Haim Grebel
Education
Ph.D.; The Weizmann Institute of Science; ; 1985
M.S.; The Weizmann Institute of Science; ; 1980
B.S.; Tel Aviv University; ; 1977
M.S.; The Weizmann Institute of Science; ; 1980
B.S.; Tel Aviv University; ; 1977
2025 Spring Courses
ECE 701C - MASTER'S THESIS
ECE 417 - ELECT AND COMP ENGR PROJ II
ECE 725 - INDEPENDENT STUDY I
ECE 469 - RF/MICROWAVE & OPTIC LAB
ECE 792B - PRE-DOCTORAL RESEARCH
MTSE 701B - MASTER'S THESIS
ECE 726 - INDEPENDENT STUDY II
ECE 700B - MASTER'S PROJECT
ECE 701B - MASTER'S THESIS
ECE 790A - DOCTRL DISSRTN & RESEARCH
ECE 417 - ELECT AND COMP ENGR PROJ II
ECE 725 - INDEPENDENT STUDY I
ECE 469 - RF/MICROWAVE & OPTIC LAB
ECE 792B - PRE-DOCTORAL RESEARCH
MTSE 701B - MASTER'S THESIS
ECE 726 - INDEPENDENT STUDY II
ECE 700B - MASTER'S PROJECT
ECE 701B - MASTER'S THESIS
ECE 790A - DOCTRL DISSRTN & RESEARCH
Past Courses
ECE 231: CIRCUITS & SYSTEMS I
ECE 291: ELECT ENGR LAB I
ECE 368: SIGNAL TRANSMISSION
ECE 392: ELECT ENGR LAB II
ECE 392: ELECTRICAL ENGINEERING LABORATORY II
ECE 416: ELECT & COMP ENGNR PROJ II
ECE 424: OPTCL COMMUNICTNS NETWORK
ECE 424: OPTICAL COMMUNICATIONS NETWORKS
ECE 461: HIGH-SPEED DEVICES: FROM RF TO OPTICAL FREQUENCIES
ECE 463: OPTOELECTRONICS
ECE 469: RF/MICROWAVE AND FIBER OPTICS SYSTEMS LABORATORY
ECE 494: ELECTRICAL ENGR LAB III
ECE 626: OPTOELECTRONICS I
ECE 739: LASER SYSTEMS
ECE 291: ELECT ENGR LAB I
ECE 368: SIGNAL TRANSMISSION
ECE 392: ELECT ENGR LAB II
ECE 392: ELECTRICAL ENGINEERING LABORATORY II
ECE 416: ELECT & COMP ENGNR PROJ II
ECE 424: OPTCL COMMUNICTNS NETWORK
ECE 424: OPTICAL COMMUNICATIONS NETWORKS
ECE 461: HIGH-SPEED DEVICES: FROM RF TO OPTICAL FREQUENCIES
ECE 463: OPTOELECTRONICS
ECE 469: RF/MICROWAVE AND FIBER OPTICS SYSTEMS LABORATORY
ECE 494: ELECTRICAL ENGR LAB III
ECE 626: OPTOELECTRONICS I
ECE 739: LASER SYSTEMS
Other
“Bio applications of free standing graphene”
ECS 2010 meeting proceedings,
“On the stopping potential in wet-cell batteries”
ECS 2010 annual meeting proceedings,
“Detection of Human and Avian Flu Viruses Using Graphenated Infrared Screen”
IEEE, August 2011.
“Field-Effect Transistors with Graphene Channels and Quantum Dots: Gate Control and Photo-induced Effects”
IEEE, August 2011.
“1858 - Plasmonics with Graphene-Coated Structures”
ECE , May 2011.
ECS 2010 meeting proceedings,
“On the stopping potential in wet-cell batteries”
ECS 2010 annual meeting proceedings,
“Detection of Human and Avian Flu Viruses Using Graphenated Infrared Screen”
IEEE, August 2011.
“Field-Effect Transistors with Graphene Channels and Quantum Dots: Gate Control and Photo-induced Effects”
IEEE, August 2011.
“1858 - Plasmonics with Graphene-Coated Structures”
ECE , May 2011.
SHOW MORE
Journal Article
Haim Grebel, Yuanwei Zhang. 2024. “Raman spectroscopy of active-carbon electrodes when Au colloids are placed at the electrolyte/electrode interface.” Chemical Physics, vol. 579, pp. 112171.
Haim Grebel, Yuanwei Zhang. 2024. “Raman spectroscopy of active-carbon electrodes when Au colloids are placed at the electrolyte/electrode interface.” Chemical Physics , vol. Volume 579, no. Volume 579, 1 March 2024, 112171.
Haim Grebel, Shupei Yu, Yuanwei Zhang. 2023. “Active-carbon based supercapacitors with Au colloids: the case for placing the colloids at close proximity to the electrode interface..” Nanoscale Advances/Royal Society of Chemistry, vol. 5, pp. 179-190.
Haim Grebel. 2022. “Optically Controlled TiO2-Embedded Supercapacitors: The Effects of Colloidal Size, Light Wavelength, and Intensity on the Cells’ Performance .” Nanomaterials, vol. 12, no. 11, pp. paper number 1835.
Haim Grebel. 2021. “Optically Controlled Supercapacitors: Functional Active Carbon Electrodes with Semiconductor Particles.” Materials 14(15):4183.
Haim Grebel, Yuanwei Zhang. 2024. “Raman spectroscopy of active-carbon electrodes when Au colloids are placed at the electrolyte/electrode interface.” Chemical Physics , vol. Volume 579, no. Volume 579, 1 March 2024, 112171.
Haim Grebel, Shupei Yu, Yuanwei Zhang. 2023. “Active-carbon based supercapacitors with Au colloids: the case for placing the colloids at close proximity to the electrode interface..” Nanoscale Advances/Royal Society of Chemistry, vol. 5, pp. 179-190.
Haim Grebel. 2022. “Optically Controlled TiO2-Embedded Supercapacitors: The Effects of Colloidal Size, Light Wavelength, and Intensity on the Cells’ Performance .” Nanomaterials, vol. 12, no. 11, pp. paper number 1835.
Haim Grebel. 2021. “Optically Controlled Supercapacitors: Functional Active Carbon Electrodes with Semiconductor Particles.” Materials 14(15):4183.
SHOW MORE
Conference Proceeding
“Supercapacitors with Gold Colloids That Are Placed at a Short Distance from Active-Carbon Electrodes; The Case for a Plasmonic Effect at the Electrolyte/Electrode Interface”
Electrochemical Society, May 2023.
“Optical Cages as Highly Absorbing Screens”
PIERS2019, August 2019.
“Experimental Evaluation of Energy Transfers by an Energy Packet Switch in a Digital Microgrid”
IEEE 7th International Conference on Smart Energy Grid Engineering, August 2019.
“Greedy Algorithm for Routing Power and Source Assignment on a Digital Microgrid”
IEEE Green Computing and Communications (GreenCom) , July (3rd Quarter/Summer) 2019.
“ A digital approach to energy networks: Allocation and distribution of energy requests”
2018 Third International Conference on Fog and Mobile Edge Computing (FMEC), 2018.
Electrochemical Society, May 2023.
“Optical Cages as Highly Absorbing Screens”
PIERS2019, August 2019.
“Experimental Evaluation of Energy Transfers by an Energy Packet Switch in a Digital Microgrid”
IEEE 7th International Conference on Smart Energy Grid Engineering, August 2019.
“Greedy Algorithm for Routing Power and Source Assignment on a Digital Microgrid”
IEEE Green Computing and Communications (GreenCom) , July (3rd Quarter/Summer) 2019.
“ A digital approach to energy networks: Allocation and distribution of energy requests”
2018 Third International Conference on Fog and Mobile Edge Computing (FMEC), 2018.
SHOW MORE
Chapter
Haim Grebel. 2011. “Linear and non-linear phenomena with resonating Surface Polariton waves and their applications.” In A. Maradudin (Eds.), pp. 45. , England: Cambridge, 2011.
Technical Report
“Characterization of Nano-Scale Composites at THz and IR Spectral Region”
NEW JERSEY INST OF TECH NEWARK, 2005.
NEW JERSEY INST OF TECH NEWARK, 2005.