Robert M Jacobberger
Overview
Explore the profile of Robert M Jacobberger including associated specialties, affiliations and a list of published articles.
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Articles
23
Citations
182
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Recent Articles
1.
Moisanu C, Jacobberger R, Skala L, Stern C, Wasielewski M, Dichtel W
J Am Chem Soc
. 2023 Aug;
145(33):18447-18454.
PMID: 37552123
Molecular electronic spin qubits have great potential for use in quantum information science applications because their structure can be rationally tuned using synthetic chemistry. Their integration into a new class...
2.
Williams M, Schlesinger I, Jacobberger R, Wasielewski M
J Am Chem Soc
. 2022 Sep;
144(40):18607-18618.
PMID: 36178390
Ultrafast triplet formation in donor-acceptor (D-A) systems typically occurs by spin-orbit charge-transfer intersystem crossing (SOCT-ISC), which requires a significant orbital angular momentum change and is thus usually observed when the...
3.
Way A, Jacobberger R, Guisinger N, Saraswat V, Zheng X, Suresh A, et al.
Nat Commun
. 2022 May;
13(1):2992.
PMID: 35637229
Semiconducting graphene nanoribbons are promising materials for nanoelectronics but are held back by synthesis challenges. Here we report that molecular-scale carbon seeds can be exploited to initiate the chemical vapor...
4.
Jacobberger R, Qiu Y, Williams M, Krzyaniak M, Wasielewski M
J Am Chem Soc
. 2022 Jan;
144(5):2276-2283.
PMID: 35099963
Multiexciton quintet states, (TT), photogenerated in organic semiconductors using singlet fission (SF), consist of four quantum entangled spins, promising to enable new applications in quantum information science. However, the factors...
5.
Jinkins K, Foradori S, Saraswat V, Jacobberger R, Dwyer J, Gopalan P, et al.
Sci Adv
. 2021 Sep;
7(37):eabh0640.
PMID: 34516885
Semiconducting carbon nanotubes promise faster performance and lower power consumption than Si in field-effect transistors (FETs) if they can be aligned in dense arrays. Here, we demonstrate that nanotubes collected...
6.
Saraswat V, Jacobberger R, Arnold M
ACS Nano
. 2021 Apr;
15(5):9194.
PMID: 33877798
No abstract available.
7.
Saraswat V, Jacobberger R, Arnold M
ACS Nano
. 2021 Mar;
15(3):3674-3708.
PMID: 33656860
Graphene nanoribbons (GNRs) have recently emerged as promising candidates for channel materials in future nanoelectronic devices due to their exceptional electronic, thermal, and mechanical properties and chemical inertness. However, the...
8.
Fortin-Deschenes M, Zschiesche H, Mentes T, Locatelli A, Jacobberger R, Genuzio F, et al.
Nano Lett
. 2020 Oct;
20(11):8258-8266.
PMID: 33026227
With their ns2 np3 valence electronic configuration, pnictogens are the only system to crystallize in layered van der Waals (vdW) and quasi-vdW structures throughout the group. Light pnictogens crystallize in...
9.
Jacobberger R, Thapar V, Wu G, Chang T, Saraswat V, Way A, et al.
Nat Commun
. 2020 Aug;
11(1):4151.
PMID: 32814775
Directed self-assembly of block copolymers (BCPs) enables nanofabrication at sub-10 nm dimensions, beyond the resolution of conventional lithography. However, directing the position, orientation, and long-range lateral order of BCP domains...
10.
Way A, Murray E, Goltl F, Saraswat V, Jacobberger R, Mavrikakis M, et al.
J Phys Chem Lett
. 2019 Jul;
10(15):4266-4272.
PMID: 31287706
At widths below 10 nm, armchair graphene nanoribbons become semiconductors. One promising route to synthesize nanoribbons is chemical vapor deposition (CVD) of hydrocarbons on Ge(001), and synthesis from seeds reduces...