Publications

2019

  1. B. Philibert, M. Feldman. “Use of cell phone type cameras to enhance focusing and magnification in optical microscopes”. Review of Scientific Instruments 90, 046102 (2019); https://doi.org/10.1063/1.5090116
  2. Maulik, Subhodip & Basu, Srismrita & Kanakamedala, Kalyan & Daniels-Race, Theda. (2019). A Review of Atomic Scale Characterization Techniques of Molybdenum Disulfide (MoS2). Journal of Electronic Materials. 10.1007/s11664-019-07079-9. 

2018

  1. Shah RezKhan, MartinFeldman, Bahadir K.Gunturk. “Extracting sub-exposure images from a single capture through Fourier-based optical modulation”. Signal Processing: Image Communication, vol. 60, February 2018, Pages 107-115.
  2. Maulik, Subhodip & Sarkar, Anirban & Basu, Srismrita & Daniels-Race, Theda. (2018). Voltage-Controlled Spray Deposition of Multiwalled Carbon Nanotubes on Semiconducting and Insulating Substrates. Journal of Electronic Materials. 47. 10.1007/s11664-018-6316-4. 
  3. Maulik, Subhodip & Basu, Srismrita & Hou, Hsuan-Chao & Daniels-Race, Theda. (2018). Voltage-Controlled Deposition of Dispersed Carbon Nanotubes onto a Conducting Substrate Without a Catalyst. Advanced Science, Engineering and Medicine. 10. 564-567. 10.1166/asem.2018.2185. 
  4. Maulik, Subhodip & Basu, Srismrita & Daniels-Race, Theda. (2018). Dispersed Molybdenum Disulfide Deposition onto a Conducting Substrate Using a Voltage Controlled Deposition Technique. Advanced Science, Engineering and Medicine. 10. 1224-1226. 10.1166/asem.2018.2261. 

2017

  1. Basu, Srismrita & Hou, Hsuan-Chao & Biswas, Debsmita & Maulik, Subhodip & Daniels-Race, Theda & Lopez, Mandi & Mathis, J. & Feldman, Martin. (2017). A needle probe to detect surface enhanced Raman scattering (SERS) within solid specimen. Review of Scientific Instruments. 88. 023107. 10.1063/1.4975183. 
  2. Basu, Srismrita & Hou, HsuanChao & Biswas, Debsmita & Daniels-Race, Theda & Lopez, Mandi & Mathis, J. & Feldman, Martin. (2017). Single fiber surface enhanced Raman scattering probe. Journal of Vacuum Science & Technology B, Nanotechnology and Microelectronics: Materials, Processing, Measurement, and Phenomena. 35. 06GF01. 10.1116/1.4990697. 
  3. Basu, Srismrita & Maulik, Subhodip & Hou, Hsuan-Chao & Daniels-Race, Theda & Feldman, Martin. (2017). Surface enhanced Raman spectroscopic substrate utilizing gold nanoparticles on carbon nanotubes. Journal of Applied Physics. 122. 175107. 10.1063/1.4999333.

2016

  1. Maulik, Subhodip & Basu, Srismrita & Daniels-Race, Theda. (2016). Electrospray-assisted carbon nanotube deposition on aluminum without a binding agent. 

2014

  1. Hsuan-Chao Hou, Dooyoung Hah, Jeonghwan Kim, and M. Feldman. “Note: Folded optical system for narrow forward looking probe”. Review of Scientific Instruments 85, 026114 (2014); https://doi.org/10.1063/1.4864149
  2. Houman Habibkhani, Bahadir K. Gunturk, Martin Feldman, and Aziz U. Batur "Frequency division multiplexed imaging: a Texas Instruments DMD implementation", Proc. SPIE 8979, Emerging Digital Micromirror Device Based Systems and Applications VI, 89790H (7 March 2014); https://doi.org/10.1117/12.2040259
  3. Daniels-Race T. (2014). Nanodevices: Fabrication, prospects for low dimensional devices and applications Nanolithography: the Art of Fabricating Nanoelectronic and Nanophotonic Devices and Systems. 399-423. DOI: 10.1533/9780857098757.399 
  4. Sarkar A, Wang H, Daniels-Race T. (2014). Surface enhanced Raman spectroscopy on silver-nanoparticle-coated carbon-nanotube networks fabricated by electrophoretic deposition Electronic Materials Letters. 10: 325-335. DOI: 10.1007/s13391-013-3147-6 
  5. Sarkar A, Kanakamedala K, Rajathadripura MD, Jagadish NN, Magut PKS, de Rooy S, Das S, El-Zahab B, Warner IM, Daniels-Race T. (2014). Electro-optical characterization of nanoGUMBOS Electronic Materials Letters. 10: 775-781. DOI: 10.1007/s13391-013-3284-y 
  6. Sarkar A, Kanakamedala K, Jagadish NN, Jordan A, Das S, Siraj N, Warner IM, Daniels-Race T. (2014). Electro-optical characterization of cyanine-based GUMBOS and nanoGUMBOS Electronic Materials Letters. 10: 879-885. DOI: 10.1007/s13391-014-3347-8 
  7. Kim J, Hah D, Daniels-Race T, Feldman M. (2014). Clinical probe utilizing surface enhanced Raman scattering. Journal of Vacuum Science and Technology. B, Nanotechnology & Microelectronics : Materials, Processing, Measurement, & Phenomena : Jvst B. 32: 06FD02. PMID 25317381 DOI: 10.1116/1.4896479 

2013

  1. Kim J, Kang KN, Sarkar A, Malempati P, Hah D, Daniels-Race T, Feldman M. (2013). Nanorough gold for enhanced Raman scattering. Journal of Vacuum Science and Technology. B, Nanotechnology & Microelectronics : Materials, Processing, Measurement, & Phenomena : Jvst B. 31: 6FE02. PMID 24353928 DOI: 10.1116/1.4826701 

2012

  1. Jolene Zheng, Tance Sonnier, Abhi Vase, Naga Korivi, Pratul Ajmera, Shaun F. Morrison, Daniel J. DiLorenzo, and Frank L. Greenway, “A Less Invasive Surgical Approach for Splanchnic Nerve Stimulation to Treat Obesity,” Obesity Surgery, vol. 22, no. 11, pp 1783-84, 2012. (On line: DOI 10.1007/s11695-012-0697-x )
  2. KyungNam Kang, Yoonyoung Jin, Jeonghwan Kim and Pratul K. Ajmera, “Study on low temperature growth and formation mechanism of hexagonal diamond,” Diamond and Related Materials, Vol. 27-18, pp 76-81, 2012. On-line version July10, 2012: http://dx.doi.org/10.1016/j.diamond.2012.05.011.
  3. D. Hebert, M. Jones, L. Greenup and M. Feldman. Note: Digital optical zoom by selection of polarization. Review of Scientific Instruments 83, 096103 (2012); https://doi.org/10.1063/1.475021

2011

  1. N. S. Korivi and P. K. Ajmera, “Clip-on micro-cuff electrode for neural stimulation and recording,” Sensors and Actuators B: Chemical, doi:10.1016/j.snb.2011.10.007, Ms. Ref. No.: SNB-D-11-01005, Oct. 4, 2011, Volume 160, Issue 1, pp. 1514-1519, December 2011.
  2. N.S. Korivi, and P.K. Ajmera, “Self-closing Cuff Electrode for Functional Neural Stimulation and Recording,” Journal of Medical and Biological Engineering, Vol. 31, No. 5, pp 353-357, Oct. 2011.
  3. Jiang L., Vangari M., Feldman M. “Design Of Electromechanically Driven Transmission Light Valve Arrays.” Journal of Electronic and Electrical Engineering ISSN: 0976–8106 & E-ISSN: 0976–8114, Vol. 2, Issue 2, 2011, pp-37-41.
  4. Daniels-Race T, Thiruvengadam S. (2011). Fluorescence spectroscopy characterization of cadmium sulfide quantum dots on metal, insulator, and semiconductor substrates Microwave and Optical Technology Letters. 53: 1018-1021. DOI: 10.1002/mop.25904

2010

  1. N. S. Korivi and Pratul K. Ajmera, “Equivalent circuit model for a neural interface,” Int. J. of Recent Trends in Engineering and Technology, Vol. 4 No. 3, pp 160-163, (2010 ACEEE, DOI:01.IJRTET 04.03.148), Nov 2010.
  2. N.S. Korivi; J. Hoffpauir; P.K. Ajmera, “Texturing of silicon using a microporous polymer etch mask,” J. Vac. Sci. Technol. B, Vol. 28, No. 6, pp (C6K8-12), Nov/Dec 2010.
  3. Li Jiang & Martin Feldman (2010) A prototype optical encoder system with nanometer measurement capability, Journal of Modern Optics, 57:13, 1150-1156, DOI: 10.1080/09500340.2010.500105
  4. Daniels-Race T, Thiruvengadam S. (2010). Characterization of AOT capped cadmium sulfide quantum dots using fluorescence spectroscopy Microwave and Optical Technology Letters. 52: 912-913. DOI: 10.1002/mop.25087 

 

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