Jeongwon w88 online casino betting

Jeongwon w88 online casino betting

Associate Professor He, him, his

“The best way to predict the future is to invent it”-- Alan Kay (1971) at a 1971 meeting of PARC

Prospective graduate students

We seek motivated undergraduate and graduate students interested in nano-electronics, micro/nanodevice fabrication, flexible hybrid electronics, low-dimensional nanomaterials (1D/2D CNT, graphene, MoS2, etc), semiconductor, wide-bandgap materials, wearable devices and sensors, bio-sensors, energy materials and devices, MEMS/NEMS, and materials science.

Research projects in our nanoelectronics lab are highly multi-disciplinary. They involve the use of cutting-edge electrical/optical technologies to investigate some of the most complex and intriguing topics in materials physics and devices.

To apply for a project in our research group, please send an email tojepark@unr.eduwith the following:

  1. A short description of your interests
  2. An updated CV
  3. A bachelor’s degree transcript and master’s degree transcript for Ph.D. candidates.

Learn more about our graduate programs

Research interests

My specific research interests have been focused on solving challenges on electronics including transistors with nanofabrication processes and materials for 7nm technology node and beyond. While my on-going research activities continue to evolve, my historical research programs can be divided into three focus areas, namely:

  1. Electronic materials research on the latest challenges logic devices and memory devices including process and materials
  2. Novel electronic device applications with nano-scale 2-D materials, nanowires, and QDs
  3. GaN electronics

A summary of these researches follows.

Materials integration and nanofabrication for advanced device applications

I obtained a significant amount of my microfabrication and nanofabrication experience while at Applied Materials and Sun Microsystems. Since I gained that experience, I have been able to leverage both the new skills and my materials & device background to contribute to several advanced device applications. The figure shows challenges of the future nanowire-based devices that I am interested in investigating, which describes the challenges of the gate all around the structure with nanowires transistor array with a nanoscale device. This effort utilized deposition equipment (CVD, PVD, and ALD systems) that are capable of depositing thin films of metals, semiconductors, and insulating materials. These tools allow these thin film materials (metals, semiconductors, and insulators) to be deposited in a combinatorial or layered fashion.

Novel electronic device applications with nano-scale 2-D materials, nanowires, and QDs

Te

GaN electronics

Integral to consumer electronics and many clean energy technologies, power electronics can be found in everything from electric vehicles and industrial motors, to laptop power adaptors and inverters that connect solar panels and wind turbines to the electric grid. For nearly 50 years, silicon chips have been the basis of power electronics. However, as clean energy technologies and the electronics industry has advanced, silicon chips are reaching their limits in power conversion — resulting in wasted heat and higher energy consumption. GaN is a revolutionary technology that will impact two major and distinct applications: high frequency and high power electronics. Through NRC’s GaN Electronics initiative in Canada, this will ensure that GaN technology will create wealth and a greener future for Canadians by establishing a strong industrial GaN manufacturing capability. NRC is the only Canadian foundry for GaN electronics and a global leader in the field. By collaborating with NRC at Ottawa, GaN-based technology will be gained a distinct competitive advantage with having access to the leading national research and technology development facilities, including the Ottawa-based Canadian Photonics Fabrication Centre (CPFC).

Deep learning and wearables for Parkinson’s disease

IoT sensor networks We will also introduce the use of technology to generate quantitative unbiased outcomes related with PD motor symptoms, such as tremor, gait, and falls, or to determine the level of engagement in physical activity in the context of an exercise program for PD. In order to do this, we have assembled a multidisciplinary group of academic researchers which include engineers with expertise in sensors, nanotechnology, mobile devices, computer science specialists, and specialists in understanding PD symptomatology (kinesiologists and PD specialists). These individuals will be supported by industry who will provide additional resources including hardware and software development, and opportunities for commercialization.

Signal process and electrode design for Deep Brain Stimulation

The Deep Brain Stimulation (DBS) for Parkinson’s Disease Project has been researching a way to improve DBS through the development of a novel electrode that can both stimulate and record brain activity within the same device. Currently, recording and stimulation have to be done separately which lengthens the time of the procedure and can lead to discrepancies in the position of the electrode. Both issues increase the risk of complications.

Advancing ultrasound performance through data acquisition: Creating a comprehensive guideline for physicians-in-training

Inexperienced physicians today do not automatically know how to manipulate an ultrasound probe to their advantage. They need instructions and help from other physicians for a period of time before they learn how to properly use an ultrasound device. Therefore the goal would be to find a way to create a guideline/manual (written instructions) to assist physicians in performing an ultrasound.

Sensor development for sensitive detection and identification of airborne chemicals and biological agents

Portable explosive detectors, chemical identifiers and personal radiation detectors (PRD) are now commercially available and can routinely be used in the field for environmental, forensic and material sampling. These devices are based on well-known technologies such as mass spectrometry, patch-chemical reactions, electrochemical sensing, ion-mobility spectrometry, laser-induced fluorescence, acoustic-wave-chemical sensing, and fiber-based optical detection. Although constant progress is being made to improve these techniques, a disruptive sensing technology can improve safety and help counter terrorism by drastically enhancing detection performances in terms of sensitivity, selectivity, response time and repeatability. The main objective of this proposal is to develop and demonstrate a new sensing technology.

Selected publications

Journal Articles (submitted):

  1. The Quantized Nature of Arc-Multiwalled Carbon Nanotubes, sp2-sp3-Hybridization of Helical Carbon Mediated by Atomic Hydrogen,Science Advance(submitted) (2022).
  2. A neural subspace for encoding multiple associative memories in the primate lateral prefrontal cortex,Neuron(submitted) (2022).
  3. Two-dimensional BAs/GeC van der Waals heterostructures: A widely tunable photocatalyst for water splitting and hydrogen production,Journal of Physics and Chemistry of Solids(submitted) (2022).
  4. Radial-Tangential Mode of Single-Wall Carbon Nanotubes Manifested by Landau Regulation: Reinterpretation of Low- and Intermediate-Frequency Raman Signals,(Nature) Scientific Reports(under revision) (2022).
  5. Growth mechanisms of two-dimensional hexagonal boron nitride (h-BN) on metal surfaces: Theoretical perspectives,Applied Materials Today(submitted) (2022).
  6. Synthesis of Low-Band Gap Porous Zirconia Nanoparticles via Greener-Route: Mechanism, Theoretical Justification, Photocatalysis, and Antibacterial Activity,Nano Express(submitted) (2022).
  7. Negative-capacitance Field-Effect Transistors: Behind the Origin and Challenges, Materials Today Physics (submitted) (2022).
  8. Metallic CNT Tolerant Field Effect Transistor using Dielectrophoresis,IEEE Open Journal of Nanotechnology(Submitted) (2022).
  9. CNFET SRAM Bit Cell for Processing In Memory,IEEE Transactions on Circuits and Systems (submitted) (2022).
  10. E-Band CMOS Integrated Yagi Antenna with Hilbert Curve Shaped Artificial Magnetic Conductor, (submitted) (2020).
  11. Landau Raman Regulation Observed from Geometric Graphene Structures Including Single-Wall Carbon Nanotubes, Journal Annalen der Physik(Under revision) (2019).
  12. Graphene-based Chemical and Biological Sensors, 2D Materials (Submitted) (2019).
  13. Portable and wireless signal transducer for next-generation environmental monitors based on 2D materials.Dallaire N., Zhang Y., Deng X., Andrzejewski L., Guay J.-M., Rautela R., Scarfe S., w88 online casino betting J., Ménard J.-M.,Luican-Mayer A.,Under review, preprint.

Journal Articles (published):

  1. Predictive Modelling of Parkinson’s Disease Progression Based on RNA-Sequence with Densely Connected Deep Recurrent Neural Networks, Siraj Ahmed, Majid Komeili and Jeongwon w88 online casino betting(Nature) Scientific Reports, 12, 21469 (2022)(Impact Factor: 4.996).
  2. Two-dimensional SiC/AlN based type-II van der Waals heterobilayer: A promising photocatalyst for overall water disassociation, Naim Ferdous, Md. Sherajul Islam, Jeshurun Biney, Catherine Stampfl & Jeongwon w88 online casino betting(Nature) Scientific Reports,12, 20106 (2022)(Impact Factor: 4.996).
  3. Atomistic Reaction Mechanism of CVD Grown MoS2through MoO3and H2S Precursors, Abdullah Arafat, Md. Sherajul Islam, Naim Ferdous, A. S. M. Jannatul Islam, Md. Mosarof Hossain Sarkar, Catherine Stampfl & Jeongwon w88 online casino betting,(Nature) Scientific Reports, 12, 16085 (2022)(Impact Factor: 4.996).
  4. Zirconia-based nanomaterials: Recent developments in synthesis and applications, Nisha Kumari, Shweta Sareen, Meenakshi Verma, Shelja Sharma, Ajay Sharma, Harvinder Singh Sohal, S. K. Mehta, Jeongwon w88 online casino betting and Vishal Mutreja, Nanoscale Advances, 4, 4210-4236(2022) (Impact Factor: 5.598).
  5. Tuning the electronic, phonon, and optical properties of monolayer BX (X = P and As) through the strain effect, Rasidul Islam, Sherajul Islam, Rayid Hasan Mojumder, Zarif Khan, Hasan Molla, A.S.M. Jannatul Islam, Jeongwon w88 online casino betting,Materials Today Communications, 104227 (2022)(Impact Factor: 3.383).
  6. Localization of the optical phonon modes in boron nitride nanotube: Mixing effect of 10B isotopes and vacancies, Md. Sherajul Islam, Ashraful Hossain Howlader, Rongkun Zheng, Catherine Stampfl, Jeongwon w88 online casino betting, and Akihiro Hashimoto,ACS Omega, 7, 30, 26591–26600(2022) (Impact Factor: 4.132).
  7. Tribo-piezoelectricity in group III-nitride bilayers: A density functional theory investigation, Md. Yasir Zamil, Md. Sherajul Islam, Catherine Stampfl, and Jeongwon w88 online casino betting,ACS Applied Materials & Interfaces,14, 18, 20856–20865 (2022)(Impact Factor: 8.33).
  8. Aggregation-Induced Quenching of Carbon Dots for Detection of Nitric oxide, Vishal Mutreja, Ajay Kumar, Shweta Sareen, Khushboo Pathania, Harshit Sandhu, Dr. Ramesh Kataria, Sandip V. Pawar, Surinder K. Mehta, Jeongwon w88 online casino betting,ChemistrySelect, 7(21), e202200448 (2022),(Impact Factor: 2.109).
  9. Deep Brain Stimulation for Parkinson’s Disease: A Review and Future Outlook, Anahita Malvea, Farbod Babaei, Chadwick Boulay, Adam Sachs, Jeongwon w88 online casino betting,Biomedical Engineering Letters12, 303–316, Springer Nature (2022) DOI: 10.1007/s13534-022-00226-y (Impact Factor: 5.25).
  10. Tensile mechanical behavior and fracture mechanism in monolayer group-III nitrides XN (X= Ga, In): Effect of temperature and point vacancy, A. S. M. Jannatul Islam, Md. Sherajul Islam, Md. Sayed Hasan, Md. Shahadat Akbar, and Jeongwon w88 online casino betting,ACS Omega, 7, 17, 14678–14689 (2022) (Impact Factor: 4.132).
  11. Synthesis of Biogenic Silver Nanocatalyst and their Antibacterial and Organic Pollutants Reduction Ability, Muhammad Riaz, Uzma Sharafat, Nafeesa Zahid, Muhammad Ismail, Jeongwon w88 online casino betting,* Bashir Ahmad, Neelum Rashid, Muhammad Fahim, Muhammad Imran, and Aisha Tabassum,ACS Omega7, 14723−14734 (2022)(Impact Factor: 4.132).
  12. Effects of Substrate Structure on the CVD Growth of Two-dimensional Hexagonal Boron Nitride (h-BN), Md. Mosarof Hossain Sarkar, Md. Sherajul Islam, Abdullah Arafat, A. S. M. Jannatul Islam, Naim Ferdous, Md. Tawabur Rahman, Minhaz Uddin Sohag, Md. Al Imran Fahim, Catherine Stampfl, and Jeongwon w88 online casino betting,J. Phys. Chem. C2022, 126, 14, 6373–6384 (2022)(Impact Factor: 2.781).
  13. Numerical Investigations of Nanowire Gate-all-around Negative Capacitance GaAs/InN Tunnel FET, Abdullah Al Mamun Mazumder, Kamal Hosen, Md. Sherajul Islam, Jeongwon w88 online casino betting,IEEE Access,10, 30323 (2022)DOI: 10.1109/ACCESS.2022.3159809 (Impact Factor: 3.361).
  14. Laser-induced patterning for a diffraction grating using the phase change material of Ge2Sb2Te5(GST) as a spatial light modulator in X-ray optics: a proof of concept, Jeongwon w88 online casino betting, Peter Zalden, Edwin Ng, Scott Johnston, Scott W. Fong, Chieh Chang, Christopher J. Tassone, Douglas Van Campen, Walter Mok, Hideo Mabuchi, H.-S. Philip Wong, Zhi-Xun Shen, Aaron M. Lindenberg, and Anne Sakdinawat,Opt. Mater. Express12, 1408-1416 (2022)(Impact Factor: 3.442).
  15. Temperature and interlayer coupling induced thermal transport across graphene/2D-SiC van der Waals heterostructure, Md. Sherajul Islam, Imon Mia, A. S. M. Jannatul Islam, Catherine Stampfl, and Jeongwon w88 online casino betting(Nature) Scientific Reports,12, 761 (2022)(Impact Factor: 4.996).
  16. Vacancy-induced thermal transport and tensile mechanical behavior of monolayer honeycomb BeO, A. S. M. Jannatul Islam, Md. Sherajul Islam, Nura Zannat Mim, Md. Shahadat Akbar, Md. Sayed Hasan, Md. Rasidul Islam, Catherine Stampfl, and Jeongwon w88 online casino betting,ACS Omega7, 5, 4525–4537 (2022)(Impact Factor: 4.132) .
  17. Effect of synthesis methods and conditions on properties and applications of carbon dots for the detection of potential water contaminants: A Review, Hardeep Kaur, Shweta Sareen, Meenakshi Verma, Aseem Vashisht, Ajay Sharma, Ramesh Kataria, S. K. Mehta, Jeongwon w88 online casino betting & Vishal Mutreja,Critical Reviews in Analytical Chemistry(2021) DOI: 10.1080/10408347.2021.1977608 (Impact Factor: 4.568).
  18. Strong tribo-piezoelectric effect in bilayer indium nitride (InN), Md. Sherajul Islam, Md. Yasir Zamil, Md. Rayid Hasan Mojumder, Catherine Stampfl & Jeongwon w88 online casino betting, (Nature) Scientific Reports, 11:18669 (2021) (Impact Factor: 4.996).
  19. Dual Source Negative Capacitance GaSb/InGaAsSb/InAs Heterostructure Based Vertical TFET with Steep Subthreshold Swing and High On-Off Current Ratio, Sohag, Minhaz Uddin, Md Sherajul Islam, Kamal Hosen, Md Al Imran Fahim, Md Mosarof Hossain Sarkar, and Jeongwon w88 online casino betting,Results in Physics, 104796, (2021) (Impact Factor: 4.476).
  20. Superior tunable photocatalytic properties for water splitting in two- dimensional GeC/SiC van der Waals hetero-bilayers, Islam, Md, Abu Farzan Mitul, Md Mojumder, Rayid Hasan, A. S. M. Islam, Catherine Stampfl, and Jeongwon w88 online casino betting,(Nature) Scientific Reports,1, 1-14 (2021)(Impact Factor: 4.996).
  21. Chirality, temperature, and vacancy effects on mechanical behavior of monolayer zinc-sulfide, A.S.M. Jannatul Islam, Md. Sayed Hasan, Md. Sherajul Islam, Jeongwon w88 online casino betting,Computational Materials Science, 200, 110824 (2021) (Impact Factor: 3.3).
  22. Numerical Analysis of Gate-all-around HfO2/TiO2/HfO2High-K Dielectric Based WSe2NCFET with Reduced Sub-threshold Swing and High On/Off Ratio, Kamal Hosen; Md. Sherajul Islam; Catherine Stampfl; Jeongwon w88 online casino betting,IEEE Access,9, 116254 - 116264 (2021) DOI: 1109/ACCESS.2021.3105341 (Impact Factor: 3.367).
  23. Temperature and defect induced uniaxial tensile mechanical behaviors and fracture mechanism of two-dimensional silicon germanide (2D-SiGe), A. S. M. Jannatul Islam, Md. Shahadat Akbar, Md. Sherajul Islam, Jeongwon w88 online casino betting,ACS Omega, 2021, 6, 34, 21861–21871 (2021) (Impact Factor: 4.132).
  24. Thermal transport in monolayer zinc-sulfide: Effects of length, temperature and vacancy defects, Islam, A. J., Islam, M. S., Islam, M. R., Stampfl, C., & w88 online casino betting, J,Nanotechnology, 32,435703 (2021) (Impact Factor: 3.974).
  25. Silicene/ZnI2van der Waals heterostructure: tunable structural and electronic properties, Md. Sakib ; Islam, Md. Sherajul; w88 online casino betting, Jeongwon,Nanotechnology, 32 305707 (2021)(Impact Factor: 3.974).
  26. Numerical design of high performance WS2/metal/WS2/graphene heterostructure based surface plasmon resonance sensor, Biswajit Dey, Md. Sherajul Islam, and Jeongwon w88 online casino betting,Results in Physics, 23, 104021 (2021)(Impact Factor: 4.476).
  27. Exceptional antibacterial and cytotoxic potency of monodisperse greener AgNPs prepared under optimized pH and temperature, Riaz, Muhammad, Vishal Mutreja, Shweta Sareen, Bashir Ahmad, Muhammad Faheem, Nafeesa Zahid, Ghassan Jabbour, and Jeongwon w88 online casino betting, (Nature) Scientific Reports, 11, 2866 (2021)(Impact Factor: 4.379).
  28. Germanene/2D-AlP van der Waals heterostructure: tunable structural and electronic properties, Mojumder, Md Rayid Hasan, Md Sherajul Islam, and Jeongwon w88 online casino betting,AIP Advances,1, 015126 (2021): 10.1063/5.0023448(Impact Factor: 1.548).
  29. Exceptional In-Plane and Interfacial Thermal Conductivity in Graphene/2D-SiC van der Waals Heterostructure, Md. Sherajul Islam, Imon Mia, Shihab Ahammed, Catherine Stampfl and Jeongwon w88 online casino betting, (Nature) Scientific Reports, 10, 22050 (2020)(Impact Factor: 4.996).
  30. Characterizations and Analysis of the Antioxidant, Antimicrobial and Dye Reduction Ability of Green Synthesized Silver Nanoparticles, Muhammad Riaz, Muhammad Ismail, Bashir Ahmad, Nafeesa Zahid, Ghassan Jabbour, Muhammad Shafiq Khan, Vishal Mutreja, Shweta Sareen, Aftab Rafiq, Muhammad Faheem, Muhammad Musaddiq Shah, M. I. Khan, Syed Ali Imran Bukhari and Jeongwon w88 online casino betting,Green Processing and Synthesis, 27;9(1):693-705. (2020) (Impact Factor: 2.83).
  31. Germanene/2D-SiC van der Waals heterobilayer: structural features and tunable electronic properties, Md Sherajul Islam, Md. Rayid Hasan Mojumder; Naim Ferdous; Jeongwon w88 online casino betting,Materials Today Communications,101718 (2020) (Impact Factor: 2.678).
  32. Carbon Nanotube-on-Graphene Heterostructures, Yu Zheng, Dongmeng Li, Zubair Ahmed, Jeongwon w88 online casino betting, Changjian Zhou, and Cary Y. Yang,Journal of Electronic Materials,49, 6806–6816 (2020), (Impact Factor: 1.676).
  33. Lateral and flexural thermal transport in stanene/2D-SiC van der Waals heterostructure, Shihab Ahammed, Md. Sherajul Islam, Imon Mia, Jeongwon w88 online casino betting,Nanotechnology,31, 505702 (2020) (Impact Factor 3.399).
  34. Phonon localization in single wall carbon nanotube: Combined effect of 13C isotope and vacancies, Md. Sherajul Islam, Ashraful Hossain Howlader, Khalid N. Anindya, Rongkun Zhen, Jeongwon w88 online casino betting, Akihiro Hashimoto,Journal of Applied Physics, 128, 045108 (2020); (Impact Factor: 2.328) .
  35. Mechanistic insight into the limiting factors of graphene-based environmental sensors, Ranjana Rautela, Samantha Scarfe, Jean-Michel Guay, Petr Lazar, Martin Pykal, Saied Azimi, Cedric Grenapin, Justin Boddison-Chouinard, Alexei Halpin, Weixiang Wang, Lukasz Andrzejewski, Ryan Plumadore, Jeongwon w88 online casino betting, Jean-Michel Menard, Michal Otyepka, and Adina Luican-Mayer,ACS Appl. Mater. Interfaces, 12, 39764−39771 (2020), (Impact Factor: 8.33).
  36. Combined effect of13C isotope and vacancies on the phonon properties in AB stacked bilayer graphene, Khalid N.Anindya, Md Sherajul Islam, Akihiro Hashimoto, and Jeongwon w88 online casino betting,Carbon, 168, 22-31 (2020), (Impact Factor 9.59),
  37. New Small-Signal Extraction Method Applied to GaN HEMTs on Different Substrates, Mohamad Al Sabbagh, Mustapha C. E. Yagoub, Jeongwon w88 online casino betting,International Journal of RF and Microwave Computer-Aided Engineering, 30, e22291 (2020), (Impact Factor: 1.528).
  38. Temperature-induced localized exciton dynamics in mixed Lead–Tin based CH3NH3Pb1-xSnxI3Perovskite materials, Md. Sherajul Islam, Biswajit Dey, Md. Masud Rana, A.S.M. Jannatul Islam, Jeongwon w88 online casino betting and Takayuki Makino,AIP Advances,10, 065331 (2020), DOI: 10.1063/5.0007087 (Impact Factor: 1.579).
  39. Vacancy induced thermal transport in two-dimensional silicon carbide: a reverse non-equilibrium molecular dynamics study, A. S. M. Jannatul Islam, Sherajul Islam, Naim Ferdous, Jeongwon w88 online casino betting and Akihiro Hashimoto,Physical Chemistry Chemical Physics, 22, 13592-13602 (2020), (Impact factor: 3.567).
  40. HfO2/TiO2/HfO2tri-layer high-K gate oxide based MoS2negative capacitance FET with steep subthreshold swing, Sherajul Islam , Shahrukh Sadman, A. S. M. Jannatul Islam, and Jeongwon w88 online casino betting,AIP Advances10, 035202 (2020) (Impact Factor: 1.579).
  41. Interlayer vacancy effects on the phonon modes in AB stacked bilayer graphene nanoribbon, Khalid N.Anindy, Md Sherajul Islam, Jeongwon w88 online casino betting, Ashraful G.Bhuiyan, Akihiro Hashimoto,Current Applied Physics, 20 (4), 572-581 (2020), (Impact Factor: 2.010).
  42. Molecular dynamics study of thermal transport in single-layer silicon carbide nanoribbons, Sherajul Islam, A. S. M. Jannatul Islam, Orin Mahamud, Arnab Saha, Naim Ferdous, Jeongwon w88 online casino betting, and Akihiro Hashimoto,AIP Advances10, 01511 (2020), (Impact Factor. 1.579).
  43. Anisotropic Mechanical Behavior of Two Dimensional Silicon Carbide: Effect of Temperature and Vacancy Defects, ASM Jannatul Islam, Md. Sherajul Islam, Naim Ferdous, J w88 online casino betting, A G Bhuiyan, Akihiro Hashimoto,Res. Express6 125073 (2019), (Impact Factor 1.449).
  44. Anomalous Temperature Dependent Thermal Conductivity of Two Dimensional Silicon Carbide, A S M Jannatul Islam, Md Sherajul Islam, Naim Ferdous, Jeongwon w88 online casino betting, A G Bhuiyan and Akihiro Hashimoto,Nanotechnology, 30, 445707 (2019), (Impact Factor 3.399).
  45. Widely tunable electronic properties in graphene/two-dimensional silicon carbide van der Waals heterostructures, Asmaul Smitha Rashid, Md. Sherajul Islam, Naim Ferdous Khalid N. Anindya, Jeongwon w88 online casino betting, Akihiro Hashimoto,Journal of Computational Electronics, 18(3), 836-845 (2019), (Impact Factor 1.637).
  46. Ambipolarity and Air Stability of Silicon Phthalocyanine Organic Thin-Film Transistors, Owen A. Melville, Trevor M. Grant, Brendan Mirka, Nicholas T. Boileau, Jeongwon w88 online casino betting, and Benoît Lessard,AdvancedElectronic Materials, 1900087 (2019), (Impact Factor 6.593).
  47. Scanning Microwave Imaging of Optically Patterned Ge2Sb2Te5, Scott Johnston, Edwin Ng,Scott W. Fong, Walter Y. Mok, Jeongwon w88 online casino betting, Peter Zalden, Anne Sakdinawat, H.-S. Philip Wong, Hideo Mabuchi, and Zhi-Xun Shen,Appl. Phys. Lett.114, 093106 (2019), (Impact factor‎: ‎3.521).
  48. Tunable Electronic Properties in Stanene and Two Dimensional Silicon-Carbide Heterobilayer: A First Principles Investigation, Naim Ferdous, Md. Sherajul Islam, Jeongwon w88 online casino betting, Hashimoto,AIP Advances9, 025120 (2019), (Impact Factor. 1.579).
  49. Atmospheric-pressure plasma by remote dielectric barrier discharges for surface cleaning of large area glass substrates, D.-J. Kim and J. w88 online casino betting,Plasma Res. Express1, 015015 (2019).
  50. The effects of nanostructures on mechanical and tribological properties of TiO2nanotubes, Y. Yoonand J. w88 online casino betting,Nanotechnology29, 165705 (2018), (Impact Factor 3.399).
  51. Patterning of graphene for flexible electronics with remote dielectric barrier discharge, Duk-jae Kim,w88 online casino betting,Jeon-gun Han,Japan. J. of Appl. Phys.,55, 085102 (2016), (Impact Factor: 1.471).
  52. Demonstration of organic volatile decomposition and bacterial sterilization by miniature dielectric barrier discharges on low-temperature cofired ceramic electrodes, D.-J. Kim, Y.-K. Shim,w88 online casino betting,H.-J. Kim, J.-G. Han,Japan. J. of Appl. Phys.,55(4), 040302 (2016), (Impact Factor. 1.471).
  53. Metal-Nanocarbon Contacts, Patrick Wilhite, Anshul A. Vyas, Jason Tan, Jasper Tan, Toshishige Yamada, Phillip Wang, Jeongwon w88 online casino betting, and Cary Y. Yang,Sci. and Tech.29, 054006, 1- 16 (2014): Selected by the journal’s Editorial Board as a Highlight of 2014.
  54. Mobility Saturation in Tapered Edge Bottom Contact Copper Phthalocyanine Thin Film Transistors, E. Royer, J. w88 online casino betting,C. Colesniuc, J. S. Lee, T. Gredig, S. Jin, I. K. Schuller, W. C. Trogler, A. C. Kummel,J. Vac. Sci. Technol. B28, C5F22 (2010).
  55. Ambient induced degradation and chemically activated recovery in copper phthalocyanine thin film transistor Channel, w88 online casino betting, J. E. Royer, C. Colesniuc, F. I. Bohrer, A. Sharoni, S. Jin, I. K.Schuller, W. C. Trogler, A. C. Kummel,J. Appl. Phys. 106, 034505 (2009).
  56. Comparative Gas Sensing in Colbalt, Nickel, Copper, Zinc, and Metal-Free Phthalocyanine Chemiresistors, F. I. Bohrer, C. N. Colesniuc, w88 online casino betting, M. E. Ruidiaz, I. K. Schuller, A. C. Kummel, W. C. Trogler,J. Am. Chem. Soc., 131(2), 478-85 (2009).
  57. Analyte chemisorption and sensing on n- and p-channel copper phthalocyanine thin-film transistors, D. Yang, J. w88 online casino betting, C. N. Colesniuc, I. K. Schuller, J. E. Royer, W. C. Trogler, and A. C. Kummel,J. Chem. Phys.130 164703 (2009).
  58. Geometry Transformation of Periodically Patterned Si Nanotemplates by Dry Oxidation, J.w88 online casino betting, L.-H. Chen, D. Hong, C. Choi, M. Loya, K. Brammer, P. Bandaru and S. Jin,Nanotechnology20, 015303 (2009).
  59. Morphology control of carbon nanotubes through focused ion beams, Loya, J. w88 online casino betting, L. H. Chen, K. S. Brammer, P. R. Bandaru and S. Jin,Nano. 3, 449–454(2008).
  60. Bilayer processing for enhanced contact electrode configuration in ultrathin organic transistors, J.w88 online casino betting, R. D. Yang, C. N. Colesniuc, A. Sharoni, S. Jin, I. K. Schuller, W. C. Trogler and A. C. Kummel,Appl. Phys. Lett.92, 193311 (2008).
  61. Selective Detection of Vapor Phase Hydrogen Peroxide with Phthalocyanine Chemiresistors, F. I. Bohrer, C.N. Colesniuc, J. w88 online casino betting, I. K. Schuller, A. C. Kummel, and W. C. Trogler,J. Am. Chem. Soc., 130 (12), 3712 -3713, (2008).
  62. Ultra-low drift in organic thin-film transistor chemical sensors by pulsed gating, R. Yang, J. w88 online casino betting,C. N. Colesniuc, I. K. Schuller, W. C. Trogler and A. C. Kummel,J. Appl. Phys. 102, 034515 (2007).
  63. Ultrathin organic transistors for chemical sensing, R. D. Yang, T. Gredig, C. N. Colesniuc, J. w88 online casino betting, I. K. Schuller, W. C. Trogler, and A. C. Kummel,Appl. Phys. Lett. 90, 263506 (2007), also accepted to the Virtual Journal of Nanoscale Science & Technology, (2007).
  64. Gas Sensing Mechanism in Chemiresistive Cobalt and Metal-Free Phthalocyanine Thin Films, F. I. Bohrer, Sharoni, C. Colesniuc, J. w88 online casino betting, I. K. Schuller, A. C. Kummel, and W. C. Trogler,J. Am. Chem. Soc., 129 (17), 5640 -5646 (2007).
  65. ZnO Nanowire UV Photodetectors with High Internal Gain, C. Soci, A. Zhang, B. Xiang, S. A. Dayeh, D. P. R. Aplin, J. w88 online casino betting, X. Y. Bao, Y. H. Lo, and D. Wang,Nano Lett., 7 (4), 1003 -1009 (2007).
  66. Enhanced Room Temperature Ferromagnetism in Co- and Mn-Ion Implanted Silicon, P.R. Bandaru, J.w88 online casino betting, J.S. Lee, Y.J. Tang, L. H. Chen, S. Jin, S.A. Song, and J. O'Brien,Appl. Phys. Lett. 89, 112502 (2006).
  67. Three-way electrical gating characteristics of metallic Y-junction carbon nanotube transistors, J. w88 online casino betting, C. Daraio, S. Jin, P.R. Bandaru, J. Gaillard and A. M. Rao,Appl. Phys. Lett. 88, 243113 (2006).
  68. Chemical identification using an impedance sensor based on dispersive charge transport, D. Yang, B. Fruhberger, J. w88 online casino betting, A. C. Kummel,Appl. Phys. Lett.88, 074104 (2006).
  69. Electrode independent chemoresistive response for cobalt phthalocyanine in the space charge limited conductivity regime, A. Miller, R. D. Yang, M. J. Hale, J. w88 online casino betting, B. Fruhberger, I. K. Schuller, A. C. Kummel, William C. Trogler,J. Phys. Chem. B; 110(1) 361 - 366 (2006).
  70. Improvement of the biocompatibility and mechanical properties of surgical tools with TiN coating by PACVD, J.w88 online casino betting, D.-J. Kim, Y.-K. Kim, K.-H. Lee, K.-H. Lee, H. Lee, and S. Ahn,Thin Solid Films, 435, 102-107 (2003).
  71. Effect of Fluorine on the Properties of Low Dielectric Fluorinated Amorphous Carbon Films, S.-H. Yang, S. Lee, J.w88 online casino betting, J.-Y. Kim and J.-W. w88 online casino betting, J. Korean Phys. Soc., 35, S361-364 (1999).
  72. Effects of Deposition Temperature on Low-Dielectric Fluorinated Amorphous Carbon Films for Ultra Large-Scale Integration Multilevel Interconnect, S.-H. Yang, J. w88 online casino betting, J.-Y. Kim, Y.-K. Lee, B.-R. Cho, D.-K. w88 online casino betting, W.-H. Lee and J.-W. w88 online casino betting,Microchemical Journal, 63 (1), 161-167 (1999).
  73. Effect of Deposition Temperature on Characteristics of Low Dielectric Fluorinated Amorphous Carbon Thin Films, J.w88 online casino betting, S.-H. Yang and J.-W. w88 online casino betting,Korean J. Material Research, 9 (12), 1211- 1215 (1999)
  74. Effects of Deposition gas composition on the characteristics of a-C:F thin films for use as low dielectric constant ILD, J. w88 online casino betting, S.-H. Yang, S. Lee, S. Sohn, K. Oh and J.-W. w88 online casino betting,J. Korea Vacuum Society, 7 (4), 368-373 (1998).
  75. Thermal Stability Enhancement of Cu/WN/SiOF/Si Multilayer by Post-Plasma Treatment of Fluorine-Doped Silicon Dioxide, S. Lee, D. J. Kim, S.-H. Yang, J.w88 online casino betting, S. Shon, K. Oh, Y.-T. Kim, J-Y. Kim, G.-Y. Yeom and J.-W. w88 online casino betting,J. Appl. Phys, 85, 473-477 (1998).

Patents / Technology disclosures:

  1. J. Griffith,J. w88 online casino betting, P. Narwankar, N. Nguyen, H. Nguyen, T. Chan, J. Xu, Methods and apparatus for cleaning substrate surfaces with atomic hydrogen, CN104025264A, US20130160794, WO2013096748 A1,US20150311061 (2015).
  2. J. w88 online casino betting, J. Griffith, P. Narwankar, M. Narasimhan, B. Zheng, Methods and apparatus for cleaning substrate structures with atomic hydrogen,WO 2014100047 A1 (2014).
  3. J. w88 online casino betting, J. Cruz, P. Narwankar, Methods for removing photoresist from substrates with atomic hydrogen,WO 2014164493 A1 (2014).
  4. J. w88 online casino betting, J. Cruz, P. Narwankar, Methods and apparatus for processing germanium containing material, a III-V compound containing material, or a II-VI compound containing material disposed on a substrate using a hot wire source,US 20140179110 (2014).
  5. S. Chatterjee,J. w88 online casino betting, Methods for cleaning a surface of a substrate using a hot wire chemical vapor deposition (HWCVD) chamber,US 20120312326 A1 (2011).
  6. A. Kummel,J. w88 online casino betting, Multi-rate resist method to form organic TFT contact and contacts formed by same,US20110108815 (2009).

Conference proceedings:

  1. High-Efficiency Multi Quantum Well Blue LED Using 2D-SiC as an Active Material, 2021 5th International Conference on Electrical Engineering and Information & Communication Technology (ICEEICT) Military Institute of Science and Technology (MIST), Dhaka-1216, Bangladesh.
  2. Single Ended Computational SRAM Bit-Cell, International Symposium on Signals, Circuits and Systems (ISSCS 2019), July 11, 2019 to July 12, 2019, Iasi, Romania.
  3. (Invited) Contacts with Nanocarbon Structures in Flexible Electronics, Jeongwon w88 online casino betting, Changjian Zhou, Cary Y. Yang, 2018 International Flexible Electronics Technology Conference (IFETC), August 7th to 9th, 2018 in Ottawa.
  4. (Invited) Carbon-based Nanostructures for Flexible Electronics, Jeongwon w88 online casino betting, Changjian Zhou, Cary Y. Yang, IEEE International Conferences on Electron Devices and Solid-State Circuits 2018, 6 June to 8 June 2018, Shenzhen, China.
  5. "(Invited) A Novel Approach to Clean Surface for High Mobility Channel Materials With in-Situ Atomic Hydrogen Clean",w88 online casino betting, Joe Griffith, Bo Zheng, Jerry Gelatos, Murali Narasimhan, Pravin K Narwankar,ECS Transactions, 58 (6) 275-280 (2013).
  6. Electrical and Structural Analysis of CNT-Metal Contacts in Via Interconnects, P. Wilhite, A. Vyas, J. Tan, and C. Y. Yang, P. Wang,w88 online casino betting, H. Ai, and M. Narasimhan, ICQNM 2013: The Seventh International Conference on Quantum, Nano and Micro Technologies (2013).
  7. Effects of Growth and Surface Cleaning Conditions on Strain Relaxation on SiGe Films beyond a Critical Thickness on Si (001) Substrate,w88 online casino betting, M. Ishii, R. Balasubramanian, Y. Kim and S. Kurpprao.ECS Transactions,33 (6) 523-528 (2010).
  8. Electrical Transport in Carbon Nanotube Y-junctions- a Paradigm for Novel Functionality at the Nanoscale,w88 online casino betting, C. Daraio, A. Rao, P. Bandaru, Mater. Res. Soc. Symp. Proc. Vol. 922, 0922- U11-08,Materials Research Society(2006).

Book Chapters:

  1. Nanocarbon Electronics, ISBN: 9781003043089, Chapter 6. Nanocarbons for Flexible Sensing Applications, edited by Changjian Zhou , Min Zhang and Cary Y. Yang Jenny Stanford Publishing (2020).

Courses taught

Fall 2016- Winter 2019

Undergraduate engineering classes

  • ELG 2138 Circuit Theory I (Fall 2016, Fall 2017, Fall 2018)
  • ELG 2137 Circuit Theory II (Winter 2017, Winter 2018)
  • ELG 3137 Fundamentals of Semiconductor Devices (Winter 2019)

Graduate engineering classes

  • ELG 7132 Nanoelectronics (Winter 2018, Winter 2019)

Spring 2009- Spring 2016

Undergraduate engineering classes

  • Electric Circuits I (Winter 2016)
  • Introduction to Nanotechnology (Guest lecturer) for Spring 2009
  • Nanoscale Science and Technology (Guest lecturer) for Fall 2009

Graduate engineering classes

  • Nanoelectronics (Fall 2011, Spring 2014)
  • Nanomaterials (Winter 2011, Winter 2012, Winter 2014, Spring 2016)
  • Fundamentals of Semiconductor Physics (Summer 2009, Fall 2009 and Winter 2010)