Van der Waals organic/inorganic heterostructures in the two-dimensional limit

X Xu, Z Lou, S Cheng, PCY Chow, N Koch, HM Cheng - Chem, 2021 - cell.com
Van der Waals organic/inorganic heterostructures in the two-dimensional (2D) limit with
extensive structural tunability will advance the development of artificial solids with tailored …

Organometallic and organic dimers: Moderately air-stable, yet highly reducing, n-dopants

SK Mohapatra, SR Marder… - Accounts of Chemical …, 2022 - ACS Publications
Conspectus Electrical doping using redox-active molecules can increase the conductivity of
organic semiconductors and lower charge-carrier injection and extraction barriers; it has …

Significantly accelerated photochemical and photocatalytic reactions in microdroplets

K Li, K Gong, J Liu, L Ohnoutek, J Ao, Y Liu… - Cell Reports Physical …, 2022 - cell.com
Photochemistry and photocatalysis are promising approaches to derive solar energy for
solving the global energy and environment crisis. However, some practical aspects remain …

Work function and energy level alignment tuning at MXene surfaces and interfaces using (metal-)organic donor/acceptor molecules

T Schultz, P Bärmann, E Longhi, R Meena, Y Geerts… - Physical Review …, 2023 - APS
Two-dimensional MXenes, with Ti 3 C 2 T x being the most prominent member, show
properties that make them promising for a manifold of applications, including electrodes in …

Inorganic–organic interfaces in hybrid solar cells

J Niederhausen, KA Mazzio… - Electronic …, 2021 - iopscience.iop.org
In this review, we present important concepts to describe inorganic–organic interfaces in
hybrid solar cells. We discuss the formation of hybrid interfaces, provide an introduction to …

[HTML][HTML] Opportunities for energy level tuning at inorganic/organic semiconductor interfaces

N Koch - Applied Physics Letters, 2021 - pubs.aip.org
The aim of this Perspective is to provide an overview of approaches that can be employed to
tune the energy level alignment at interfaces between inorganic and organic …

Enhancing the interfacial thermal conductance of Si/PVDF by strengthening atomic couplings

Z Zong, S Deng, Y Qin, X Wan, J Zhan, D Ma, N Yang - Nanoscale, 2023 - pubs.rsc.org
Thermal transport across inorganic/organic interfaces attracts interest from both academia
and industry due to their wide applications in flexible electronics, etc. Here, the interfacial …

Engineering of Printable and Air‐Stable Silver Electrodes with High Work Function using Contact Primer Layer: From Organometallic Interphases to Sharp Interfaces

F Widdascheck, D Bischof… - Advanced Functional …, 2021 - Wiley Online Library
Contact engineering is an important issue for organic electronics as it allows to reduce
charge carrier injection barriers. While the use of molecular contact primer layers to control …

Tuning the Surface Electron Accumulation Layer of In2O3 by Adsorption of Molecular Electron Donors and Acceptors

R Wang, T Schultz, A Papadogianni, E Longhi… - Small, 2023 - Wiley Online Library
Abstract In2O3, an n‐type semiconducting transparent transition metal oxide, possesses a
surface electron accumulation layer (SEAL) resulting from downward surface band bending …

Schottky contact formation by an insulator: lithium fluoride on silicon

S Wan, G Zhang, J Niederhausen, D Wu… - Applied Physics …, 2021 - pubs.aip.org
The low work function material lithium fluoride (LiF) facilitates electron-selective contacts to n-
type silicon and is frequently used in dopant-free heterocontacts for silicon solar cells. Our …