Nanostructured materials and architectures for advanced optoelectronic synaptic devices
Neuromorphic photonics system based on the principle of biological brain is emerging as
one of the potential solutions to the bottleneck inherent in classical von Neumann computing …
one of the potential solutions to the bottleneck inherent in classical von Neumann computing …
Transition metal selenides for electrocatalytic hydrogen evolution reaction
Electrolysis of water is regarded as an attractive and feasible way for producing hydrogen.
So far, various non‐noble metal nanomaterials have been reported as excellent …
So far, various non‐noble metal nanomaterials have been reported as excellent …
Vertical 0D‐Perovskite/2D‐MoS2 van der Waals Heterojunction Phototransistor for Emulating Photoelectric‐Synergistically Classical Pavlovian Conditioning and …
Optoelectronic‐neuromorphic transistors are vital for next‐generation nanoscale brain‐like
computational systems. However, the hardware implementation of optoelectronic …
computational systems. However, the hardware implementation of optoelectronic …
High‐Performance Self‐Driven Polarization‐Sensitive Imaging Photodetectors based on Fully Depleted T‐MoSe2/GeSe/B‐MoSe2 Van der Waals Dual …
K An, Y Pan, X Rong, T Zheng, L Li… - Advanced Functional …, 2024 - Wiley Online Library
New 2D materials with low‐symmetry structures aroused great interest in develo**
monolithic polarization‐sensitive photodetectors with small volumes, which can provide a …
monolithic polarization‐sensitive photodetectors with small volumes, which can provide a …
Unveiling cutting-edge developments: Architectures and nanostructured materials for application in optoelectronic artificial synapses
One possible result of low-level characteristics in the traditional von Neumann formulation
system is brain-inspired photonics technology based on human brain idea. Optoelectronic …
system is brain-inspired photonics technology based on human brain idea. Optoelectronic …
Oxygen-induced controllable p-type do** in 2D semiconductor transition metal dichalcogenides
Exposure to oxygen alters the physical and chemical properties of two-dimensional (2D)
transition metal dichalcogenides (TMDs). In particular, oxygen in the ambient may influence …
transition metal dichalcogenides (TMDs). In particular, oxygen in the ambient may influence …
Recent progress in functional two-dimensional photovoltaic photodetectors and related emerging applications
The photovoltaic effect can directly harvest solar energy by converting optical signals into
current without external bias and thus is a practical and sustainable approach for low-power …
current without external bias and thus is a practical and sustainable approach for low-power …
Heterostructure nanohybrids of Ni-doped MoSe2 coupled with Ti2NTx toward efficient overall water splitting
H Zong, K Yu, Z Zhu - Electrochimica Acta, 2020 - Elsevier
We propose a Ni doped MoSe 2/Ti 2 NT x MXene nanosheet heterostructure engineering
(represented as Ni–MoSe 2/Ti 2 NT x) with low cost and high efficiency as an electrocatalyst …
(represented as Ni–MoSe 2/Ti 2 NT x) with low cost and high efficiency as an electrocatalyst …
Substitutionally Doped MoSe2 for High‐Performance Electronics and Optoelectronics
Abstract 2D materials, of which the carrier type and concentration are easily tuned, show
tremendous superiority in electronic and optoelectronic applications. However, the …
tremendous superiority in electronic and optoelectronic applications. However, the …
Interface engineering of two-dimensional transition metal dichalcogenides towards next-generation electronic devices: recent advances and challenges
Over the past decade, two-dimensional (2D) transition metal dichalcogenides (TMDCs) have
attracted tremendous research interest for future electronics owing to their atomically thin …
attracted tremendous research interest for future electronics owing to their atomically thin …