Synthesis of Covalently Linked Oligo (phenyleneethynylene) Wires Incorporating Dithiafulvene Units: Redox‐Active “H‐Cruciforms”

FP Jørgensen, JF Petersen… - European Journal of …, 2017 - Wiley Online Library
Controlled alignment and self‐assembly of molecular wires is one of the challenges in the
field of molecular electronics. Here, we take an approach by which two oligo …
被引用次数:2 相关文章

[引用][C] Synthesis of covalently linked oligo (phenyleneethynylene) wires incorporating dithiafulvene units: redox-active" H-cruciforms

European Journal of Organic Chemistry, 2017 - chem.ku.dk
Synthesis of covalently linked oligo(phenyleneethynylene) wires incorporating dithiafulvene
units - Technical and administrative staff Topic navigation Content Footer links Start Toggle …

Synthesis of Covalently Linked Oligo (phenyleneethynylene) Wires Incorporating Dithiafulvene Units: Redox‐Active “H‐Cruciforms”

FP Jørgensen, JF Petersen, CL Andersen… - European Journal of …, 2017 - infona.pl
Controlled alignment and self‐assembly of molecular wires is one of the challenges in the
field of molecular electronics. Here, we take an approach by which two oligo …

Synthesis of Covalently Linked Oligo (phenyleneethynylene) Wires Incorporating Dithiafulvene Units: Redox-Active" H-Cruciforms".

FP Jørgensen, JF Petersen… - … Journal of Organic …, 2017 - search.ebscohost.com
Controlled alignment and self-assembly of molecular wires is one of the challenges in the
field of molecular electronics. Here, we take an approach by which two oligo …

Synthesis of Covalently Linked Oligo (phenyleneethynylene) Wires Incorporating Dithiafulvene Units: Redox-Active “H-Cruciforms”

FP Jørgensen, JF Petersen, CL Andersen… - European Journal of …, 2017 - Elsevier
Controlled alignment and self-assembly of molecular wires is one of the challenges in the
field of molecular electronics. Here, we take an approach by which two oligo …