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Humboldt-Universität zu Berlin - Mathematisch-Naturwissen­schaft­liche Fakultät - SFB 951 - HIOS

Collaborative Research Centre 951 - CRC 951
Sonderforschungs­bereich 951 - SFB 951

The CRC 951 - Hybrid Inorganic/Organic Systems for Opto-Electronics (HIOS) - is an interdisciplinary effort bringing together scientists with complementary expertise from three universities and two non-university institutions. The goal is the merger of inorganic semiconductors, conjugated organic materials, and metal nanostructures into novel hybrid structures. Elucidating and tailoring the fundamental chemical, electronic, and photonic interactions in these systems will enable us the development of functional elements exhibiting superior opto-electronic functionalities not achievable with any of the individual material classes alone. The CRC 951 was founded in July 2011 and is currently in its third funding period (2019-2023).

Learn more about the interesting concepts and ideas of HIOS in our clip.
HIOS MOVIE

+++ Student assistant position available+++


Current Events
18.10.2019
HIOS Kick-off Meeting

HIOS Kick-off Meeting for the third funding period

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Time: Friday, 18.10.2019, 4 pm

Location:Erwin-Schrödinger-Zentrum,
Rudower Chaussee 26,
Room 0‘119


24.10.2019
Symposium „IRIS 2019“

*IRIS 2019* focuses on the further development of IRIS Adlershof including the topics, 2D-based Heterostructures, Data Science, Energy Conversion, Emerging Fields

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Time: Thursday, 24.10.2019, 9:00 - 19:30

Location: Erwin-Schrödinger-Zentrum,
Rudower Chaussee 26,
Room 0‘119

More Information.


07.11.2019
Special Colloquium
Wolfgang Knoll

Wolfgang Knoll

AIT Austrian Institute of Technology, Vienna, Austria
Center for Electrochemical and Surface Technologies, Wiener Neustadt, Austria

Sensing Smells

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Time: Thursday, 07.11.2019, 15:15

Location: IRIS Adlershof,
Zum Großen Windkanal 6,
Room 007

Abstract/Announcement

Coaching Workshops
13.11.-14.11.2019
Academic and Scientific Writing in English

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More Information.


View all CRC 951 Events

 

Recent Research Highlights
Demonstration of the key substrate-dependent charge transfer mechanisms between monolayer MoS2 and molecular dopants

 

The authors of this CRC 951 research highlight demonstrate that the charge transfer (CT) mechanism between two-dimensional transition metal dichalcogenide (TMDC) semiconductors and molecular dopant depends critically on the electrical nature of the substrate as well as its electronic coupling with the TMDC.

 

S. Park, et al.

Communications Physics 2, 109 (2019)

DOI: 10.1038/s42005-019-0212-y


Gap states induce soft Fermi level pinning upon charge transfer at ZnO/molecular acceptor interfaces

 

The authors of this CRC 951 research highlight elucidate the origin of limited upward band bending by revealing a notable gap state density-of-states (GDOS)
using high-sensitivity photoemission spectros­copy. Upon acceptor-induced upward band bending, the GDOS with a wide energy distribution becomes increasingly unoccupied.

 

R. Schlesinger, et al.

Phys. Rev. Materials 3, 074601 (2019)

DOI: 10.1103/PhysRevMaterials.­3.074601


Unraveling the electronic properties of lead halide perovskites with surface photovoltage in photoemission studies

 

The authors of this CRC 951 research highlight demonstrate that the surface photovoltage (SPV) is a key phenomenon occurring at the perovskite surfaces that feature a non-negligible density of surface states, which is more the rule than an exception for most materials understudy.

 

F. Zu, et al.

ACS Appl. Mater. Interfaces 11, 21578 (2019)

DOI: 10.1021/acsami.9b05293


View all CRC 951 Research Highlights


iris-logo

Topically, HIOS is part of the Integrative Research Institute for the Sciences (IRIS Adlershof) where hybrid systems are one of the strategic focal points. IRIS is also supporting the CRC 951 by providing office space and assistance in the organization of scientific events.


Institutions:

FHI-Logo    HZB-Logo    IRIS Logo      Uni Potsdam-Logo    FU Logo    TU Berlin-Logo      HU Berlin-Logo

 

 

Funded by:  DFG Logo