Publications 2018
![https://carboquant.empa.ch/documents/55905/2875834/Tailoring+bond+topologies+in+open-shell+graphene+nanostructures.jpg/797f5612-2109-40ed-91ee-30f13362f1fd?t=1541489742000](https://carboquant.empa.ch/documents/55905/2875834/Tailoring+bond+topologies+in+open-shell+graphene+nanostructures.jpg/797f5612-2109-40ed-91ee-30f13362f1fd?t=1541489742000)
Tailoring Bond Topologies in Open-Shell Graphene Nanostructures
S. Mishra
ACS Nano, 12 (12), 11917-11927 (2018), DOI:10.1021/acsnano.8b07225
![https://carboquant.empa.ch/documents/55905/2875834/SnP+Nanocrystals.jpg/8ff638e9-e725-4c2c-8db4-4a23642c1dd3?t=1541082850000](https://carboquant.empa.ch/documents/55905/2875834/SnP+Nanocrystals.jpg/8ff638e9-e725-4c2c-8db4-4a23642c1dd3?t=1541082850000)
SnP nanocrystals as anode materials for Na-ion batteries
J. Liu, S. Wang, K. Kravchyk, M. Ibáñez, F. Krumeich, R. Widmer, D. Nasiou, M. Meyns, J. Llorca, J. Arbiol, M.V. Kovalenko and A. Cabot
J. Mater. Chem. A, 6, 10958-10966 (2018), DOI: 10.1039/C8TA01492B
![https://carboquant.empa.ch/documents/55905/2875834/Engineering+of+robust+topological+quantum+phases+in+graphene+nanoribbons.jpg/e490a6a3-b21c-4ae1-85be-65b805f6f456?t=1535462647000](https://carboquant.empa.ch/documents/55905/2875834/Engineering+of+robust+topological+quantum+phases+in+graphene+nanoribbons.jpg/e490a6a3-b21c-4ae1-85be-65b805f6f456?t=1535462647000)
Engineering of robust topological quantum phases in graphene nanoribbons
O. Gröning, S. Wang, X. Yao, C. A. Pignedoli, G. Borin Barin, C. Daniels, A. Cupo, V. Meunier, X. Feng, A. Narita, K. Müllen, P. Ruffieux, R. Fasel
Nature 560, 209–213 (2018), DOI:10.1038/s41586-018-0375-9
![https://carboquant.empa.ch/documents/55905/2875834/On+surface+synthesis+of+a+nitrogen+embedded+buckybowl+with+inverse+Stone+Thrower+Wales+topology.jpg/7f3f9f7e-1973-417c-a9f8-5a3552828a89?t=1529402101000](https://carboquant.empa.ch/documents/55905/2875834/On+surface+synthesis+of+a+nitrogen+embedded+buckybowl+with+inverse+Stone+Thrower+Wales+topology.jpg/7f3f9f7e-1973-417c-a9f8-5a3552828a89?t=1529402101000)
On-surface synthesis of a nitrogen-embedded buckybowl with inverse Stone–Thrower–Wales topology
S. Mishra, M. Krzeszewski, C. A. Pignedoli, P. Ruffieux, R. Fasel & D. T. Gryko
Nature Commun. 9, 1714 (2018) DOI:10.1038/s41467-018-04144-5
![https://carboquant.empa.ch/documents/55905/2875834/Bottom-Up+Synthesis+of+Heteroatom-Doped+Chiral+Graphene+Nanoribbons.jpg/aa54ef94-c274-461e-9a2e-54a24bae9a9e?t=1535463202000](https://carboquant.empa.ch/documents/55905/2875834/Bottom-Up+Synthesis+of+Heteroatom-Doped+Chiral+Graphene+Nanoribbons.jpg/aa54ef94-c274-461e-9a2e-54a24bae9a9e?t=1535463202000)
Bottom-Up Synthesis of Heteroatom-Doped Chiral Graphene Nanoribbons
X.-Y. Wang, J. I. Urgel, G. Borin Barin, K. Eimre, M. Di Giovannantonio, A. Milani, M. Tommasini, C. A. Pignedoli, P. Ruffieux, X. Feng, R. Fasel, K. Müllen, A. Narita
J. Am. Chem. Soc. 140 (29), 9104–9107 (2018). DOI: 10.1021/jacs.8b06210
![https://carboquant.empa.ch/documents/55905/2875834/mpact+of+interlayer+application+on+band+bending+for+improved+electron+extraction+for+efficient+flexible+perovskite+mini+modules.jpg/7c464998-de0a-48b5-970a-598950d552b9?t=1527155808000](https://carboquant.empa.ch/documents/55905/2875834/mpact+of+interlayer+application+on+band+bending+for+improved+electron+extraction+for+efficient+flexible+perovskite+mini+modules.jpg/7c464998-de0a-48b5-970a-598950d552b9?t=1527155808000)
S. Pisoni, F. Fu, R. Widmer, R. Carron, T. Moser, O. Groening, A. N. Tiwari, S. Buecheler
Nano Energy 49, 300-307 (2018) DOI:10.1016/j.nanoen.2018.04.056
![https://carboquant.empa.ch/documents/55905/2875834/Polypyrenes++High+performance+Cathode+Materials+for+Aluminum+Batteries.jpg/8430e05a-f2cb-4b72-b304-f31afc67928f?t=1526305248000](https://carboquant.empa.ch/documents/55905/2875834/Polypyrenes++High+performance+Cathode+Materials+for+Aluminum+Batteries.jpg/8430e05a-f2cb-4b72-b304-f31afc67928f?t=1526305248000)
Polypyrenes as High‐Performance Cathode Materials for Aluminum Batteries
M. Walter, K. V. Kravchyk, C. Böfer, R. Widmer, M, V. Kovalenko
Advanced Materials 30, 1705644 (2018) DOI:10.1002/adma.201705644
![https://carboquant.empa.ch/documents/55905/2875834/Action+spectra.jpg/612ace14-3081-4898-a372-967ff39d48fd?t=1537277548000](https://carboquant.empa.ch/documents/55905/2875834/Action+spectra.jpg/612ace14-3081-4898-a372-967ff39d48fd?t=1537277548000)
H. Ueba, D. Passerone, M. Parschau, K.H. Ernst
Surface Science (2018) DOI:10.1016/j.susc.2018.06.007
![https://carboquant.empa.ch/documents/55905/2875834/Confined+electron+and+hole+states+in+semiconducting+carbon+nanotube+sub+10%E2%80%AFnm+artificial+quantum+dots.jpg/8d3f3e2a-e84e-49e1-bdf0-9c598a5c5a01?t=1523524814000](https://carboquant.empa.ch/documents/55905/2875834/Confined+electron+and+hole+states+in+semiconducting+carbon+nanotube+sub+10%E2%80%AFnm+artificial+quantum+dots.jpg/8d3f3e2a-e84e-49e1-bdf0-9c598a5c5a01?t=1523524814000)
G. Buchs, D. Bercioux, L. Mayrhofer, O. Gröning
Carbon 132 , 304-311 (2018) DOI:10.1016/j.carbon.2018.02.031
![https://carboquant.empa.ch/documents/55905/2875834/On+surface+synthesis+of+indenofluorene+polymers+by+oxidative+five+membered+ring+formation.jpg/66e1ab7a-f9da-47cb-b742-21bd5253e959?t=1519819282000](https://carboquant.empa.ch/documents/55905/2875834/On+surface+synthesis+of+indenofluorene+polymers+by+oxidative+five+membered+ring+formation.jpg/66e1ab7a-f9da-47cb-b742-21bd5253e959?t=1519819282000)
On-surface synthesis of indenofluorene polymers by oxidative five-membered ring formation
M. Di Giovannantonio, J. I. Urgel, U. Beser, A. Yakutovich, J. Wilhelm, C. A. Pignedoli, P. Ruffieux, A. Narita, K. Müllen, R. Fasel
J. Am. Chem. Soc., 140 (10), 3532–3536 (2018) DOI: 10.1021/jacs.8b00587
![https://carboquant.empa.ch/documents/55905/2875834/Reversibility+and+intermediate+steps+as+key+tools+for+the+growth+of+extended+ordered+polymers+via+on+surface+synthesis.jpg/538f1813-90f3-4eab-9c88-8450e1dfdf4d?t=1519805866000](https://carboquant.empa.ch/documents/55905/2875834/Reversibility+and+intermediate+steps+as+key+tools+for+the+growth+of+extended+ordered+polymers+via+on+surface+synthesis.jpg/538f1813-90f3-4eab-9c88-8450e1dfdf4d?t=1519805866000)
M. Di Giovannantonio, G. Contini
J. Phys.: Condens. Matter 30, 093001 (2018) DOI:10.1088/1361-648X/aaa8cb
![https://carboquant.empa.ch/documents/55905/2875834/Oxidized+Co-Sn+Nanoparticles+as+Long-Lasting+Anode+Materials+for+Lithium-Ion+Batteries.jpg/994bd1a0-18f8-43d2-a8e8-5e640078fe2e?t=1517476067000](https://carboquant.empa.ch/documents/55905/2875834/Oxidized+Co-Sn+Nanoparticles+as+Long-Lasting+Anode+Materials+for+Lithium-Ion+Batteries.jpg/994bd1a0-18f8-43d2-a8e8-5e640078fe2e?t=1517476067000)
Oxidized Co-Sn Nanoparticles as Long-Lasting Anode Materials for Lithium-Ion Batteries
M. Walter, S. Doswald, F. Krumeich, M. He, R. Widmer, N. Stadie, M. Kovalenko
Nanoscale 10, 3777-3783 (2018) DOI:10.1039/C7NR07309G
![https://carboquant.empa.ch/documents/55905/2875834/Hidden+Beneath+the+Surface+Origin+of+the+Observed+Enantioselective+Adsorption+on+PdGa+111.jpg/db10f142-65ed-462e-8f6e-2e0e5f4c9122?t=1517296687000](https://carboquant.empa.ch/documents/55905/2875834/Hidden+Beneath+the+Surface+Origin+of+the+Observed+Enantioselective+Adsorption+on+PdGa+111.jpg/db10f142-65ed-462e-8f6e-2e0e5f4c9122?t=1517296687000)
Hidden Beneath the Surface: Origin of the Observed Enantioselective Adsorption on PdGa(111)
A. V. Yakutovich, J. Hoja, D. Passerone, Alexandre Tkatchenko, C. A. Pignedoli
J. Am. Chem. Soc., 140, 1401-1408 (2018) DOI: 10.1021/jacs.7b10980
![https://carboquant.empa.ch/documents/55905/2875834/Toward+GW+Calculations+on+Thousands+of+Atoms.jpg/808cd1cf-1be7-4ae0-8737-8d0109e9b247?t=1515486255000](https://carboquant.empa.ch/documents/55905/2875834/Toward+GW+Calculations+on+Thousands+of+Atoms.jpg/808cd1cf-1be7-4ae0-8737-8d0109e9b247?t=1515486255000)
Toward GW Calculations on Thousands of Atoms
J. Wilhelm, D. Golze, L. Talirz, J. Hutter, C. A. Pignedoli
J. Phys. Chem. Lett. 9, 306–312 (2018) DOI:10.1021/acs.jpclett.7b02740
![https://carboquant.empa.ch/documents/55905/2875834/Electronic+characterization+of+silicon+intercalated+chevron+graphene+nanoribbons+on+Au%28111%29.jpg/8101133a-d30a-4ea3-b52f-da8e3203b3be?t=1515486638000](https://carboquant.empa.ch/documents/55905/2875834/Electronic+characterization+of+silicon+intercalated+chevron+graphene+nanoribbons+on+Au%28111%29.jpg/8101133a-d30a-4ea3-b52f-da8e3203b3be?t=1515486638000)
Electronic characterization of silicon intercalated chevron graphene nanoribbons on Au(111)
O. Deniz, C. Sanchez Sanchez, R. Jaafar, N. Kharche, L. Liang, V. Meunier, X. Feng, K. Muellen, R. Fasel and P. Ruffieux
Chem. Commun., 54, 1619-1622 (2018) DOI:10.1039/C7CC08353J
![https://carboquant.empa.ch/documents/55905/2875834/Stair+rod.jpg/6b0e5f57-5598-43ef-b7d9-7a86e66e285c?t=1537277646000](https://carboquant.empa.ch/documents/55905/2875834/Stair+rod.jpg/6b0e5f57-5598-43ef-b7d9-7a86e66e285c?t=1537277646000)
Stair-rod dislocation cores acting as one-dimensional charge channels in GaAs nanowires
N. Bologna, P. Agrawal, M. Campanini, M. Knödler, M.D. Rossell, R. Erni and D. Passerone
Phys. Rev. Materials 2(1), 014603 (6pp.) (2018) DOI:10.1103/PhysRevMaterials.2.014603
![https://carboquant.empa.ch/documents/55905/970347/On+Surface+Growth+Dynamics+of+Graphene+Nanoribbons+The+Role+of+Halogen+Functionalization.jpg/e5a89a09-c487-49bd-93e7-7e815762db00?t=1513781838000](https://carboquant.empa.ch/documents/55905/970347/On+Surface+Growth+Dynamics+of+Graphene+Nanoribbons+The+Role+of+Halogen+Functionalization.jpg/e5a89a09-c487-49bd-93e7-7e815762db00?t=1513781838000)
On-Surface Growth Dynamics of Graphene Nanoribbons: The Role of Halogen Functionalization
M. Di Giovannantonio, O. Deniz, J. I. Urgel, R. Widmer, T. Dienel, S. Stolz, C. Sánchez-Sánchez, M. Muntwiler, T. Dumslaff, R. Berger, A. Narita, X. Feng, K. Müllen, P. Ruffieux, R. Fasel
ACS Nano 12, 74-81 (2018) DOI:10.1021/acsnano.7b07077