1 to 10 of 18 Results
Jun 23, 2022
Han, Jinfeng; Ganley, Connor; Hu, Qin; Zhao, Xingang; Clancy, Paulette; Russell, Thomas P.; Katz, Howard E., 2022, "Data associated with the publication: Using pre-formed Meisenheimer complexes as dopants for n-type organic thermoelectrics with high Seebeck coefficients and power factors", https://doi.org/10.7281/T1/0JWMF0, Johns Hopkins University Data Archive, V1
The data consists of graphs and spreadsheets showing the spectroscopic, physical, and electronic characterizations of different polymers and dopant structures and concentrations, including dopants present as pre-formed Meisenheimer complexes. The highest level of folders is label... |
Jun 23, 2022
Han, Jinfeng; Chiu, Arlene; Ganley, Connor; McGuiggan, Patty; Thon, Susanna M.; Clancy, Paulette; Katz, Howard E., 2022, "Data associated with the publication: 3,4,5-Trimethoxy substitution on an N-DMBI dopant with new N-type polymers: polymer-dopant matching for improved conductivity-Seebeck coefficient relationship", https://doi.org/10.7281/T1/NT8FQN, Johns Hopkins University Data Archive, V1
The data consists of graphs and spreadsheets showing the spectroscopic, physical, and electronic characterizations of different polymers and dopant structures and concentrations. The highest level of folders is labelled according to the type of device used. Then, subfolders are a... |
Jun 23, 2022
Song, Yunjia; Lamberty, Zachary D.; Liang, Junhao; Pellitero, Miguel Aller.; Wagner, Justine S.; Jumai’an, Eugenie; Bevan, Michael A.; Frechette, Joelle; Currás, Netzahualcóyotl Arroyo; Katz, Howard E., 2022, "Data associated with the publication: Nanoscale boreceptor layers comprising carboxylated polythiophene for organic electrochemical transistor-based biosensors", https://doi.org/10.7281/T1/XGVRX0, Johns Hopkins University Data Archive, V1
From the publication abstract: We investigated the carboxylated conjugated polymer poly 3-(3-carboxypropyl)thiophene-2,5-diyl as a nanosized (200–350 nm) biomolecule receptor layer on the channel of organic electrochemical transistor (OECT) devices. Myelin basic protein, SARS-CoV... |
Jun 17, 2022
Mukhopadhyaya, Tushita; Lee, Taein; Ganley, Connor; Clancy, Paulette; Katz, Howard E., 2022, "Data associated with the publication: Evidence of pre-formed Lewis acid-base and Wheland-type complexes acting as dopants for p-type conjugated polymers", https://doi.org/10.7281/T1/8OFLMF, Johns Hopkins University Data Archive, V1
From the publication abstract: Efficient doping of polymer semiconductors is essential for their development as conductors. Although Lewis acids such as B(C6F5)3have shown promise as dopants for polymers, their doping mechanism is not fully understood. We created 1:1 zwitterionic... |
Jun 14, 2022
Mukhopadhyay, Tushita; Katz, Howard E., 2022, "Data associated with the publication: Trap-dominated nitrogen dioxide and ammonia responses of air-stable p-channel conjugated polymers from detailed bias stress analysis.", https://doi.org/10.7281/T1/ENWXRU, Johns Hopkins University Data Archive, V1
The data consists of graphs and spreadsheets showing the spectroscopic, physical, topographic, and electronic characterizations of different polymers and their electronic responses to bias stress and vapors over time. The folders group the files according to the type of response... |
May 24, 2022
Han, Jinfeng; Tiernan, Emma; Lee, Taein; Chiu, Arlene; McGuiggan, Patricia; Adams, Nicholas; Timko, John A.; Hopkins, Patrick E.; Thon, Susanna M.; Tovar, John D.; Katz, Howard E., 2022, "Data associated with the publication: A new polystyrene-polyvinyl pyridinium ionic copolymer dopant for n-type all-polymer thermoelectrics with high stable conductivity relative to Seebeck coefficient giving high power factor", https://doi.org/10.7281/T1/D3EV75, Johns Hopkins University Data Archive, V1
The data consists of spectroscopic, morphological, electronic, and thermoelectric data for this manuscript, divided according to type of characterization. |
May 24, 2022
Han, Jinfeng; Song, Yunjia; Chen, Nan; Chiu, Arlene; McGuiggan, Patricia; Adams, Nicholas; Thon, Susanna M.; Tovar, John D.; Katz, Howard E., 2022, "Data associated with the publication: A dichlorinated dithienylethene-diketopyrrolopyrrole-based copolymer with pronounced p-n crossover: Evidence for anionic Seebeck contribution", https://doi.org/10.7281/T1/5UEIRG, Johns Hopkins University Data Archive, V1
The data consists of spectroscopic, morphological, electronic, and thermoelectric data for this manuscript, divided according to type of characterization |
Apr 21, 2022
Wagner, Justine; Song, Yunjia; Shapiro, Jenna; Katz, Howard E., 2022, "Data associated with the publication: Oxygen-bearing functionalities enhancing NO2, NH3, and acetone electronic response and response variation by polythiophenes in organic field-effect transistor sensors", https://doi.org/10.7281/T1/PG105Y, Johns Hopkins University Data Archive, V1
The data consists of graphs and spreadsheets showing the device responses for different combinations of receptor polymers and vapors in field-effect transistors. The data are organized according to the types of plots and then according to the analyte vapors. The files are the sou... |
Apr 21, 2022
Wagner, Justine; Song, Yunjia; Lee, Taein; Katz, Howard E., 2022, "Data associated with the publication: The combined influence of polythiophene side chains and electrolyte anions on organic electrochemical transistors", https://doi.org/10.7281/T1/XNZRR8, Johns Hopkins University Data Archive, V1
The data consists of graphs and spreadsheets showing the device response for different combinations of receptor polymers with electrolyte anions in electrochemical transistors. The data are organized according to the manuscript figures that they support. The files are the sources... |
Apr 19, 2022
Song, Yunjia; Wagner, Justine; Katz, Howard E., 2022, "Data associated with the publication: The behavior of carboxylated and hydroxylated polythiophene as bioreceptor layer: anti-human IgG and human IgG interaction detection based on organic electrochemical transistors", https://doi.org/10.7281/T1/L4QB1Z, Johns Hopkins University Data Archive, V1
The data consists of graphs and spreadsheets showing the device responses for different combinations of receptor polymers with anti-IGG receptor in electrochemical transistors. The data are organized according to the manuscript figures that they support. The files are the sources... |
