, Martin McCoustra, F. Koch, I. Schubert, C. Trautmann, M. E. Toimil-Molares, B. Kerkeni, D. Talbi, C. P. Hsu, G. Ouerfelli, H. H. Chuang, Ko-Ju Chuang, Yu-Jung Chen, E. Villaver, M. Manteiga

^*Corresponding author for this work

Research output: Contribution to journal › Review article › peer-review

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Abstract

In this roadmap article, we consider the main challenges and recent breakthroughs in understanding the role of carbon molecular nanostructures in space and propose future avenues of research. The focus lies on small carbon-containing molecules up to fullerenes, extending to even larger, more complex organic species. The roadmap contains forty contributions from scientists with leading expertize in observational astronomy, laboratory astrophysics/chemistry, astrobiology, theoretical chemistry, synthetic chemistry, molecular reaction dynamics, material science, spectroscopy, graph theory, and data science. The concerted interdisciplinary combination of the state-of-the-art of these astronomical, laboratory, and theoretical studies opens up new ways to advance the fundamental understanding of the physics and chemistry of cosmic carbon molecular nanostructures and touches on their wider relevance and impact in nanotechnology and catalysis. Graphical abstract: A collection of carbon atoms on the road to a fullerene

Original language	English
Article number	94
Journal	European Physical Journal D
Volume	79
Issue number	8
Early online date	4 Aug 2025
DOIs	https://doi.org/10.1140/epjd/s10053-025-00984-1
Publication status	Published - Aug 2025

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Hansen, K., García-Hernández, D. A., Campbell, E. E. B., Erbahar, D., Domaracka, A., Jäger, C., Ewels, C., Umek, P., Kwok, S., Peeters, E., Cami, J., Sloan, G. C., Ehrenfreund, P., Linnartz, H., Manchado, A., Cox, N. L. J., Bernard-Salas, J., Campbell, E. K., Monreal-Ibero, A., ... Manteiga, M. (2025). Roadmap on carbon molecular nanostructures in space. European Physical Journal D, 79(8), Article 94. https://doi.org/10.1140/epjd/s10053-025-00984-1

@article{dd8459274c8b4ad5b174ed1a5b6f8bde,

title = "Roadmap on carbon molecular nanostructures in space",

abstract = "In this roadmap article, we consider the main challenges and recent breakthroughs in understanding the role of carbon molecular nanostructures in space and propose future avenues of research. The focus lies on small carbon-containing molecules up to fullerenes, extending to even larger, more complex organic species. The roadmap contains forty contributions from scientists with leading expertize in observational astronomy, laboratory astrophysics/chemistry, astrobiology, theoretical chemistry, synthetic chemistry, molecular reaction dynamics, material science, spectroscopy, graph theory, and data science. The concerted interdisciplinary combination of the state-of-the-art of these astronomical, laboratory, and theoretical studies opens up new ways to advance the fundamental understanding of the physics and chemistry of cosmic carbon molecular nanostructures and touches on their wider relevance and impact in nanotechnology and catalysis. Graphical abstract: A collection of carbon atoms on the road to a fullerene",

author = "Klavs Hansen and Garc{\'i}a-Hern{\'a}ndez, \{D. A.\} and Campbell, \{E. E. B.\} and Dogan Erbahar and Alicja Domaracka and Cornelia J{\"a}ger and C. Ewels and Polona Umek and S. Kwok and E. Peeters and J. Cami and Sloan, \{Greg C.\} and P. Ehrenfreund and H. Linnartz and A. Manchado and Cox, \{Nick L. J.\} and J. Bernard-Salas and Campbell, \{E. K.\} and A. Monreal-Ibero and Foing, \{B. H.\} and J. Smoker and M. Elyajouri and A. Ebenbichler and \{van Loon\}, \{J. Th.\} and J. Bouwman and A. Farhang and F. Salama and C. Joblin and G. Mulas and U. Jacovella and G{\'o}mez-Mu{\~n}oz, \{M. A.\} and R. Barzaga and T. Huertas-Rold{\'a}n and Hugh Mohan and Micha{\l} Bartkowski and Silvia Giordani and Gao-Lei Hou and D{\'i}az-Luis, \{J. J.\} and J. Alcolea and D. Tafoya and V. Bujarrabal and N. Do{\v s}li{\'c} and T. Do{\v s}li{\'c} and E. Catalano and M. Yesiltas and P. Ferrari and S. Br{\"u}nken and G. Berden and Bakker, \{J. M.\} and J. Oomens and B. Redlich and A. Pitanti and B. Bertoni and L. Vicarelli and P. Lamberti and M. Cojocari and G. Fedorov and Yu. Svirko and P. Kuzhir and M. Hochlaf and \{Mogren Al Mogren\}, M. and Alexey Potapov and Eftal Gezer and H. Zettergren and Schmidt, \{H. T.\} and Stockett, \{Mark H.\} and Ashworth, \{Eleanor K.\} and Bull, \{James N.\} and M. F{\'a}rn{\'i}k and T. Wakabayashi and L. Ganner and M. Kappe and E. Gruber and C. Pardanaud and J. Dezalay and Noble, \{J. A.\} and K. T{\H o}k{\'e}si and Z. Li and Zhou, \{X. H.\} and Gong, \{J. M.\} and Zeng, \{R. G.\} and Ding, \{Z. J.\} and Yang, \{Clayton S.-C.\} and Feng Jin and Sudhir Trivedi and Uwe Hommerich and Laszlo Nemes and Samuels, \{Alan C.\} and G. Shmavonyan and L. Misakyan and A. Shmavonyan and I. Sciriha and S. Suriyaprasanth and Dhanoj Gupta and Kalchevski, \{D. A.\} and D. Trifonov and S. Kolev and T. Milenov and Caro, \{Miguel A.\} and SeyedAbdolreza Sadjadi and Parker, \{Quentin Andrew\} and A. Lombardi and Martin McCoustra and F. Koch and I. Schubert and C. Trautmann and Toimil-Molares, \{M. E.\} and B. Kerkeni and D. Talbi and Hsu, \{C. P.\} and G. Ouerfelli and Chuang, \{H. H.\} and Ko-Ju Chuang and Yu-Jung Chen and E. Villaver and M. Manteiga",

year = "2025",

month = aug,

doi = "10.1140/epjd/s10053-025-00984-1",

language = "English",

volume = "79",

journal = "European Physical Journal D",

issn = "1434-6060",

publisher = "Springer New York",

number = "8",

}

Hansen, K, García-Hernández, DA, Campbell, EEB, Erbahar, D, Domaracka, A, Jäger, C, Ewels, C, Umek, P, Kwok, S, Peeters, E, Cami, J, Sloan, GC, Ehrenfreund, P, Linnartz, H, Manchado, A, Cox, NLJ, Bernard-Salas, J, Campbell, EK, Monreal-Ibero, A, Foing, BH, Smoker, J, Elyajouri, M, Ebenbichler, A, van Loon, JT, Bouwman, J, Farhang, A, Salama, F, Joblin, C, Mulas, G, Jacovella, U, Gómez-Muñoz, MA, Barzaga, R, Huertas-Roldán, T, Mohan, H, Bartkowski, M, Giordani, S, Hou, G-L, Díaz-Luis, JJ, Alcolea, J, Tafoya, D, Bujarrabal, V, Došlić, N, Došlić, T, Catalano, E, Yesiltas, M, Ferrari, P, Brünken, S, Berden, G, Bakker, JM, Oomens, J, Redlich, B, Pitanti, A, Bertoni, B, Vicarelli, L, Lamberti, P, Cojocari, M, Fedorov, G, Svirko, Y, Kuzhir, P, Hochlaf, M, Mogren Al Mogren, M, Potapov, A, Gezer, E, Zettergren, H, Schmidt, HT, Stockett, MH, Ashworth, EK, Bull, JN, Fárník, M, Wakabayashi, T, Ganner, L, Kappe, M, Gruber, E, Pardanaud, C, Dezalay, J, Noble, JA, Tőkési, K, Li, Z, Zhou, XH, Gong, JM, Zeng, RG, Ding, ZJ, Yang, CS-C, Jin, F, Trivedi, S, Hommerich, U, Nemes, L, Samuels, AC, Shmavonyan, G, Misakyan, L, Shmavonyan, A, Sciriha, I, Suriyaprasanth, S, Gupta, D, Kalchevski, DA, Trifonov, D, Kolev, S, Milenov, T, Caro, MA, Sadjadi, S, Parker, QA, Lombardi, A, McCoustra, M, Koch, F, Schubert, I, Trautmann, C, Toimil-Molares, ME, Kerkeni, B, Talbi, D, Hsu, CP, Ouerfelli, G, Chuang, HH, Chuang, K-J, Chen, Y-J, Villaver, E & Manteiga, M 2025, 'Roadmap on carbon molecular nanostructures in space', European Physical Journal D, vol. 79, no. 8, 94. https://doi.org/10.1140/epjd/s10053-025-00984-1

TY - JOUR

T1 - Roadmap on carbon molecular nanostructures in space

AU - Hansen, Klavs

AU - García-Hernández, D. A.

AU - Campbell, E. E. B.

AU - Erbahar, Dogan

AU - Domaracka, Alicja

AU - Jäger, Cornelia

AU - Ewels, C.

AU - Umek, Polona

AU - Kwok, S.

AU - Peeters, E.

AU - Cami, J.

AU - Sloan, Greg C.

AU - Ehrenfreund, P.

AU - Linnartz, H.

AU - Manchado, A.

AU - Cox, Nick L. J.

AU - Bernard-Salas, J.

AU - Campbell, E. K.

AU - Monreal-Ibero, A.

AU - Foing, B. H.

AU - Smoker, J.

AU - Elyajouri, M.

AU - Ebenbichler, A.

AU - van Loon, J. Th.

AU - Bouwman, J.

AU - Farhang, A.

AU - Salama, F.

AU - Joblin, C.

AU - Mulas, G.

AU - Jacovella, U.

AU - Gómez-Muñoz, M. A.

AU - Barzaga, R.

AU - Huertas-Roldán, T.

AU - Mohan, Hugh

AU - Bartkowski, Michał

AU - Giordani, Silvia

AU - Hou, Gao-Lei

AU - Díaz-Luis, J. J.

AU - Alcolea, J.

AU - Tafoya, D.

AU - Bujarrabal, V.

AU - Došlić, N.

AU - Došlić, T.

AU - Catalano, E.

AU - Yesiltas, M.

AU - Ferrari, P.

AU - Brünken, S.

AU - Berden, G.

AU - Bakker, J. M.

AU - Oomens, J.

AU - Redlich, B.

AU - Pitanti, A.

AU - Bertoni, B.

AU - Vicarelli, L.

AU - Lamberti, P.

AU - Cojocari, M.

AU - Fedorov, G.

AU - Svirko, Yu.

AU - Kuzhir, P.

AU - Hochlaf, M.

AU - Mogren Al Mogren, M.

AU - Potapov, Alexey

AU - Gezer, Eftal

AU - Zettergren, H.

AU - Schmidt, H. T.

AU - Stockett, Mark H.

AU - Ashworth, Eleanor K.

AU - Bull, James N.

AU - Fárník, M.

AU - Wakabayashi, T.

AU - Ganner, L.

AU - Kappe, M.

AU - Gruber, E.

AU - Pardanaud, C.

AU - Dezalay, J.

AU - Noble, J. A.

AU - Tőkési, K.

AU - Li, Z.

AU - Zhou, X. H.

AU - Gong, J. M.

AU - Zeng, R. G.

AU - Ding, Z. J.

AU - Yang, Clayton S.-C.

AU - Jin, Feng

AU - Trivedi, Sudhir

AU - Hommerich, Uwe

AU - Nemes, Laszlo

AU - Samuels, Alan C.

AU - Shmavonyan, G.

AU - Misakyan, L.

AU - Shmavonyan, A.

AU - Sciriha, I.

AU - Suriyaprasanth, S.

AU - Gupta, Dhanoj

AU - Kalchevski, D. A.

AU - Trifonov, D.

AU - Kolev, S.

AU - Milenov, T.

AU - Caro, Miguel A.

AU - Sadjadi, SeyedAbdolreza

AU - Parker, Quentin Andrew

AU - Lombardi, A.

AU - McCoustra, Martin

AU - Koch, F.

AU - Schubert, I.

AU - Trautmann, C.

AU - Toimil-Molares, M. E.

AU - Kerkeni, B.

AU - Talbi, D.

AU - Hsu, C. P.

AU - Ouerfelli, G.

AU - Chuang, H. H.

AU - Chuang, Ko-Ju

AU - Chen, Yu-Jung

AU - Villaver, E.

AU - Manteiga, M.

PY - 2025/8

Y1 - 2025/8

N2 - In this roadmap article, we consider the main challenges and recent breakthroughs in understanding the role of carbon molecular nanostructures in space and propose future avenues of research. The focus lies on small carbon-containing molecules up to fullerenes, extending to even larger, more complex organic species. The roadmap contains forty contributions from scientists with leading expertize in observational astronomy, laboratory astrophysics/chemistry, astrobiology, theoretical chemistry, synthetic chemistry, molecular reaction dynamics, material science, spectroscopy, graph theory, and data science. The concerted interdisciplinary combination of the state-of-the-art of these astronomical, laboratory, and theoretical studies opens up new ways to advance the fundamental understanding of the physics and chemistry of cosmic carbon molecular nanostructures and touches on their wider relevance and impact in nanotechnology and catalysis. Graphical abstract: A collection of carbon atoms on the road to a fullerene

AB - In this roadmap article, we consider the main challenges and recent breakthroughs in understanding the role of carbon molecular nanostructures in space and propose future avenues of research. The focus lies on small carbon-containing molecules up to fullerenes, extending to even larger, more complex organic species. The roadmap contains forty contributions from scientists with leading expertize in observational astronomy, laboratory astrophysics/chemistry, astrobiology, theoretical chemistry, synthetic chemistry, molecular reaction dynamics, material science, spectroscopy, graph theory, and data science. The concerted interdisciplinary combination of the state-of-the-art of these astronomical, laboratory, and theoretical studies opens up new ways to advance the fundamental understanding of the physics and chemistry of cosmic carbon molecular nanostructures and touches on their wider relevance and impact in nanotechnology and catalysis. Graphical abstract: A collection of carbon atoms on the road to a fullerene

UR - https://www.scopus.com/pages/publications/105012517240

U2 - 10.1140/epjd/s10053-025-00984-1

DO - 10.1140/epjd/s10053-025-00984-1

M3 - Review article

SN - 1434-6060

VL - 79

JO - European Physical Journal D

JF - European Physical Journal D

IS - 8

M1 - 94

ER -

Roadmap on carbon molecular nanostructures in space

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