Direct Writing on Paper of Foldable Capacitive Touch Pads with Silver Nanowire Inks

Li Ruo-Zhou; Hu Anming; Zhang Tong; Oakes Ken D.

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Direct Writing on Paper of Foldable Capacitive Touch Pads with Silver Nanowire Inks

机译：用银纳米线墨水在可折叠电容式触摸板的纸上直接书写

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Paper-based capacitive touch pads can be fabricated utilizing high-concentration silver nanowire inks needle-printed directly onto paper substrates through a 2D programmable platform. Post deposition, silver nanowire tracks can be photonically sintered using a camera flash to reduce sheet resistance similar to thermal sintering approaches. Touch pad sensors on a variety of paper substrates can be achieved with optimized silver nanowire tracks. Rolling and folding trials, which yielded only modest changes in capacitance and no loss of function, coupled with touch pad functionality on curved surfaces, suggest sufficient flexibility and durability for paper substrate touch pads to be used in diverse applications. A simplified model to predict touch pad capacitance variation ranges with differing touch conditions was developed, with good agreement against experimental results. Such paper-based touch pads have the advantage of simple structure, easy fabrication, and fast sintering, which holds promise for numerous commercial applications including low-cost portable devices where ultrathin and lightweight features, coupled with reliable bending stability are desirable.

机译：可以使用通过2D可编程平台直接针式印刷在纸质基材上的高浓度银纳米线油墨来制造纸质电容式触摸板。沉积后，可以使用热像仪闪光灯对银纳米线走线进行光子烧结，以减少类似于热烧结方法的薄层电阻。通过优化的银纳米线轨迹，可以在各种纸质基材上实现触摸板传感器。滚动和折叠试验仅产生适度的电容变化，而不会造成功能损失，再加上曲面上的触摸板功能，表明用于各种应用的纸质触摸板具有足够的灵活性和耐用性。开发了一种简化模型来预测不同触摸条件下的触摸板电容变化范围，并与实验结果相吻合。这种基于纸的触摸板具有结构简单，易于制造和快速烧结的优点，这为包括低成本便携式设备的许多商业应用提供了希望，在这些便携式设备中需要超薄和轻巧的特征以及可靠的弯曲稳定性。

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《ACS applied materials & interfaces》 |2014年第23期|共9页
作者
Li Ruo-Zhou; Hu Anming; Zhang Tong; Oakes Ken D.;
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正文语种 eng
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direct writing; silver nanowire inks; paper; touch sensors; flexible electronics;

机译：直接书写;纳米银墨水;纸张;触摸传感器;柔性电子;

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1. Direct Writing on Paper of Foldable Capacitive Touch Pads with Silver Nanowire Inks [J] . Li Ruo-Zhou, Hu Anming, Zhang Tong, ACS applied materials & interfaces . 2014,第23期

机译：用银纳米线墨水在可折叠电容式触摸板的纸上直接书写
2. The direct-writing of low cost paper based flexible electrodes and touch pad devices using silver nano-ink and ZnO nanoparticles [J] . Kamlesh Shrivas, Archana Ghosale, Tushar Kant, RSC Advances . 2019,第31期

机译：基于低成本纸的柔性电极和使用银纳米墨水和ZnO纳米粒子的直接写入触控装置
3. Direct-writing of circuit interconnects on cellulose paper using ultra-long, silver nanowires based conducting ink [J] . Nair Keerthi G., Jayaseelan D., Biji P. RSC Advances . 2015,第93期

机译：使用超长银纳米线基导电油墨在纤维素纸上直接书写电路互连
4. Direct-Writing on Paper of CPW-Fed Slot Antenna with Silver Nanowire Conductive Ink [C] . Qin Fu, Mingxin Nie, Qiong Wu, IEEE International Conference on Computer and Communication Engineering Technology . 2018

机译：银纳米线导电墨水在CPW馈电缝隙天线上的直接书写
5. Synthesis and Characterization of Copper Nanowire Inks and Investigation of Direct Ink Writing Process for Printable Electronics [D] . ?Chivate, Aditya 2020

机译：铜纳米线油墨的合成与表征及可印刷电子直接油墨写入过程的研究
6. Direct Writing Supercapacitors Using a Carbon Nanotube/Ag Nanoparticle-Based Ink on Cellulose Acetate Membrane Paper [O] . Xipeng Guan, Lin Cao, Qin Huang, 2019

机译：使用碳纳米管/银纳米颗粒墨水在醋酸纤维素膜纸上直接书写超级电容器
7. Copper Nanowires: A Transparent and Flexible Capacitive-Force Touch Pad from High-Aspect-Ratio Copper Nanowires with Enhanced Oxidation Resistance for Applications in Wearable Electronics (Small Methods 7/2018) [O] . Dongkwan Kim, Jinhyeong Kwon, Jinwook Jung, 2018

机译：铜纳米线：来自高纵横比铜纳米线的透明和柔性电容式触摸垫，可穿戴电子产品中的应用增强耐氧化性（小方法7/2018）

Direct Writing on Paper of Foldable Capacitive Touch Pads with Silver Nanowire Inks

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