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This reprint is a collection of the Special Issue "Advance in Energy Harvesters/Nanogenerators and Self-Powered Sensors" published in Nanomaterials, which includes one editorial, six novel research articles and four review articles, showcasing the very recent advances in energy-harvesting and self-powered sensing technologies. With its broad coverage of innovations in transducing/sensing mechanisms, material and structural designs, system integration and applications, as well as the timely reviews of the progress in energy harvesting and self-powered sensing technologies, this reprint could give readers an excellent overview of the challenges, opportunities, advancements and development trends of this rapidly evolving field.

Technology: general issues --- History of engineering & technology --- Energy industries & utilities --- bacteriorhodopsin --- photoelectric conversion --- bioelectronics --- nanopore --- microfluidic --- As(III) detection --- electrochemical sensing --- nanosensing --- biosensing --- energy harvesting --- triboelectric mechanism --- electrostatic mechanism --- human motion status monitoring --- IZTO/β-Ga2O3 Schottky diode --- solar-blind --- self-powered --- photodetector --- modeling --- triboelectric --- piezoelectric --- electromagnetic --- hybrid --- implantable biomedical devices --- triboelectric nanogenerator --- energy harvester --- self-powered biosensor --- nerve stimulation --- muscle stimulation --- resistance-switching --- green energy --- hybrid nanogenerators --- piezoelectric nanogenerator --- thermoelectric nanogenerators --- vibration energy harvesting --- hybrid generators --- triboelectric displacement sensors --- triboelectric acceleration sensors --- Ag2O/β-Ga2O3 --- heterojunction --- deep ultraviolet --- post-annealing --- n/a

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This Special Issue covers solution synthesis, processing, and applications of non-metallic nanomaterials. Zhang et. al. and Jiang et. al. focus on synthesis of kesterite materials, and Wu et. al. and Zhang et. al. focus on synthesis of copper chromium oxide delafossite nanomaterials. Three of these papers discuss solar cell applications using these materials. Yun and Park’s review paper explores the self-assembly of complex nanostructures. Bhalothia et al. show enhanced catalytic activity for NiOx@Pt nanostructures and Wu et. al. report high-sensitivity ammonia sensors made from SnO nanoshells. On flexible electronics, Nakamura et. al. developed Cu nitride ink for rapid photonic processing of conducting lines, Liu et. al. made Au/HfO2/Pt resistive random access memory devices, and Moreira et al. fabricated solution combustion oxide thin film transistors.

copper --- copper nitride --- photo sintering --- ink --- paste --- printed electronics --- post-processing --- Cu2ZnSnS4 solar cell --- ball milling --- nano-ink --- annealing --- tin monoxide --- nanoshell --- ammonia sensor --- solution method --- CMZTSSe films --- sol–gel --- electrical properties --- optical properties --- selenization treatment --- solar cells --- oxygen reduction reaction --- nanocatalysts --- carbon nanotube --- wet-chemical reduction method --- Au-clusters --- mass activity --- resistance switching --- high/low resistance --- oxygen defect --- conduction mechanism --- BNSL --- superlattice --- self-assembly --- colloidal nanocrystal --- binary nanocrystal superlattice --- electrospinning --- CuCrO2 --- hollow nanotube --- Al2O3 template --- one-dimensional structures --- IGZO composition --- solution combustion synthesis --- transparent amorphous semiconductor oxides --- low voltage operation --- Mg doped CuCrO2 --- hole transport layer --- organic solar cells --- perovskite solar cells --- n/a --- sol-gel

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Computing systems are undergoing a transformation from logic-centric towards memory-centric architectures, where overall performance and energy efficiency at the system level are determined by the density, performance, functionality and efficiency of the memory, rather than the logic sub-system.

n/a --- image classification --- bipolar resistive switching characteristics --- bioelectronic devices --- self-directed channel (SDC) --- programmable ramp-down current pulses --- nanoparticles --- protein --- DRAM --- convolutional neural networks --- silicon oxide-based memristors --- electrochemical metallization cell --- magnetic tunnel junction --- power gating --- resistance switching mechanism --- BCH --- Fast Fourier Transform --- nucleic acid --- biomemory --- conductive filament --- resistive random access memory (RRAM) --- non-von Neumann architecture --- emerging technologies --- Galois field --- variability --- logic-in-memory --- charge spreading --- memristor --- Hebbian training --- crossbar --- quantum point contact --- SONOS --- bionanohybrid material --- ECG --- neuromorphic computing --- CUDA --- low-latency --- iBM --- Oxygen-related trap --- nonvolatile memory --- phase change memory --- floating gate --- non-von neumann architecture --- 3D-stacked --- STT-MRAM --- solution-based dielectric --- GPU --- Internet of things --- configurable logic-in-memory architecture --- memory wall --- biologic gate --- synaptic weight --- guide training --- ion conduction --- perpendicular Nano Magnetic Logic (pNML) --- Weibull distribution --- real-time system --- in-DRAM cache --- task placement --- dynamic voltage scaling --- MCU (microprogrammed control unit) --- wire resistance --- multi-level cell --- chalcogenide --- decoder --- character recognition --- matrix-vector multiplication --- hybrid --- magnetoresistive random access memory --- blockchain --- electrochemical metallization (ECM) --- RISC-V --- U-shape recessed channel --- neuromorphic system --- in-memory computing --- crossbar array --- associative processor --- low-power --- plasma treatment --- voltage-controlled magnetic anisotropy --- flash memory --- resistive memory --- analogue computing --- bioprocessor --- annealing temperatures --- data retention --- flip-flop --- low-power technique