Center for Bioelectronics and Medical Systems

Teacher

Mr. Harish Chandra Mohanta

Category

Research & Application Center

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Center Name: Center for Bioelectronics and Medical Systems

People

  1. Mr. Harish Chandra Mohanta
  2. Dr. Srikanta Sahu
  3. Mr. Nanda Kishore Ray
  4. Mr. Radha Govind Pradhan
  5. Dr. Chinmayee Dora

                                               

Mr. Harish Chandra Mohanta                                       Dr. Srikanta Sahu     

harishmohanta@cutm.ac.in                                    srikanta.sahu@cutm.ac.in

   Assistant Professor                                                       Assisstant Professor

 

                                                   

Mr. Nanda Kishore Ray                                      Mr. Radha Govind Pradhan 

nandakishore@cutm.ac.in                              radhagovind.pradhan@cutm.ac.in

Assistant Professor                                                    Lecturer    

 

        Dr. Chinmayee Dor

        chinmayee@cutm.ac.in

         Assistant Professor

Focus areas

  1. Insulin Pump Prototype Design.
  2. Soil Moisture Sensor Development.
  3. Fluorescence-based dual-purpose turn on probes for early detection of Cancer: targeting to pH, ROS/RNS, and GSH; and their potential applications in tumor surgery  
  4. Certification Course on IoT and Sensors.

Outcomes

  1. Journal Publications.
  2. Research Proposal Submission.
  3. Patent.
  4. Product.

Completed Projects / Products / Assignments

  1. PSoC implementation of Insulin Pump Prototype
  2. CATIA design of Insulin Pump Prototype

Work progress

Ongoing Projects / Products / Assignments

  1. Insulin Pump Prototype Design.
  2. Soil Moisture Sensor Development.
  3. Fluorescence-based dual-purpose turn on probes for early detection of Cancer: targeting to pH, ROS/RNS, and GSH; and their potential applications in tumor surgery  
  4. IoT and Sensors

Center Patents/ Design Patents/ Copyrights

Patent Published:

  1. Chemical Fluorescent Probes For Detecting Bio-Film (EP-patent, Patent No: EP 3 286 200 B1, accepted)
  2. Chemical Fluorescent Probes For Detecting Bio-Films (US-patent, Patent No: US10, 416, 153, B2, accepted).

Patent Filed:

  1. A Chemical Fluorescent Probe for the Detection of Aβ Oligomers (ETPL Ref: SBIC/P/08713/00/SG, ILO Ref: 14376N, filed on 3 Nov 2014).
  2. Compounds for The Diagnosis Or Treatment Of Disorders Associated With Protein Or Peptide Oligomers (Ref No: SBIC/P/08713/02/US, Patent Application No: 15/523,999)

Publications

  1. Kim, B.; Fukuda, M.; Lee, J. Y.; Su, D.; Sahu, S.; Silvin, A.; Khoo, A. T. T.; Kwon, T.; Liu, X.; Chi, W.; Liu, X.; Choi, S.; Wan, D. S. Y.; Park, S. J.; Kim, J. S.; Ginhoux, F.; Je, H. S.*; Chang, Y. T.* Visualizing Microglia with a Fluorescence Turn-On Ugt1a7c Substrate, Angew. Chem. Int. Ed. Engl. 2019, 58 (24), 7972-7976. (DOI: 10.1002/ange.201903058).
  2.  Lee, Y-A.; Kim, J-J.; Lee, J.; Lee, J. H. J.; Sahu, S.; Kwon, H-Y.; Park, S-J.; Jang, S-Y.; Lee, J-S.; Wang, Z.; Tam, W. L.; Lim, B.; Kang, N-Y.; Chang, Y-T.; Identification of Tumor Initiating Cells by a Small Molecule Fluorescent Probe through Vimentin as the Biomarker, Angew. Chem. Int. Ed.2018, 130 (11), 2901-2904.   (DOI: 10.1002/ange.201712920).
  3. Kim, J-Y.; Sahu, S.; Yau, Y-H.; Wang, Xu.; Shochat, S. G.; Nielsen, P. H.; Dueholm, M. S.; Otzene. D. E.; Lee, J.; Santillan, S. M. M.; Joey, Y. K. H.; Kang, N-Y.; Park, S-J.; Kwon, H.; Seviour, T.; Yang, L.; Givskov, M. C.; Chang, Y-T. Detection of pathogenic biofilms with bacterial amyloid targeting fluorescent probe, CDy11, J. Am. Chem. Soc.2016, 138 (1), 402-407. (DOI: 10.1021/jacs.5b11357).
  4. Teoh, C. L.; Su, D.; Sahu, S.; Yun, S-W.; Prelli, F.; Wisniewski, T.; Chang, Y-T. A Chemical Fluorescent Probe for the Detection of Aβ Oligomers, J. Am. Chem. Soc. 2015, 137 (42), 13503–13509. (DOI: 10.1021/jacs.5b06190).
  5. Chandran, Y.; Kang, N-Y.; Park, S-J.; Alamudi, S. H.; Kim, J-Y.; Sahu, S.; Su, D.; Lee, J.; Vendrell, M.; Chang, Y-T. A highly selective fluorescent probe for direct detection and isolation of mouse embryonic stem cells, Bioorganic & Medicinal Chemistry Letter, 2015, 25 (21), 4862-4865. (DOI: 10.1016/j.bmcl.2015.06.037).
  6. Sander, V.; Patke, S.; Sahu, S .; Teoh, C. L.; Peng, Z.; Chang, Y-T.; Davidson, A. J.; The small molecule probe PT-Yellow labels the renal proximal tubules in zebrafish, Chem. Commun. 2015, 51 (2), 395-398. (DOI: 10.1039/C4CC08075K).
  7. Su, D.; Teoh, C. L.; Kang, N-Y.; Yu, X.; Sahu, S.; Chang, Y-T, Synthesis and Systematic Evaluation of Dark Resonance Energy Transfer (DRET)-based Library and Its Application in Cell Imaging, Chem. Asian J. 2015, 10 (3), 581-585. (DOI: 10.1002/asia.201403257).
  8. Su, D.; Oh, J.; Lee, S. C.; Lim, J. M.; Sahu, S.; Yu, X.; Kim, D.; Chang, Y. T. Dark to Light! A New Strategy for Large Stokes Shift Dyes: Coupling of Dark Donor with Tunable High Quantum Yield Acceptors, Chemical Science. 2014, 5 (12), 4812-4818. (DOI: 10.1039/C4SC01821D).
  9. Su, D.; Teoh, C. L.; Sahu, S.; Das, R.K.; Chang, Y. T. Turn-on FRET-based BODIPY probe for biothiols and its application in live cells imaging, Biomaterials. 2014, 35 (23), 6078-6085. (DOI: 10.1016/j.biomaterials.2014.04.035).
  10. Haridas, V.; Sahu, S.; Praveen, P. P.; Sapala, A. R. Triazole: a new motif for anion Recognition, RSC Adv. 2012, 2 (33), 12594-12605. (DOI: 10.1039/C2RA21497K).
  11. Haridas, V.; Sahu, S.; Sapala, A. R. Hierarchical organization from self-assembling disulfide macrocycles, Chem. Commun. 2012, 48 (32), 3821-3823. (DOI: 10.1039/C2CC30337J).
  12. Haridas, V.; Sahu, S.; Praveen, P. P. Triazole-based chromogenic and non-chromogenic receptors for halides Tetrahedron Lett. 2011, 52 (51), 6930-6934. (DOI: 10.1016/j.tetlet.2011.10.066).
  13. Haridas, V.; Sahu, S.; Venugopalan, P. Halide binding and self-assembling behavior of triazole-based acyclic and cyclic molecules, Tetrahedron. 2011, 67 (4), 727-733. (DOI: 10.1016/j.tet.2010.11.078).
  14. Haridas, V.; Sharma, Y. K.; Sahu, S.; Verma, R. P.; Sadanandan, S.; Kacheshwar, B. G. Designer peptide dendrimers using click reaction, Tetrahedron. 2011, 67 (10), 1873-1884. (DOI: 10.1016/j.tet.2011.01.023).
  15. Haridas, V.; Sharma, Y. K.; Creasey, R.; Sahu, S.; Gibson, C. T.; Voelcker, N. H. Gelation and topochemical polymerization of peptide dendrimers, New J. Chem. 2011, 35 (2), 303-309. (DOI:
    10.1039/C0NJ00544D).
  16. H. C. Mohanta, and R. Das, “Design of a microstrip slot antenna”, IJONS Journal, vol. 10, issue 10, issue 60, pp. 23393-23396, Jun 23393-23396, Jun 2020.
  17.  R. Das, and H. C. Mohanta, “A study of microwave filter”, IJONS Journal, vol. 10, issue 10, issue 60, pp.  23397-23405, Jun 2020.
  18. R. Das, and H. C. Mohanta, “Design of a flower shaped dipole antenna”, IJONS Journal, vol. 10, issue 10, issue 60, pp. 23393-23396, Jun 2020.
  19. R. Das, H. C. Mohanta, and T. Mohapatra, “Design of a meander line broadband small antenna”, IJONS Journal, vol. 10, issue 60, pp. 23393-23396, Jun 2020.
  20. R. Das, and H. C. Mohanta, “Tunable metamaterial antenna”, IJONS Journal, vol. 10, issue 10, issue 60, pp. 23393-23396, Jun 22742-22745, Jun 2020.
  21.  H. C. Mohanta, “Analog Electronics Circuit Simulation in Dymola”, IJONS Journal, vol.10, issue 60, pp. 22720-22726, Jun 2020.
  22. H. C. Mohanta, and S. Dalal, “ A study of computer of computer graphic image animation technique”, IJONS Journal, vol.10, issue 60, 23389-23392, Jun 2020.
  23. H. C. Mohanta, Abbas Z. Kouzani, and S. K. Mandal, “ Compact frequency reconfigurable metasurface antenna, IJONS Journal, vol. 10, issue 59, pp. 18352-18359, Apr 2020.
  24.  H. C. Mohanta, and R. Das, “Accurate vehicle number plate identification using Raspberry Pi”, IJONS Journal, vol. 10, issue 59, pp. 18488-18497, Mar 2020.
  25.  H. C. Mohanta, Abbas Z. Kouzani, and S. K. Mandal, “Reconfigurable antennas and their applications”, Universal Journal of Electronic and Electrical Engineering Journal, vol.6, issue 4, Sep 2019.
  26. G. Mohanta, and H. C. Mohanta, “Image compression using different vector quantization algorithms and its comparison”, IJITEE journal, vol. 8, issue 9, Jul 2019.
  27. H. C. Mohanta, “Design of an improved absorbing structure using jerusalem cross slot”, JETIR journal, vol. 6, issue 6, Jun 2019.
  28. H. C. Mohanta, S. Pradhan, R. Das, and D. K. Barik, “Design of a circular patch antenna for wireless body area network application”, JETIR journal, vol. 6, issue 6, Jun 2019.
  29. H. C. Mohanta, “Metasurface based frequency and polarization reconfigurable antenna”, FJEC journal, vol. 20, issue 1, Apr 2019.
  30. H. C. Mohanta, S. K. Mandal, “Frequency reconfigurable antenna using metasurface of rectangular loop unit cells”, IJESM journal, vol. 6, pp. 766-773, Dec. 2017.
  31. S. Satapathy, H. C. Mohanta, “Contrastive parametric analysis of rectangular and circular microstrip patch antenna”, IJRIAS journal,vol. 2, Mar. 2017.
  32. S. R. Nayak, S. Aman, H. C. Mohanta, “Design and implementation of real time video image edge detection system using myrio”, IJAREEIE journal,vol. 5, Mar. 2016.
  33. H. C. Mohanta, R. K. Mahapatra, J. Muduli, “Antitheft mechanism system with accidental avoidance and cabin safety system for automobiles”, IRJES Journal, vol. 3, pp. 56-62, Apr. 2014.
  34. R. Das, and H. C. Mohanta, “Design of a rectangular microstrip patch antenna using resonant circuit approach”, TEST Engineering and Management Journal, Accepted, vol. 83, Jun 2020.
  35.  Nanda Kishore Ray, " Transformer less Railway Traction Drive using Cascaded Multilevel Converter ," in Indian Journal of Natural Sciences, vol. 7, no. 60, pp. 825-831, June. 2020.
  36. Nanda Kishore Ray, " Hybrid Cascaded Modular Multi Level Inverter for a PV Powered Water Pumping System," in Indian Journal of Natural Sciences, vol. 7, no. 60, pp. 815-820, June. 2020.
  37. Nanda Kishore Ray, " Transformer E-Type Asymmetric Multilevel Inverter Based Transformer less Traction Drive," in International Journal of Innovative Technology and Exploring Engineering, vol. 8, no. 10, pp. 2579-2589, Aug. 2019.
  38. Nanda Kishore Ray, " Novel Method of Phase & Frequency Extraction during Grid Abnormalities," in International Journal of Engineering Technology Science and Research, vol. 5, no. 1, pp. 1025-1034, Jan. 2018[5]     Nanda Kishore Ray, " Power System Stability Improvement Using Differential Evolution Algorithm based Controller for STATCOM," in International Journal of Scientific and Research Publications, vol. 2, no. 12, pp. 620-626, Dec. 2012.
  39. Dora C, Biswal PK., “Engineering approaches for ECG artifact removal from EEG: A Review ”, J. Biomedical Engineering and Technology, Vol. 32, No. 4, 2020, Pages 351-383.
  40. Dora C, Biswal PK., “Efficient detection and correction of variable strength ECG artifact from single channel EEG”. Biomedical Signal Processing and Control, Elsevier, 2019 Apr 1; Vol. 50, Pages 168-177.
  41. Dora C, Biswal PK., “An improved algorithm for efficient ocular artifact suppression from frontal EEG electrodes using VMD”. Biocybernetics and Biomedical Engineering, Elsevier, 2019 Apr 27, 0208-5216.
  42. Dora C, Biswal PK., “Correlation-based ECG artifact correction from single channel EEG using modified variational mode decomposition ". Computer Methods & Programs in Biomedicine, Elsevier, 2020 Jan 1;183-105092.
  43. Dora C, Patro R N, Rout S. K., Biswal PK., Biswal B., “Adaptive SSA based muscle artifact removal from single-channel EEG using neural network regressor” , Innovation and Research in BioMedical engineering, 2020, ISSN 1959-0318.
  44. Dora C, Biswal PK., “Robust ECG artifact removal from EEG using continuous wavelet transformation and linear regression”. In 2016 International Conference on Signal Processing and Communications (SPCOM), IISc Bangalore 2016 Jun 12 (pp. 1-5). IEEE.
  45. Dora C, Biswal PK., “Automated detection of non-physiological artifacts in polysomnographic EEG using conventional signal processing techniques”. In TENCON 2017-IEEE Region 10 Conference, Penang, Malaysia, 2017 Nov 5 (pp. 1568-1572). IEEE.
  46. Dora C, Biswal PK., “An ELM based regression model for ECG artifact minimization from single channel EEG”. In International Conference on Intelligent Data Engineering and Automated Learning, Madrid, Spain, 2018 Nov 21 (pp. 269-276). Springer, Cham.
  47. SK Baliarsingh, Dora C, S Vipsita, “Jaya Optimized Extreme Learning Machine for Breast Cancer Data Classification”, In Intelligent and Cloud Computing, pp. 459-467. Springer, Singapore, 2019.
  48. Dora C, Biswal PK., “A Frequency Division Based Approach for EMG Artifact Minimization from Single-Channel EEG”, 2019 International Conference on Information Technology (ICIT), IIIT-Bhubaneswar, India, 2019, pp. 196-200.

Industry Partners

  1. SunMoksha Power Pvt. Ltd., Bangalore, Karnataka, India.

https://sunmoksha.com/

Skill Courses

  1. IoT
  2. PCB Design
  3. Embedded System Design

Domain Courses

  1. Embedded System Design
  2. Chip Design and Fabrication using VLSI.

Labs

  1. VLSI lab
  2. Bioelectronics lab

                                                                                           

                                 

                         PSoC 6

  Raspberry Pi 3

 

              Arduino Uno

Software Tools Available

  1. HFSS (High-Frequency Structure Simulator).
  2. MATLAB (Matrix Laboratory).
  3. Cadence

Our Main Teachers

Mr. Harish Chandra Mohanta

Assistant Professor, Electronics and Communication Engineering Department, Bhubaneswar Campus, CUTM
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