Black Phosphorus Quantum Dots Functionalized with Photochromic Poly(vinylspiropyran)-Grafted Polydopamine for Transient Digital-Type Memristors

IF 3.3 3区 化学 Q2 CHEMISTRY, MULTIDISCIPLINARY Bulletin of the Chemical Society of Japan Pub Date : 2024-07-19 DOI:10.1093/bulcsj/uoae083
Zemiao Zhao, Qiang Che, Qian Chen, Kexin Wang, Kejia Zhao, Chenjian Zhang, Haidong He, Xinzhu Wang, Yu Chen
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Abstract

The covalent functionalization of black phosphorus quantum dots (BPQDs) with organic species or polymers will inevitably change or damage their electronic structure and intrinsic structure. To address this problem and explore application of BPQDs in transient digital-type memristors, a polydopamine (PDA) thin film is first synthesized in situ on the surface of BPQDs to produce a donor–acceptor type BPQDs@PDA composite which is directly used to react with 2-bromoisobutyryl bromide to give BPQDs@PDA-Br. By using BPQDs@PDA-Br as atom transfer radical polymerization agent, a large number of polyvinylspiropyran chains (PSP) are in situ grown from the PDA surface to yield BPQDs@PDA-PSP. Upon UV/visible light illumination, the spiropyran’s two isomers (ring-closed spiropyran form and ring-opened merocyanine) in the PSP moieties will interconvert into each other rapidly. As expected, the as-fabricated ITO/BPQDs@PDA-PSP/ITO device exhibits typical nonvolatile digital-type memristive performance under visible irradiation, with a small turn-on voltage of -1.52 V, a turn-off voltage of +1.16 V, and an ON/OFF ratio of with an ON/OFF current ratio of 1.02 ×104. Upon UV illumination, the information stored in the device is quickly and completely erased within six seconds. By utilizing a simple memristor-based convolutional neural network, one can easily realize handwritten digit recognition. After 10 epochs of training, numeral recognition accuracy can reach up to 96.21%.
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用于瞬态数字式 Memristors 的光致变色聚(乙烯基硅吡喃)接枝多多巴胺功能化黑磷量子点
黑磷量子点(BPQDs)与有机物或聚合物的共价官能化不可避免地会改变或破坏其电子结构和固有结构。为解决这一问题并探索 BPQDs 在瞬态数字型忆阻器中的应用,首先在 BPQDs 表面原位合成了聚多巴胺(PDA)薄膜,生成了供体-受体型 BPQDs@PDA 复合材料,并直接与 2-溴异丁酰溴反应,得到 BPQDs@PDA-Br。以 BPQDs@PDA-Br 为原子转移自由基聚合剂,大量聚乙烯基硅丙烷链(PSP)从 PDA 表面原位生长,得到 BPQDs@PDA-PSP。在紫外线/可见光的照射下,PSP 分子中的两种异构体(环状封闭的螺吡喃和环状开放的美拉辛)会迅速相互转化。正如预期的那样,制备的 ITO/BPQDs@PDA-PSP/ITO 器件在可见光照射下表现出典型的非易失性数字式记忆性能,开启电压小,为 -1.52 V,关断电压为 +1.16 V,导通/关断比为 1.02 ×104,导通/关断电流比为 1.02 ×104。在紫外线照射下,该器件中存储的信息会在 6 秒钟内迅速被完全擦除。利用基于忆阻器的简单卷积神经网络,可以轻松实现手写数字识别。经过 10 次历时训练后,数字识别准确率可达 96.21%。
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来源期刊
CiteScore
6.40
自引率
5.00%
发文量
194
审稿时长
3-8 weeks
期刊介绍: The Bulletin of the Chemical Society of Japan (BCSJ) is devoted to the publication of scientific research papers in the fields of Theoretical and Physical Chemistry, Analytical and Inorganic Chemistry, Organic and Biological Chemistry, and Applied and Materials Chemistry. BCSJ appears as a monthly journal online and in advance with three kinds of papers (Accounts, Articles, and Short Articles) describing original research. The purpose of BCSJ is to select and publish the most important papers with the broadest significance to the chemistry community in general. The Chemical Society of Japan hopes all visitors will notice the usefulness of our journal and the abundance of topics, and welcomes more submissions from scientists all over the world.
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