Highly effective separation of semiconducting carbon nanotubes verified via short-channel devices fabricated using dip-pen nanolithography by Park, S, Lee, H, Wang, H, Selvarasah, S, Dokmeci, MR, Park, Y, Cha, S, Kim, J, Bao, Z

“…We have verified a highly effective separation of semiconducting single-walled carbon nanotubes (sc-SWNTs) via statistical analysis of short-channel devices fabricated using multipen dip-pen nanolithography. Our SWNT separation technique utilizes a polymer (rr-P3DDT) that selectively interacts with and disperses sc-SWNTs. …”

Dip-pen patterning of poly(9,9-dioctylfluorene) chain-conformation-based nano-photonic elements by Perevedentsev, A, Sonnefraud, Y, Belton, CR, Sharma, S, Cass, AEG, Maier, SA, Kim, J-S, Stavrinou, PN, Bradley, DDC

“…In particular, we demonstrate that a novel form of dip-pen nanolithography provides an effective means to pattern the so-called β-phase conformation in poly(9,9-dioctylfluorene) thin films. …”

Biomimetic phospholipid membrane organization on graphene and graphene oxide surfaces: A molecular dynamics simulation study by Willems, N, Urtizberea, A, Verre, A, Iliut, M, Lelimousin, M, Hirtz, M, Vijayaraghavan, A, Sansom, M

“…Supported phospholipid membrane patches stabilized on graphene surfaces have shown potential in sensor device functionalization, including biosensors and biocatalysis. Lipid dip-pen nanolithography (L-DPN) is a method useful in generating supported membrane structures that maintain lipid functionality, such as exhibiting specific interactions with protein molecules. …”