Screen printing is regarded as a highly competitive manufacture technology for scalable and fast fabrication of printed microelectronics, owing to its advanced merits of low-cost, facile operability and scalability.Ho...Screen printing is regarded as a highly competitive manufacture technology for scalable and fast fabrication of printed microelectronics, owing to its advanced merits of low-cost, facile operability and scalability.However, its large-scale application in printed microelectronics is still limited by screen printing functional ink. In this review, we summarize the recent advances of ink formation, typical scalable applications, and challenging perspectives of screen printing for emerging printed microelectronics. Firstly, we introduce the major mechanism of screen printing and the formation of different organic-and aqueous-based inks by various solvents and binders. Next, we review the most widely used applications of screen printing technique in micro-batteries, micro-supercapacitors and micro-sensors, demonstrative of wide applicability.Finally, the perspectives and future challenges in the sight of screen printing are briefly discussed.展开更多
Conductive inks based on graphene materials have received significant attention for the fabrication of a wide range of printed and flexible devices.However,the application of graphene fillers is limited by their restr...Conductive inks based on graphene materials have received significant attention for the fabrication of a wide range of printed and flexible devices.However,the application of graphene fillers is limited by their restricted mass production and the low concentration of their suspensions.In this study,a highly concentrated and conductive ink based on defect-free graphene was developed by a scalable fluid dynamics process.A high shear exfoliation and mixing process enabled the production of graphene at a high concentration of 47.5 mg mL^(−1)for graphene ink.The screen-printed graphene conductor exhibits a high electrical conductivity of 1.49×10^(4)S m^(−1)and maintains high conductivity under mechanical bending,compressing,and fatigue tests.Based on the as-prepared graphene ink,a printed electrochemical sodium ion(Na^(+))sensor that shows high potentiometric sensing performance was fabricated.Further,by integrating a wireless electronic module,a prototype Na^(+)-sensing watch is demonstrated for the real-time monitoring of the sodium ion concentration in human sweat during the indoor exercise of a volunteer.The scalable and efficient procedure for the preparation of graphene ink presented in this work is very promising for the low-cost,reproducible,and large-scale printing of flexible and wearable electronic devices.展开更多
The aim of this study is to investigate cyclin E, pl6ink4a and ki67 as possible diagnostic biomarkers for cervical preneoplasia using cervical exfoliated-cell specimens, and evaluate the significance for screening pat...The aim of this study is to investigate cyclin E, pl6ink4a and ki67 as possible diagnostic biomarkers for cervical preneoplasia using cervical exfoliated-cell specimens, and evaluate the significance for screening patients at high risk of de- veloping cervical carcinoma. The expression of cyclin E, p16ink4a and ki67 was examinated in 78 cervical exfoliated epithe- lial specimens diagnosed as atypical squamous cells of undetermined significance (ASCIIS) (12 cases), cervical intraepithe- lial neoplasia (CIN) of type 1 (17 cases), CIN2-3(38 cases) and invasive carcinoma (11 cases) using immunohistochemical analysis, and simultaneously, the DNA status of human papillomavirus (HPV) type 16/18 was detected by polymerase chain reaction (PCR) using type specific primers, cyclin E, pl6ink4a and ki67 were all overexpressed in CINs and invasive carci- noma, compared with little expression in ASCUS ( P < 0.005). Overexpression of cyclin E was observed in CIN1 (94.1 % , x2 = 21.16, P < 0.01), and pl6ink4a and ki67 were overexpressed in invasive carcinoma (100% and 90.9% respective- ly) . The degree of pl6ink4a and ki67 expression correlated well with that of epithelial lesions ( P < 0.005). HPV16/18 infec- tion was assessed in CINs and invasive carcinoma samples, and revealed a significant relationship with the degree of cervical epithelial lession. The expression level of pl6ink4a and ki67 seemed more closely associated with HPV16 infection than that of cyclin E ( r s = 1.0 vs rs = 0 . 4 ) . Only 1 case in CIN, and 4 cases in CIN2-3 of HPV18 positive samples were detected. Therefore no statistical significance was found by statistical analysis. Overexpression of cyclin E, p16ink4a and ki67 in CINs and invasive carcinoma cells demonstrates the potential use of cyclin E, p16ink4a and ki67 as diagnostic biomarkers for HPV-related cervical neoplastic lesions. In addition, this technique can be used for screening patients at high risk of devel- oping cervical carcinoma.展开更多
Facile preparation of additive-free inks with both high viscosity and high conductivity is critical for scalable screen printing of wireless electronics,yet very challenging.MXene materials exhibit excellent conductiv...Facile preparation of additive-free inks with both high viscosity and high conductivity is critical for scalable screen printing of wireless electronics,yet very challenging.MXene materials exhibit excellent conductivity and hydrophilicity,showing great potential in the field of additive-free inks for screen printing.Here,we demonstrate the synthesis of additive-free two-dimensional(2D)titanium carbide MXene inks,and realize screen-printed MXene wireless electronics for the first time.The viscosity of MXene ink is solely regulated by tuning the size of MXene nanosheet without any additives,hence rendering the printed MXene film extremely high conductivity of 1.67×10^(5) S/m and fine printing resolution down to 0.05 mm on various flexible substrates.Moreover,radio frequency identification(RFID)tags fabricated using the additive-free MXene ink via screen printing exhibit stable antenna reading performance and superb flexibility.This article,thus offers a new route for the efficient,low-cost and pollution-free manufacture of printable electronics based on additive-free MXene inks.展开更多
基金financially supported by the National Key R@D Program of China (2016YFB0100100,2016YFA0200200)the National Natural Science Foundation of China (22125903,51872283,22075279,21805273,22005297,22005298)+7 种基金the Liao Ning Revitalization Talents Program (XLYC1807153)the CentralGovernment of Liaoning Province Guides The Funds for Local Science and Technology Development (2021JH6/10500112)the Dalian Innovation Support Plan for High Level Talents(2019RT09)the Dalian National Laboratory For Clean Energy(DNL)the CASDNL Cooperation Fund,CAS (DNL201912,DNL201915,DNL202016,DNL202019)DICP (DICP ZZBS201708,DICP ZZBS201802,DICP I2020032)the China Postdoctoral Science Foundation (2019M661141,2020M680995)。
文摘Screen printing is regarded as a highly competitive manufacture technology for scalable and fast fabrication of printed microelectronics, owing to its advanced merits of low-cost, facile operability and scalability.However, its large-scale application in printed microelectronics is still limited by screen printing functional ink. In this review, we summarize the recent advances of ink formation, typical scalable applications, and challenging perspectives of screen printing for emerging printed microelectronics. Firstly, we introduce the major mechanism of screen printing and the formation of different organic-and aqueous-based inks by various solvents and binders. Next, we review the most widely used applications of screen printing technique in micro-batteries, micro-supercapacitors and micro-sensors, demonstrative of wide applicability.Finally, the perspectives and future challenges in the sight of screen printing are briefly discussed.
基金the National Research Foundation of Korea(NRF)Grant funded by the Ministry of Science and ICT(No.2021R1A2C1009926)“Basic project(referring to projects performed with the budget directly contributed by the Government to achieve the purposes of establishment of Government-funded research Institutes)”+3 种基金supported by the KOREA RESEARCH INSTITUTE of CHEMICAL TECHNOLOGY(KRICT)(SS2042-10)Basic research project(Project:21-3212-1)of the Korea institute of GeoscienceMineral resources funded by the Ministry of Science and ICT of Koreaby Nanomedical Devices Development Project of NNFC in 2021.
文摘Conductive inks based on graphene materials have received significant attention for the fabrication of a wide range of printed and flexible devices.However,the application of graphene fillers is limited by their restricted mass production and the low concentration of their suspensions.In this study,a highly concentrated and conductive ink based on defect-free graphene was developed by a scalable fluid dynamics process.A high shear exfoliation and mixing process enabled the production of graphene at a high concentration of 47.5 mg mL^(−1)for graphene ink.The screen-printed graphene conductor exhibits a high electrical conductivity of 1.49×10^(4)S m^(−1)and maintains high conductivity under mechanical bending,compressing,and fatigue tests.Based on the as-prepared graphene ink,a printed electrochemical sodium ion(Na^(+))sensor that shows high potentiometric sensing performance was fabricated.Further,by integrating a wireless electronic module,a prototype Na^(+)-sensing watch is demonstrated for the real-time monitoring of the sodium ion concentration in human sweat during the indoor exercise of a volunteer.The scalable and efficient procedure for the preparation of graphene ink presented in this work is very promising for the low-cost,reproducible,and large-scale printing of flexible and wearable electronic devices.
文摘The aim of this study is to investigate cyclin E, pl6ink4a and ki67 as possible diagnostic biomarkers for cervical preneoplasia using cervical exfoliated-cell specimens, and evaluate the significance for screening patients at high risk of de- veloping cervical carcinoma. The expression of cyclin E, p16ink4a and ki67 was examinated in 78 cervical exfoliated epithe- lial specimens diagnosed as atypical squamous cells of undetermined significance (ASCIIS) (12 cases), cervical intraepithe- lial neoplasia (CIN) of type 1 (17 cases), CIN2-3(38 cases) and invasive carcinoma (11 cases) using immunohistochemical analysis, and simultaneously, the DNA status of human papillomavirus (HPV) type 16/18 was detected by polymerase chain reaction (PCR) using type specific primers, cyclin E, pl6ink4a and ki67 were all overexpressed in CINs and invasive carci- noma, compared with little expression in ASCUS ( P < 0.005). Overexpression of cyclin E was observed in CIN1 (94.1 % , x2 = 21.16, P < 0.01), and pl6ink4a and ki67 were overexpressed in invasive carcinoma (100% and 90.9% respective- ly) . The degree of pl6ink4a and ki67 expression correlated well with that of epithelial lesions ( P < 0.005). HPV16/18 infec- tion was assessed in CINs and invasive carcinoma samples, and revealed a significant relationship with the degree of cervical epithelial lession. The expression level of pl6ink4a and ki67 seemed more closely associated with HPV16 infection than that of cyclin E ( r s = 1.0 vs rs = 0 . 4 ) . Only 1 case in CIN, and 4 cases in CIN2-3 of HPV18 positive samples were detected. Therefore no statistical significance was found by statistical analysis. Overexpression of cyclin E, p16ink4a and ki67 in CINs and invasive carcinoma cells demonstrates the potential use of cyclin E, p16ink4a and ki67 as diagnostic biomarkers for HPV-related cervical neoplastic lesions. In addition, this technique can be used for screening patients at high risk of devel- oping cervical carcinoma.
基金supported by the National Natural Science Foundation of China(No.22279097)the Hainan Provincial Joint Project of Sanya Yazhou Bay Science and Technology City(No.520LH054)the Fundamental Research Funds for the Central Universities(WUT:2021IVA66).
文摘Facile preparation of additive-free inks with both high viscosity and high conductivity is critical for scalable screen printing of wireless electronics,yet very challenging.MXene materials exhibit excellent conductivity and hydrophilicity,showing great potential in the field of additive-free inks for screen printing.Here,we demonstrate the synthesis of additive-free two-dimensional(2D)titanium carbide MXene inks,and realize screen-printed MXene wireless electronics for the first time.The viscosity of MXene ink is solely regulated by tuning the size of MXene nanosheet without any additives,hence rendering the printed MXene film extremely high conductivity of 1.67×10^(5) S/m and fine printing resolution down to 0.05 mm on various flexible substrates.Moreover,radio frequency identification(RFID)tags fabricated using the additive-free MXene ink via screen printing exhibit stable antenna reading performance and superb flexibility.This article,thus offers a new route for the efficient,low-cost and pollution-free manufacture of printable electronics based on additive-free MXene inks.
