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Multilevel Data Encryption Using Thermal‐Treatment Controlled Room Temperature Phosphorescence of Carbon Dot/Polyvinylalcohol Composites

机译：使用碳点/聚乙烯醇复合材料的热处理控制室温磷光进行多级数据加密

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摘要

Thermal‐treatment controlled room temperature phosphorescence is realized by embedding either originally synthesized carbon dots (CDs) or 200 °C thermal‐treated CDs into a polyvinylalcohol (PVA) matrix through post‐synthetic thermal annealing at 200 or 150 °C. The thermal‐treatment controlled phosphorescence is attributed to the transfer of photoexcitation from the excited singlet state to the triplet state through intersystem crossing, followed by radiative transition to the ground state, which is due to decrease of quenchers (oxygen) in the CDs and suppression of the vibrational dissipations through the chemical bonding of CDs in the PVA matrix. Multilevel fluorescence/phosphorescence data encryption is demonstrated based on the thermal‐treatment controlled phosphorescence from CD@PVA composites.

机译：通过在200或150°C下进行合成后的热退火，将最初合成的碳点（CD）或200°C的热处理CD嵌入聚乙烯醇（PVA）基质中，从而实现了热处理控制的室温磷光。热处理控制的磷光归因于光激发通过系统间交叉从激发单重态转移到三重态，然后由辐射转变为基态，这是由于CD中淬灭剂（氧）的减少和抑制通过PVA基质中CD的化学键合来确定振动耗散。基于CD @ PVA复合材料的热处理控制磷光，证明了多级荧光/磷光数据加密。

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期刊名称 Advanced Science
作者
Zhen Tian; Di Li; Elena V. Ushakova; Vladimir G. Maslov; Ding Zhou; Pengtao Jing; Dezhen Shen; Songnan Qu; Andrey L. Rogach;
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作者单位

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年(卷),期 2018(5),9
年度 2018
页码 1800795
总页数 7
原文格式 PDF
正文语种
中图分类
关键词
anti‐counterfeiting carbon dots data encryption polyvinylalcohol matrix room temperature phosphorescence;

机译：防伪;碳点;数据加密;聚乙烯醇基;室温磷光;
入库时间 2022-08-21 11:01:30

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专利

1. Multilevel Data Encryption Using Thermal‐Treatment Controlled Room Temperature Phosphorescence of Carbon Dot/Polyvinylalcohol Composites [J] . Zhen Tian, Di Li, Elena V. Ushakova, Advanced Science . 2018,第9期

机译：使用碳点/聚乙烯醇复合材料的热处理控制室温磷光进行多级数据加密
2. Ultralong-lived room temperature phosphorescence from N and P codoped self-protective carbonized polymer dots for confidential information encryption and decryption dagger [J] . Wang Zifei, Shen Jian, Sun Jiazhen, Journal of Materials Chemistry, C. materials for optical and electronic devices . 2021,第14期

机译：用于机密信息加密和解密匕首的Ultralong-Live室温磷光碳化碳化点和解密匕首
3. Efficient room temperature phosphorescence carbon dots: Information encryption and dual-channel pH sensing [J] . Su Qian, Lu Chunsong, Yang Xiaoming Carbon: An International Journal Sponsored by the American Carbon Society . 2019,第期

机译：高效室温磷光碳碳点：信息加密和双通道pH感应
4. The Effect of Graphitization Heat Treatment Temperature on Thermal Properties of PAN-based Carbon Fiber Carbon-Carbon Composites in Relation to Microstructure and Fiber Orientation Distribution [C] . S. Iqbal, P. Filip Materials Science Technology Conference and Exhibition . 2009

机译：图石墨化热处理温度对微结构和纤维取向分布的泛碳纤维碳 - 碳复合材料热性能的影响
5. Factors controlling the adsorption of natural organic matter onto virgin and thermally reactivated granular activated carbons during full-scale water treatment. [D] . Moore, Brian Christopher. 2000

机译：在大规模水处理过程中，控制天然有机物吸附到原始和热活化的颗粒状活性炭上的因素。
6. Controlling the fluorescence and room-temperature phosphorescence behaviour of carbon nanodots with inorganic crystalline nanocomposites [O] . David C. Green, Mark A. Holden, Mark A. Levenstein, -1

机译：用无机晶体纳米复合材料控制碳纳米点的荧光和室温磷光行为
7. Multilevel Data Encryption Using Thermal-Treatment Controlled Room Temperature Phosphorescence of Carbon Dot/Polyvinylalcohol Composites [O] . Zhen Tian, Di Li, Elena V. Ushakova, 2018

机译：多级数据加密采用热处理控制室温碳点/聚乙烯醇复合材料的温度磷光
8. Thermal Cycling of Thermal Control Paints on Carbon-Carbon and Carbon-Polyimide Composites [R] . Jaworske, D. A. 2006

机译：热控涂料在碳 - 碳和碳 - 聚酰亚胺复合材料上的热循环

Multilevel Data Encryption Using Thermal‐Treatment Controlled Room Temperature Phosphorescence of Carbon Dot/Polyvinylalcohol Composites

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