A reusable electrochemical proximity assay for highly selective, real-time protein quantitation in biological matrices J Hu, Y Yu, JC Brooks, LA Godwin, S Somasundaram, F Torabinejad, ... Journal of the American Chemical Society 136 (23), 8467-8474, 2014 | 121 | 2014 |
A nucleic acid nanostructure built through on-electrode ligation for electrochemical detection of a broad range of analytes S Somasundaram, CJ Easley Journal of the American Chemical Society 141 (29), 11721-11726, 2019 | 39 | 2019 |
Analytical solution of amperometric enzymatic reactions based on Homotopy perturbation method A Shanmugarajan, S Alwarappan, S Somasundaram, R Lakshmanan Electrochimica Acta 56 (9), 3345-3352, 2011 | 35 | 2011 |
Understanding signal and background in a thermally resolved, single-branched DNA assay using square wave voltammetry S Somasundaram, MD Holtan, CJ Easley Analytical chemistry 90 (5), 3584-3591, 2018 | 16 | 2018 |
Nonfaradaic current suppression in DNA-based electrochemical assays with a differential potentiostat MD Holtan, S Somasundaram, N Khuda, CJ Easley Analytical chemistry 91 (24), 15833-15839, 2019 | 14 | 2019 |
Electrochemical sensing of the peptide drug exendin-4 using a versatile nucleic acid nanostructure N Khuda, S Somasundaram, CJ Easley ACS sensors 7 (3), 784-789, 2022 | 9 | 2022 |
Ionic Strength and Hybridization Position near Gold Electrodes Can Significantly Improve Kinetics in DNA-Based Electrochemical Sensors N Khuda, S Somasundaram, AB Urgunde, CJ Easley ACS applied materials & interfaces 15 (4), 5019-5027, 2023 | 6 | 2023 |
Differential circuit for background correction in electrochemical measurements CJ Easley, MD Holtan, S Somasundaram US Patent 10,852,274, 2020 | 3 | 2020 |
Differential circuit for background correction in electrochemical measurements CJ Easley, MD Holtan, S Somasundaram US Patent 11,841,341, 2023 | 2 | 2023 |
Thermally resolved molecule assays CJ Easley, J Kim, J Hu, MD Holtan, S Somasundaram, C Shannon US Patent 9,995,680, 2018 | 2 | 2018 |
Surface dynamics study of DNA loop formation using surface plasmon resonance M Arugula, F Yang, S Somasundaram, CJ Easley, C Shannon, ... ECS Transactions 66 (36), 19, 2015 | 2 | 2015 |
Building a nucleic acid nanostructure with DNA-epitope conjugates for a versatile electrochemical protein detection platform A Gurukandure, S Somasundaram, ASN Kurian, N Khuda, CJ Easley | 1 | 2023 |
Building a Nucleic Acid Nanostructure with DNA–Epitope Conjugates for a Versatile Approach to Electrochemical Protein Detection A Gurukandure, S Somasundaram, ASN Kurian, N Khuda, CJ Easley Analytical Chemistry 95 (49), 18122-18129, 2023 | | 2023 |
Dna-based assays S Somasundaram, A Singh, E Inapuri US Patent App. 18/247,196, 2023 | | 2023 |
Assay method for point of care quantification of an immunophilin-binding immunosuppressant drug S Somasundaram, A Singh, E Inapuri, CJ Easley, H Jo US Patent App. 17/616,338, 2023 | | 2023 |
Electrochemical detection nanostructure, systems and uses thereof CJ Easley, S Somasundaram US Patent App. 18/158,466, 2023 | | 2023 |
Electrochemical proximity assay NE KHUDA, AG GEDARA, CJ Easley, S Somasundaram, A Singh, ... US Patent App. 17/789,161, 2023 | | 2023 |
Electrochemical detection nanostructure, systems, and uses thereof CJ Easley, S Somasundaram US Patent 11,560,565, 2023 | | 2023 |
Understanding Changes of Both Faradaic and Nonfaradaic Currents with Temperature in DNA Monolayer-Based Sensors on Gold Electrodes AZMMI Mazumder, A Gurukandure, ASN Kurian, S Somasundaram, ... Electrochemical Society Meeting Abstracts 242, 2272-2272, 2022 | | 2022 |
Electrochemical proximity assay S Somasundaram, KI Ford, NE Khuda, A Gurukandure Gedara, CJ Easley, ... WO Patent App. 2021/138621 A1, 2021 | | 2021 |