Review of:" Nano wire immersion method (structure and function) A Rashid Qeios. doi: 10.32388/0od0gl, 2023 | 78 | 2023 |
Review of:" Propagation of Oligophenylene vanillin nanowires by focused ion beam (FIB) nanolithography method (below ۱۰۰ nm- ۱۰ nm range) A Rashid Qeios. doi: 10.32388/whhfa8, 2023 | 73 | 2023 |
Review of:" Oligophenylene vanillin (silicon/germanium) structured nanowires and cylinders for possible applications in electronic energy A Rashid Qeios. doi: 10.32388/i5wrmf, 2023 | 73 | 2023 |
Review of:" Oligophenylene vanillin (silicon/germanium) structured nanowires and cylinders for possible applications in electronic energy A Rashid Qeios. doi: 10.32388/i5wrmf, 2023 | 73 | 2023 |
Review of:" The concept of (Nano assembler) in smart electronic nano structures A Rashid Qeios. doi: 10.32388/atyte1, 2023 | 72 | 2023 |
Review of:"(Field effect nano transistors) Nano transistor electronic quantity and ionization potential) A Rashid Qeios. doi: 10.32388/464lg7, 2023 | 69 | 2023 |
Review of:" High speed (doping) nMOS graphene transistor in p-and n-doping electronic circuits (positive and negative) A Rashid Qeios. doi: 10.32388/jreu5m, 2023 | 67 | 2023 |
Review of:" Reproduction (electrical nano memories) by the method combined nanolithography ( ۱۲ V), Fast switching speed ( ۱ microsecond) A Rashid Qeios. doi: 10.32388/jg1x8x, 2023 | 41 | 2023 |
Review of:" Experiment (nanoelectronic memory) using small organic molecules Chlorophyll pseudo instead of charge storage capacitors A Rashid Qeios. doi: 10.32388/k0x2ro, 2023 | 41 | 2023 |
Review of:" Nano electrical memories and testing Nickel nanoparticles NI_nanoparticle Strong conductors of electric current A Rashid Qeios. doi: 10.32388/sbe8l8, 2023 | 41 | 2023 |
Review of:" FinFET nanotransistor downscaling causes more short channel effects, less gate control, exponential increase in leakage currents, drastic process changes and … A Rashid Qeios. doi: 10.32388/hx4oyk, 2024 | 40 | 2024 |
Review of:" transistor nMOS (with ultra-low power consumption, energy-efficient computing, during the sub-threshold range) A Rashid Qeios. doi: 10.32388/1al4jb, 2024 | 40 | 2024 |
Review of:" Nano supercapacitors (supercapacitors or electrochemical nanocapacitors) A Rashid Qeios. doi: 10.32388/67gwcf, 2024 | 40 | 2024 |
Review of:" A combination of interference nanolithography and nanoelectronics lithography enables the fabrication and reproduction of high-resolution structures in large areas A Rashid Qeios. doi: 10.32388/qy3s52, 2024 | 18 | 2024 |
Review of:" Many types of electrical nano-sensors using CP nanomaterials designed for nanobiological applications A Rashid Qeios. doi: 10.32388/lytuvb, 2024 | 18 | 2024 |
Review of:" In general, an electrical nano-biosensor consists of an immobilized static biological system (based on their own built-in immobilized static biological system) A Rashid Qeios. doi: 10.32388/pq6ho0, 2024 | 18 | 2024 |
Review of:" Nano supercapacitor called (electrostatic)--The total thickness of each< ai= 4> electrostatic nanocapacitors only 25 nm A Rashid | 18 | 2024 |
Review of:" _ Lindemann's change structure section in electrical nanostructures Lindemann change/(change structure) in multilayer nanostructures A Rashid Qeios. doi: 10.32388/ttqb0i, 2024 | 6 | 2024 |
Review of:" bipolar transistors (pMOS) have a state voltage connected (Von) around ۲ to ۳ volts A Rashid Qeios. doi: 10.32388/c8zgvw, 2024 | 6 | 2024 |
Review of:" Production of nano supercapacitors using nanoparticles (a piezoelectric and ferroelectric material) A Rashid Qeios. doi: 10.32388/c2juls, 2024 | 6 | 2024 |