Transition metal-catalysed molecular n-doping of organic semiconductors
Chemical doping is a key process for investigating charge transport in organic
semiconductors and improving certain (opto) electronic devices,,,,,,,–. N (electron)-doping is …
semiconductors and improving certain (opto) electronic devices,,,,,,,–. N (electron)-doping is …
Tunable exciton binding energy in 2D hybrid layered perovskites through donor–acceptor interactions within the organic layer
JV Passarelli, CM Mauck, SW Winslow… - Nature …, 2020 - nature.com
The strength of electrostatic interactions within semiconductors strongly affects their
performance in optoelectronic devices. An important target is the tuning of a material's …
performance in optoelectronic devices. An important target is the tuning of a material's …
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 …
organic semiconductors and lower charge-carrier injection and extraction barriers; it has …
Polymer thermoelectrics: Opportunities and challenges
M Goel, M Thelakkat - Macromolecules, 2020 - ACS Publications
The inherent low thermal conductivity of polymeric materials along with their capability for
nonconventional processability, light weight, and flexibility makes them potential candidates …
nonconventional processability, light weight, and flexibility makes them potential candidates …
Reactivity of an air-stable dihydrobenzoimidazole n-dopant with organic semiconductor molecules
Dimethyl-2-(4-(dimethylamino) phenyl)-2, 4-dihydro-1H-benzoimidazole, N-DMBI-H, is
widely used as an air-stable n-dopant for organic semiconductors. Here, its reactivity is …
widely used as an air-stable n-dopant for organic semiconductors. Here, its reactivity is …
Eco-Friendly Synthesis of Self-Supported N-Doped Sb2S3-Carbon Fibers with High Atom Utilization and Zero Discharge for Commercial Full Lithium-Ion Batteries
H Yin, KS Hui, X Zhao, S Mei, X Lv… - ACS Applied Energy …, 2020 - ACS Publications
Antimony trisulfide (Sb2S3) is a prospective electrode material for lithium-ion batteries (LIBs)
because of its thermal stability, low price, and high specific capacity. However, the …
because of its thermal stability, low price, and high specific capacity. However, the …
Molecular doping efficiency in organic semiconductors: fundamental principle and promotion strategy
Molecular doping, a fascinating technique to modulate the electrical property of organic
solids by importing additional charges, has been one of the focal points of active research …
solids by importing additional charges, has been one of the focal points of active research …
Dissociative Host-Dopant Bonding Facilitates Molecular Doping in Halide Perovskites
Molecular doping is a promising strategy to fine-tune the electronic properties of halide
perovskites and accelerate their implementation in next-generation optoelectronics …
perovskites and accelerate their implementation in next-generation optoelectronics …
Thermally Activated N‐Doping of Organic Semiconductors Achieved by N‐Heterocyclic Carbene Based Dopant
Molecular doping plays an important role in the modification of carrier density of organic
semiconductors thus enhancing their optoelectronic performance. However, efficient n …
semiconductors thus enhancing their optoelectronic performance. However, efficient n …
Highly stable contact doping in organic field effect transistors by dopant‐blockade method
In organic device applications, a high contact resistance between metal electrodes and
organic semiconductors prevents an efficient charge injection and extraction, which …
organic semiconductors prevents an efficient charge injection and extraction, which …