(* = Corresponding author, # = equal contribution, h-index= 14, Google Scholar citations = 1099 (as of 04/24/2020))
[P.22] Karandikar S, Zhang C, Meiyappan A, Barman I, Finck C, Srivastava P, Pandey R*, “Reagent-free and high-throughput assessment of T-cell activation state with diffraction phase microscopy”, Analytical Chemistry, Vol. 91, 2019, pp 3405–3411.
[P.21] Singhal R, Fagnoni J, Thorne D, LeMaire PK, Martinez X, Zhao C, Gupta RK, Uhl D, Scanley E, Broadbridge CC, Manivannan M, Pandey R, “Study of MnO2-graphene oxide nanocomposites for supercapacitor applications”, MRS Advances, Vol. 4, 2019, 777-782.
[P.20] Pandey R*, Zhou R, Bordett R, Hunter C, Glunde K, Barman I, Valdez T, Finck C, “Integration of diffraction phase microscopy and Raman imaging for label-free morpho-molecular assessment of live cells", Journal of Biophotonics, Vol. 12, 2019, e201800291.
[P.19] Huang S#, Pandey R#*, Barman I, Kong J and Dresselhaus M, “Raman enhancement of blood constituent proteins using graphene", ACS Photonics, Vol. 5, 2018, pp. 2978-2982.
[P.18] Pandey R*, Singh S, Zhang C, Horowitz GL, Galindo L, Lue N, Dasari RR and Barman I, “Label-free spectrochemical probe for determination of hemoglobin glycation in clinical blood samples”, Journal of Biophotonics, Vol. 11, 2018, e201700397.
[P.17] Faraz M, Abbasi A, Naqvi F, Khare N, Prasad R, Barman I and Pandey R*, “Polyindole/cadmium sulphide nanocomposite-based turn-on, multi-ion fluorescence sensor for detection of Cr3+, Fe3+ and Sn2+ ions", Sensors and Actuators B: Chemical, Vol. 269, 2018, pp. 195-202.
[P.16] Pandey R, Zhang C, Kang JW, Desai P, Dasari RR and Barman I and Valdez T “Label-free Raman spectroscopy offers accurate differential diagnosis of otitis media with effusion", Journal of Biophotonics, Vol. 11, 2018, e201700259.
[P.15] Pandey R, Paidi SK, Valdez Tulio, Zhang C, Spegazzini N, Dasari RR and Barman I, “Non-invasive monitoring of blood glucose with Raman spectroscopy", Accounts of Chemical Research, Vol. 50 2017, pp. 264–272.
[P.14] Angheloiu OG, Gugiu BG, Ruse C, Pandey R, Dasari RR, Whatling C, “Ticagrelor removal from human blood ", Journal of the American College of Cardiology: Basic to Translational Science, Vol. 2, 2017, pp. 135-145.
[P.13] Aziz N, Pandey R, Faraz M, Barman I and Prasad R, “Leveraging the attributes of mucor hiemalis-derived silver nanoparticles for a synergistic broad-spectrum antimicrobial platform", 2016, Frontiers in Microbiology, Vol. 7, 2016, Article number: 1984.
[P.12] Tripathi DK, Gaur S, Singh S, Singh S, Pandey R, Singh VP, Sharma NC, Prasad SM, Dubey NK, and Chauhan DK, “An overview on manufactured nanoparticles in plants: Uptake, translocation, accumulation and phytotoxicity”, Plant Physiology and Biochemistry, Vol. 110, 2017, pp. 2–12.
[P.11] Prasad R#, Pandey R# and Barman I, “Engineering tailored nanoparticles with microbes: quo vadis?", Wiley Interdisciplinary Reviews: Nanomedicine and Nanobiotechnology, Vol. 8, 2016, pp. 316-330.
[P.10] Pandey R, Paidi SK, Kang JW, Spegazzini N, Dasari RR, Valdez TA and Barman I, “Discerning the differential molecular pathology of proliferative middle ear lesions using Raman spectroscopy", Scientific Reports, Vol. 5, 2015, Article number: 13305.
[P.9] Aziz N, Faraz M, Pandey R, Shakir M, Fatma T, Varma A, Barman I and Prasad R, “Facile algae-derived route to biogenic silver nanoparticles: Synthesis, antibacterial and photocatalytic properties", Langmuir, Vol. 31, 2015, pp. 11605–11612.
[P.8] Valdez TA, Spegazzini N, Pandey R, Longo K, Roehm C, Grindle C, Peterson D and Barman I, “Exploring multi-color reflectance imaging for in vivo monitoring of middle ear pathophysiology", Analytical and Bioanalytical Chemistry, Vol. 407, 2015, pp. 3277–3283 (featured on the cover page).
[P.7] Pandey R, Dingari NC, Spegazzini N, Dasari RR, Horowitz GL and Barman I, “Emerging trends in optical sensing of alternate glycemic markers for diabetes monitoring”, Trends in Analytical Chemistry Vol. 64, 2015, pp. 100–108 (Listed in NIR news, the official newsletter of the international council for near infrared spectroscopy).
[P.6] Valdez TA#, Pandey R#, Spegazzini N, Longo K, Roehm C, Dasari RR and Barman I “Multi-wavelength fluorescence otoscope for video-rate chemical imaging of middle ear pathology”, Analytical Chemistry, Vol. 86, 2014, pp.10454−10460.
[P.5] Spegazzini N, Barman I, Dingari NC, Pandey R, Soares J, Ozaki Y and Dasari RR, “Spectroscopic approach for dynamic bioanalyte tracking with minimal concentration information", Scientific Report, Vol. 4, 2014, Article number: 7013.
[P.4] Pandey R and Umapathy S, “Solvent-induced changes on the polarity of the triplet excited state of 2-chlorothioxanthone: From time-resolved absorption and resonance Raman spectroscopies" Chemical Physics, Vol. 428, 2014, pp. 175180.
[P.3] Pandey R, Rajkumar N and Umapathy S, “Effect of chlorine substitution on triplet state structure of thioxanthone: A time-resolved resonance Raman study" Journal of Raman Spectroscopy, Vol. 44, 2013, pp. 270-276.
[P.2] Pandey R and S. Umapathy, “Simultaneous detection of two triplets: A time-resolved resonance Raman study", Journal of Physical Chemistry A, Vol. 116, 2012, pp. 8484-8489.
[P.1] Pandey R and Umapathy S, “Time-resolved resonance Raman spectroscopic studies on the triplet excited state of thioxanthone", Journal of Physical Chemistry A, Vol. 115, 2011, pp. 7566-7573.