Ravi F Saraf, PhD

Professor, Chemical and Biomolecular Engineering
Lowell E & Betty Anderson Distinguished Professor, Chemical and Biomolecular Engineering
Professor, Nebraska Center for Materials and Nanoscience

Phone402-472-8284

Source: Scopus
Calculated based on no. of publications stored in Pure and citations from Scopus

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2 Finished

High Specificity MicroRNA Microarray Analysis without PCR for Cancer Screening and Research
Saraf, R. F.
National Institutes of Health
9/1/15 → 8/31/17
Project: Research project
Nanodevice for Digital Imaging of Palpable Structure at Human-Finger Resolution f
Saraf, R. F.
National Institutes of Health
2/26/08 → 1/31/12
Project: Research project

2417 Citations
26 h-Index
77 Article
10 Paper
6 Conference article
4 Conference contribution
More
- 4 Comment/debate
- 2 Review article

Corrigendum: Quantitative Electrochemical DNA Microarray on a Monolith Electrode with Ten Attomolar Sensitivity, 100 % Specificity, and Zero Background (ChemElectroChem, (2018), 5, 3, (429-433), 10.1002/celc.201700983)
Raghunath, S., Prasad, A., Tevatia, R., Gunther, J. R., Roy, S., Krishnan, S. & Saraf, R. F., Jan 17 2020, In: ChemElectroChem. 7, 2, p. 500 1 p.
Research output: Contribution to journal › Comment/debate › peer-review

Open Access
Corrigendum to “Heavy metal ion detection on a microspot electrode using an optical electrochemical probe” (Electrochemistry Communications (2018) 86 (94–98), (S1388248117303296), (10.1016/j.elecom.2017.11.021))
Roy, S., Prasad, A., Tevatia, R. & Saraf, R. F., Mar 2020, In: Electrochemistry Communications. 112, 106677.
Research output: Contribution to journal › Comment/debate › peer-review

Open Access
Electrochemical Deposition of Polyelectrolytes Is Maximum at the Potential of Zero Charge
Moore, D., Arcila, J. A. & Saraf, R. F., Mar 3 2020, In: Langmuir. 36, 8, p. 1864-1870 7 p.
Research output: Contribution to journal › Article › peer-review
Erratum: Electrochemical characteristics of DNA modified electrode as a function of percent binding (Analytical Chemistry (2019) 91 (10501-10508) DOI: 10.1021/acs.analchem.9b01416)
Tevatia, R., Prasad, A. & Saraf, R. F., Feb 4 2020, In: Analytical chemistry. 92, 3, p. 2883 1 p.
Research output: Contribution to journal › Comment/debate › peer-review

Open Access
Electrochemical characteristics of a DNA modified electrode as a function of percent binding
Tevatia, R., Prasad, A. & Saraf, R. F., Aug 20 2019, In: Analytical chemistry. 91, 16, p. 10492-10500 9 p.
Research output: Contribution to journal › Article › peer-review

High Specificity MicroRNA Microarray Analysis without PCR for Cancer Screening and Research

Nanodevice for Digital Imaging of Palpable Structure at Human-Finger Resolution f

Corrigendum: Quantitative Electrochemical DNA Microarray on a Monolith Electrode with Ten Attomolar Sensitivity, 100 % Specificity, and Zero Background (ChemElectroChem, (2018), 5, 3, (429-433), 10.1002/celc.201700983)

Corrigendum to “Heavy metal ion detection on a microspot electrode using an optical electrochemical probe” (Electrochemistry Communications (2018) 86 (94–98), (S1388248117303296), (10.1016/j.elecom.2017.11.021))

Electrochemical Deposition of Polyelectrolytes Is Maximum at the Potential of Zero Charge

Erratum: Electrochemical characteristics of DNA modified electrode as a function of percent binding (Analytical Chemistry (2019) 91 (10501-10508) DOI: 10.1021/acs.analchem.9b01416)

Electrochemical characteristics of a DNA modified electrode as a function of percent binding