-
2
-
-
84906896330
-
Conductive Nanomaterials for Printed Electronics
-
Kamyshny, A.; Magdassi, S. Conductive Nanomaterials for Printed Electronics Small 2014, 10, 3515-3535
-
(2014)
Small
, vol.10
, pp. 3515-3535
-
-
Kamyshny, A.1
Magdassi, S.2
-
3
-
-
59649111119
-
A High-Mobility Electron-Transporting Polymer for Printed Transistors
-
Yan, H.; Chen, Z. H.; Zheng, Y.; Newman, C.; Quinn, J. R.; Dotz, F.; Kastler, M.; Facchetti, A. A High-Mobility Electron-Transporting Polymer for Printed Transistors Nature 2009, 457, 679-U1
-
(2009)
Nature
, vol.457
, pp. 679-U1
-
-
Yan, H.1
Chen, Z.H.2
Zheng, Y.3
Newman, C.4
Quinn, J.R.5
Dotz, F.6
Kastler, M.7
Facchetti, A.8
-
4
-
-
84882263671
-
Polymer Solar Cells with Inkjet-Printed Doped-PEDOT: PSS Anode
-
Del Mauro, A. D.; Diana, R.; Grimaldi, I. A.; Loffredo, F.; Morvillo, P.; Villani, F.; Minarini, C. Polymer Solar Cells with Inkjet-Printed Doped-PEDOT: PSS Anode Polym. Compos. 2013, 34, 1493-1499
-
(2013)
Polym. Compos.
, vol.34
, pp. 1493-1499
-
-
Del Mauro, A.D.1
Diana, R.2
Grimaldi, I.A.3
Loffredo, F.4
Morvillo, P.5
Villani, F.6
Minarini, C.7
-
5
-
-
77954605683
-
Fabrication of Polyaniline-Based Gas Sensors Using Piezoelectric Inkjet and Screen Printing for the Detection of Hydrogen Sulfide
-
Crowley, K.; Morrin, A.; Shepherd, R. L.; Panhuis, M. I. H.; Wallace, G. G.; Smyth, M. R.; Killard, A. J. Fabrication of Polyaniline-Based Gas Sensors Using Piezoelectric Inkjet and Screen Printing for the Detection of Hydrogen Sulfide IEEE Sens. J. 2010, 10, 1419-1426
-
(2010)
IEEE Sens. J.
, vol.10
, pp. 1419-1426
-
-
Crowley, K.1
Morrin, A.2
Shepherd, R.L.3
Panhuis, M.I.H.4
Wallace, G.G.5
Smyth, M.R.6
Killard, A.J.7
-
6
-
-
79751517620
-
Inkjet and Extrusion Printing of Conducting Poly(3,4-ethylenedioxythiophene) Tracks on and Embedded in Biopolymer Materials
-
Mire, C. A.; Agrawal, A.; Wallace, G. G.; Calvert, P.; Panhuis, M. I. H. Inkjet and Extrusion Printing of Conducting Poly(3,4-ethylenedioxythiophene) Tracks on and Embedded in Biopolymer Materials J. Mater. Chem. 2011, 21, 2671-2678
-
(2011)
J. Mater. Chem.
, vol.21
, pp. 2671-2678
-
-
Mire, C.A.1
Agrawal, A.2
Wallace, G.G.3
Calvert, P.4
Panhuis, M.I.H.5
-
7
-
-
67649243332
-
Inkjet-Printed Quantum Dot-Polymer Composites for Full-Color AC-Driven Displays
-
Wood, V.; Panzer, M. J.; Chen, J. L.; Bradley, M. S.; Halpert, J. E.; Bawendi, M. C.; Bulovic, V. Inkjet-Printed Quantum Dot-Polymer Composites for Full-Color AC-Driven Displays Adv. Mater. 2009, 21, 2151-2155
-
(2009)
Adv. Mater.
, vol.21
, pp. 2151-2155
-
-
Wood, V.1
Panzer, M.J.2
Chen, J.L.3
Bradley, M.S.4
Halpert, J.E.5
Bawendi, M.C.6
Bulovic, V.7
-
8
-
-
25444459649
-
Inkjet Printing of Nanosized Silver Colloids
-
Lee, H. H.; Chou, K. S.; Huang, K. C. Inkjet Printing of Nanosized Silver Colloids Nanotechnology 2005, 16, 2436-2441
-
(2005)
Nanotechnology
, vol.16
, pp. 2436-2441
-
-
Lee, H.H.1
Chou, K.S.2
Huang, K.C.3
-
9
-
-
84876392265
-
Inkjet Printing of Aligned Single-Walled Carbon-Nanotube Thin Films
-
Takagi, Y.; Nobusa, Y.; Gocho, S.; Kudou, H.; Yanagi, K.; Kataura, H.; Takenobu, T. Inkjet Printing of Aligned Single-Walled Carbon-Nanotube Thin Films Appl. Phys. Lett. 2013, 102, 143107
-
(2013)
Appl. Phys. Lett.
, vol.102
, pp. 143107
-
-
Takagi, Y.1
Nobusa, Y.2
Gocho, S.3
Kudou, H.4
Yanagi, K.5
Kataura, H.6
Takenobu, T.7
-
10
-
-
84897823495
-
Inkjet-Printed Stretchable Single-Walled Carbon Nanotube Electrodes with Excellent Mechanical Properties
-
Kim, T.; Song, H.; Ha, J.; Kim, S.; Kim, D.; Chung, S.; Lee, J.; Hong, Y. Inkjet-Printed Stretchable Single-Walled Carbon Nanotube Electrodes with Excellent Mechanical Properties Appl. Phys. Lett. 2014, 104, 113103
-
(2014)
Appl. Phys. Lett.
, vol.104
, pp. 113103
-
-
Kim, T.1
Song, H.2
Ha, J.3
Kim, S.4
Kim, D.5
Chung, S.6
Lee, J.7
Hong, Y.8
-
11
-
-
84885673991
-
All-Printed and Transparent Single Walled Carbon Nanotube Thin Film Transistor Devices
-
Sajed, F.; Rutherglen, C. All-Printed and Transparent Single Walled Carbon Nanotube Thin Film Transistor Devices Appl. Phys. Lett. 2013, 103, 143303
-
(2013)
Appl. Phys. Lett.
, vol.103
, pp. 143303
-
-
Sajed, F.1
Rutherglen, C.2
-
12
-
-
34548408297
-
Ink-Jet Printing of Carbon Nanotube Thin Film Transistors
-
Beecher, P.; Servati, P.; Rozhin, A.; Colli, A.; Scardaci, V.; Pisana, S.; Hasan, T.; Flewitt, A. J.; Robertson, J.; Hsieh, G. W.; Li, F. M.; Nathan, A.; Ferrari, A. C.; Milne, W. I. Ink-Jet Printing of Carbon Nanotube Thin Film Transistors J. Appl. Phys. 2007, 102, 025005
-
(2007)
J. Appl. Phys.
, vol.102
, pp. 025005
-
-
Beecher, P.1
Servati, P.2
Rozhin, A.3
Colli, A.4
Scardaci, V.5
Pisana, S.6
Hasan, T.7
Flewitt, A.J.8
Robertson, J.9
Hsieh, G.W.10
Li, F.M.11
Nathan, A.12
Ferrari, A.C.13
Milne, W.I.14
-
13
-
-
42549166567
-
Inkjet Printing of Single-Walled Carbon Nanotubes and Electrical Characterization of the Line Pattern
-
Song, J.-W.; Kim, J.; Yoon, Y.-H.; Choi, B.-S.; Kim, J.-H.; Han, C.-S. Inkjet Printing of Single-Walled Carbon Nanotubes and Electrical Characterization of the Line Pattern Nanotechnology 2008, 19, 095702
-
(2008)
Nanotechnology
, vol.19
, pp. 095702
-
-
Song, J.-W.1
Kim, J.2
Yoon, Y.-H.3
Choi, B.-S.4
Kim, J.-H.5
Han, C.-S.6
-
14
-
-
84907145498
-
Inkjet Printing of Flexible High-Performance Carbon Nanotube Transparent Conductive Films by "coffee Ring Effect"
-
Shimoni, A.; Azoubel, S.; Magdassi, S. Inkjet Printing of Flexible High-Performance Carbon Nanotube Transparent Conductive Films by "Coffee Ring Effect" Nanoscale 2014, 6, 11084-11488
-
(2014)
Nanoscale
, vol.6
, pp. 11084-11488
-
-
Shimoni, A.1
Azoubel, S.2
Magdassi, S.3
-
15
-
-
34548783267
-
Inkjet Printing of Transparent, Electrically Conducting Single-Walled Carbon-Nanotube Composites
-
Small, W. R.; Panhuis, M. I. H. Inkjet Printing of Transparent, Electrically Conducting Single-Walled Carbon-Nanotube Composites Small 2007, 3, 1500-1503
-
(2007)
Small
, vol.3
, pp. 1500-1503
-
-
Small, W.R.1
Panhuis, M.I.H.2
-
16
-
-
77949344390
-
All-Organic Vapor Sensor Using Inkjet-Printed Reduced Graphene Oxide
-
Dua, V.; Surwade, S. P.; Ammu, S.; Agnihotra, S. R.; Jain, S.; Roberts, K. E.; Park, S.; Ruoff, R. S.; Manohar, S. K. All-Organic Vapor Sensor Using Inkjet-Printed Reduced Graphene Oxide Angew. Chem., Int. Ed. 2010, 49, 2154-2157
-
(2010)
Angew. Chem., Int. Ed.
, vol.49
, pp. 2154-2157
-
-
Dua, V.1
Surwade, S.P.2
Ammu, S.3
Agnihotra, S.R.4
Jain, S.5
Roberts, K.E.6
Park, S.7
Ruoff, R.S.8
Manohar, S.K.9
-
17
-
-
79959613164
-
Graphene-Based Conducting Inks for Direct Inkjet Printing of Flexible Conductive Patterns and Their Applications in Electric Circuits and Chemical Sensors
-
Huang, L.; Huang, Y.; Liang, J. J.; Wan, X. J.; Chen, Y. S. Graphene-Based Conducting Inks for Direct Inkjet Printing of Flexible Conductive Patterns and Their Applications in Electric Circuits and Chemical Sensors Nano Res. 2011, 4, 675-684
-
(2011)
Nano Res.
, vol.4
, pp. 675-684
-
-
Huang, L.1
Huang, Y.2
Liang, J.J.3
Wan, X.J.4
Chen, Y.S.5
-
18
-
-
84866353914
-
Temperature-Dependent Electrical Properties of Graphene Inkjet-Printed on Flexible Materials
-
Kong, D.; Le, L. T.; Li, Y.; Zunino, J. L.; Lee, W. Temperature-Dependent Electrical Properties of Graphene Inkjet-Printed on Flexible Materials Langmuir 2012, 28, 13467-13472
-
(2012)
Langmuir
, vol.28
, pp. 13467-13472
-
-
Kong, D.1
Le, L.T.2
Li, Y.3
Zunino, J.L.4
Lee, W.5
-
19
-
-
79952360422
-
Graphene Supercapacitor Electrodes Fabricated by Inkjet Printing and Thermal Reduction of Graphene Oxide
-
Le, L. T.; Ervin, M. H.; Qiu, H. W.; Fuchs, B. E.; Lee, W. Y. Graphene Supercapacitor Electrodes Fabricated by Inkjet Printing and Thermal Reduction of Graphene Oxide Electrochem. Commun. 2011, 13, 355-358
-
(2011)
Electrochem. Commun.
, vol.13
, pp. 355-358
-
-
Le, L.T.1
Ervin, M.H.2
Qiu, H.W.3
Fuchs, B.E.4
Lee, W.Y.5
-
20
-
-
84881156476
-
Efficient Inkjet Printing of Graphene
-
Li, J.; Ye, F.; Vaziri, S.; Muhammed, M.; Lemme, M. C.; Ostling, M. Efficient Inkjet Printing of Graphene Adv. Mater. 2013, 25, 3985-3992
-
(2013)
Adv. Mater.
, vol.25
, pp. 3985-3992
-
-
Li, J.1
Ye, F.2
Vaziri, S.3
Muhammed, M.4
Lemme, M.C.5
Ostling, M.6
-
21
-
-
84859622517
-
Inkjet-Printed Reduced Graphene Oxide/Poly(vinyl alcohol) Composite Electrodes for Flexible Transparent Organic Field-Effect Transistors
-
Lim, S.; Kang, B.; Kwak, D.; Lee, W. H.; Lim, J. A.; Cho, K. Inkjet-Printed Reduced Graphene Oxide/Poly(vinyl alcohol) Composite Electrodes for Flexible Transparent Organic Field-Effect Transistors J. Phys. Chem. C 2012, 116, 7520-7525
-
(2012)
J. Phys. Chem. C
, vol.116
, pp. 7520-7525
-
-
Lim, S.1
Kang, B.2
Kwak, D.3
Lee, W.H.4
Lim, J.A.5
Cho, K.6
-
22
-
-
84876591432
-
Inkjet Printing of High Conductivity, Flexible Graphene Patterns
-
Secor, E. B.; Prabhumirashi, P. L.; Puntambekar, K.; Geier, M. L.; Hersam, M. C. Inkjet Printing of High Conductivity, Flexible Graphene Patterns J. Phys. Chem. Lett. 2013, 4, 1347-1351
-
(2013)
J. Phys. Chem. Lett.
, vol.4
, pp. 1347-1351
-
-
Secor, E.B.1
Prabhumirashi, P.L.2
Puntambekar, K.3
Geier, M.L.4
Hersam, M.C.5
-
23
-
-
79955623643
-
Micropatterning of Graphene Sheets by Inkjet Printing and Its Wideband Dipole-Antenna Application
-
Shin, K. Y.; Hong, J. Y.; Jang, J. Micropatterning of Graphene Sheets by Inkjet Printing and Its Wideband Dipole-Antenna Application Adv. Mater. 2011, 23, 2113-2118
-
(2011)
Adv. Mater.
, vol.23
, pp. 2113-2118
-
-
Shin, K.Y.1
Hong, J.Y.2
Jang, J.3
-
24
-
-
79960476906
-
Flexible and Transparent Graphene Films as Acoustic Actuator Electrodes Using Inkjet Printing
-
Shin, K. Y.; Hong, J. Y.; Jang, J. Flexible and Transparent Graphene Films as Acoustic Actuator Electrodes Using Inkjet Printing Chem. Commun. 2011, 47, 8527-8529
-
(2011)
Chem. Commun.
, vol.47
, pp. 8527-8529
-
-
Shin, K.Y.1
Hong, J.Y.2
Jang, J.3
-
25
-
-
84860385148
-
Inkjet-Printed Graphene Electronics
-
Torrisi, F.; Hasan, T.; Wu, W. P.; Sun, Z. P.; Lombardo, A.; Kulmala, T. S.; Hsieh, G. W.; Jung, S. J.; Bonaccorso, F.; Paul, P. J.; Chu, D. P.; Ferrari, A. C. Inkjet-Printed Graphene Electronics ACS Nano 2012, 6, 2992-3006
-
(2012)
ACS Nano
, vol.6
, pp. 2992-3006
-
-
Torrisi, F.1
Hasan, T.2
Wu, W.P.3
Sun, Z.P.4
Lombardo, A.5
Kulmala, T.S.6
Hsieh, G.W.7
Jung, S.J.8
Bonaccorso, F.9
Paul, P.J.10
Chu, D.P.11
Ferrari, A.C.12
-
26
-
-
84891808763
-
Inkjet Deposition of Liquid-Exfoliated Graphene and MoS2 Nanosheets for Printed Device Applications
-
Finn, D. J.; Lotya, M.; Cunningham, G.; Smith, R. J.; McCloskey, D.; Donegan, J. F.; Coleman, J. N. Inkjet Deposition of Liquid-Exfoliated Graphene and MoS2 Nanosheets for Printed Device Applications J. Mater. Chem. C 2014, 2, 925-932
-
(2014)
J. Mater. Chem. C
, vol.2
, pp. 925-932
-
-
Finn, D.J.1
Lotya, M.2
Cunningham, G.3
Smith, R.J.4
McCloskey, D.5
Donegan, J.F.6
Coleman, J.N.7
-
27
-
-
84919976896
-
Electrifying Inks with 2D Materials
-
Torrisi, F.; Coleman, J. N. Electrifying Inks with 2D Materials Nat. Nanotechnol. 2014, 9, 738-739
-
(2014)
Nat. Nanotechnol.
, vol.9
, pp. 738-739
-
-
Torrisi, F.1
Coleman, J.N.2
-
28
-
-
84880626504
-
High-Concentration Aqueous Dispersions of MoS2
-
Yao, Y.; Tolentino, L.; Yang, Z.; Song, X.; Zhang, W.; Chen, Y.; Wong, C.-P. High-Concentration Aqueous Dispersions of MoS2 Adv. Funct. Mater. 2013, 23, 3577-3583
-
(2013)
Adv. Funct. Mater.
, vol.23
, pp. 3577-3583
-
-
Yao, Y.1
Tolentino, L.2
Yang, Z.3
Song, X.4
Zhang, W.5
Chen, Y.6
Wong, C.-P.7
-
29
-
-
84891764011
-
High Yield Exfoliation of Two-Dimensional Chalcogenides Using Sodium Naphthalenide
-
Zheng, J.; Zhang, H.; Dong, S.; Liu, Y.; Nai, C. T.; Shin, H. S.; Jeong, H. Y.; Liu, B.; Loh, K. P. High Yield Exfoliation of Two-Dimensional Chalcogenides Using Sodium Naphthalenide Nat. Commun. 2014, 5, 2995
-
(2014)
Nat. Commun.
, vol.5
, pp. 2995
-
-
Zheng, J.1
Zhang, H.2
Dong, S.3
Liu, Y.4
Nai, C.T.5
Shin, H.S.6
Jeong, H.Y.7
Liu, B.8
Loh, K.P.9
-
30
-
-
84920015142
-
Inkjet Printing of MoS2
-
Li, J.; Naiini, M. M.; Vaziri, S.; Lemme, M. C.; Östling, M. Inkjet Printing of MoS2 Adv. Funct. Mater. 2014, 24, 6524-6531
-
(2014)
Adv. Funct. Mater.
, vol.24
, pp. 6524-6531
-
-
Li, J.1
Naiini, M.M.2
Vaziri, S.3
Lemme, M.C.4
Östling, M.5
-
31
-
-
0034672078
-
High-Resolution Inkjet Printing of All-Polymer Transistor Circuits
-
Sirringhaus, H.; Kawase, T.; Friend, R. H.; Shimoda, T.; Inbasekaran, M.; Wu, W.; Woo, E. P. High-Resolution Inkjet Printing of All-Polymer Transistor Circuits Science 2000, 290, 2123-2126
-
(2000)
Science
, vol.290
, pp. 2123-2126
-
-
Sirringhaus, H.1
Kawase, T.2
Friend, R.H.3
Shimoda, T.4
Inbasekaran, M.5
Wu, W.6
Woo, E.P.7
-
32
-
-
79951660818
-
Inkjet-Printed Organic Electrodes for Bottom-Contact Organic Field-Effect Transistors
-
Zhang, J.; Zhao, Y.; Wei, Z. M.; Sun, Y. M.; He, Y. D.; Di, C. A.; Xu, W.; Hu, W. P.; Liu, Y. Q.; Zhu, D. B. Inkjet-Printed Organic Electrodes for Bottom-Contact Organic Field-Effect Transistors Adv. Funct. Mater. 2011, 21, 786-791
-
(2011)
Adv. Funct. Mater.
, vol.21
, pp. 786-791
-
-
Zhang, J.1
Zhao, Y.2
Wei, Z.M.3
Sun, Y.M.4
He, Y.D.5
Di, C.A.6
Xu, W.7
Hu, W.P.8
Liu, Y.Q.9
Zhu, D.B.10
-
33
-
-
84856226945
-
Inkjet-Printed Graphene-Poly(3,4-ethylenedioxythiophene):Poly(styrene-sulfonate) Modified on Screen Printed Carbon Electrode for Electrochemical Sensing of Salbutamol
-
Karuwan, C.; Sriprachuabwong, C.; Wisitsoraat, A.; Phokharatkul, D.; Sritongkham, P.; Tuantranont, A. Inkjet-Printed Graphene-Poly(3,4-ethylenedioxythiophene):Poly(styrene-sulfonate) Modified on Screen Printed Carbon Electrode for Electrochemical Sensing of Salbutamol Sens. Actuators, B 2012, 161, 549-555
-
(2012)
Sens. Actuators, B
, vol.161
, pp. 549-555
-
-
Karuwan, C.1
Sriprachuabwong, C.2
Wisitsoraat, A.3
Phokharatkul, D.4
Sritongkham, P.5
Tuantranont, A.6
-
34
-
-
84885913185
-
Flexible Sensor Based on Carbon Nanofibers with Multifunctional Sensing Features
-
Monereo, O.; Claramunt, S.; de Marigorta, M. M.; Boix, M.; Leghrib, R.; Prades, J. D.; Cornet, A.; Merino, P.; Merino, C.; Cirera, A. Flexible Sensor Based on Carbon Nanofibers with Multifunctional Sensing Features Talanta 2013, 107, 239-247
-
(2013)
Talanta
, vol.107
, pp. 239-247
-
-
Monereo, O.1
Claramunt, S.2
De Marigorta, M.M.3
Boix, M.4
Leghrib, R.5
Prades, J.D.6
Cornet, A.7
Merino, P.8
Merino, C.9
Cirera, A.10
-
35
-
-
0001361246
-
Polymer Electroluminescent Devices Processed by Inkjet Printing: I. Polymer Light-Emitting Logo
-
Bharathan, J.; Yang, Y. Polymer Electroluminescent Devices Processed by Inkjet Printing: I. Polymer Light-Emitting Logo Appl. Phys. Lett. 1998, 72, 2660-2662
-
(1998)
Appl. Phys. Lett.
, vol.72
, pp. 2660-2662
-
-
Bharathan, J.1
Yang, Y.2
-
36
-
-
77955571382
-
Inkjet Printing of Single-Walled Carbon Nanotube/RuO2 Nanowire Supercapacitors on Cloth Fabrics and Flexible Substrates
-
Chen, P. C.; Chen, H. T.; Qiu, J.; Zhou, C. W. Inkjet Printing of Single-Walled Carbon Nanotube/RuO2 Nanowire Supercapacitors on Cloth Fabrics and Flexible Substrates Nano Res. 2010, 3, 594-603
-
(2010)
Nano Res.
, vol.3
, pp. 594-603
-
-
Chen, P.C.1
Chen, H.T.2
Qiu, J.3
Zhou, C.W.4
-
37
-
-
83655201146
-
Carbon Black Supercapacitors Employing Thin Electrodes
-
Kossyrev, P. Carbon Black Supercapacitors Employing Thin Electrodes J. Power Sources 2012, 201, 347-352
-
(2012)
J. Power Sources
, vol.201
, pp. 347-352
-
-
Kossyrev, P.1
-
38
-
-
54949087281
-
Printing Highly Efficient Organic Solar Cells
-
Hoth, C. N.; Schilinsky, P.; Choulis, S. A.; Brabec, C. J. Printing Highly Efficient Organic Solar Cells Nano Lett. 2008, 8, 2806-2813
-
(2008)
Nano Lett.
, vol.8
, pp. 2806-2813
-
-
Hoth, C.N.1
Schilinsky, P.2
Choulis, S.A.3
Brabec, C.J.4
-
39
-
-
84876158525
-
Recent Advances in Organic Transistor Printing Processes
-
Kang, B.; Lee, W. H.; Cho, K. Recent Advances in Organic Transistor Printing Processes ACS Appl. Mater. Interfaces 2013, 5, 2302-2315
-
(2013)
ACS Appl. Mater. Interfaces
, vol.5
, pp. 2302-2315
-
-
Kang, B.1
Lee, W.H.2
Cho, K.3
-
40
-
-
77955868191
-
Electrical Transport and Field-Effect Transistors Using Inkjet-Printed SWCNT Films Having Different Functional Side Groups
-
Gracia-Espino, E.; Sala, G.; Pino, F.; Halonen, N.; Luomahaara, J.; Mäklin, J.; Tóth, G.; Kordás, K.; Jantunen, H.; Terrones, M.; Helistö, P.; Seppä, H.; Ajayan, P. M.; Vajtai, R. Electrical Transport and Field-Effect Transistors Using Inkjet-Printed SWCNT Films Having Different Functional Side Groups ACS Nano 2010, 4, 3318-3324
-
(2010)
ACS Nano
, vol.4
, pp. 3318-3324
-
-
Gracia-Espino, E.1
Sala, G.2
Pino, F.3
Halonen, N.4
Luomahaara, J.5
Mäklin, J.6
Tóth, G.7
Kordás, K.8
Jantunen, H.9
Terrones, M.10
Helistö, P.11
Seppä, H.12
Ajayan, P.M.13
Vajtai, R.14
-
41
-
-
84873806708
-
Inkjet Printing of Silver Nano-Suspensions on Ceramic Substrates - Sintering Temperature Effect on Electrical Properties
-
Faddoul, R.; Reverdy-Bruas, N.; Blayo, A.; Khelifi, B. Inkjet Printing of Silver Nano-Suspensions on Ceramic Substrates - Sintering Temperature Effect on Electrical Properties Microelectron. Eng. 2013, 105, 31-39
-
(2013)
Microelectron. Eng.
, vol.105
, pp. 31-39
-
-
Faddoul, R.1
Reverdy-Bruas, N.2
Blayo, A.3
Khelifi, B.4
-
42
-
-
25444459649
-
Inkjet Printing of Nanosized Silver Colloids
-
Hsien-Hsueh, L.; Kan-Sen, C.; Kuo-Cheng, H. Inkjet Printing of Nanosized Silver Colloids Nanotechnology 2005, 16, 2436
-
(2005)
Nanotechnology
, vol.16
, pp. 2436
-
-
Hsien-Hsueh, L.1
Kan-Sen, C.2
Kuo-Cheng, H.3
-
43
-
-
46449109628
-
Inkjet-Printed Silver Tracks: Low Temperature Curing and Thermal Stability Investigation
-
Perelaer, J.; de laat, A. W. M.; Hendriks, C. E.; Schubert, U. S. Inkjet-Printed Silver Tracks: Low Temperature Curing and Thermal Stability Investigation J. Mater. Chem. 2008, 18, 3209-3215
-
(2008)
J. Mater. Chem.
, vol.18
, pp. 3209-3215
-
-
Perelaer, J.1
De Laat, A.W.M.2
Hendriks, C.E.3
Schubert, U.S.4
-
44
-
-
84858956444
-
UV-Sintering of Inkjet-Printed Conductive Silver Tracks
-
Portland, OR, Aug 15-18, 2011; IEEE: New York
-
Polzinger, B.; Schoen, F.; Matic, V.; Keck, J.; Willeck, H.; Eberhardt, W.; Kueck, H. UV-Sintering of Inkjet-Printed Conductive Silver Tracks. Nanotechnology (IEEE-NANO), 2011 11th IEEE Conference on, Portland, OR, Aug 15-18, 2011; IEEE: New York, 2011; pp 201-204.
-
(2011)
Nanotechnology (IEEE-NANO), 2011 11th IEEE Conference on
, pp. 201-204
-
-
Polzinger, B.1
Schoen, F.2
Matic, V.3
Keck, J.4
Willeck, H.5
Eberhardt, W.6
Kueck, H.7
-
45
-
-
0038445615
-
Plastic-Compatible Low Resistance Printable Gold Nanoparticle Conductors for Flexible Electronics
-
Huang, D.; Liao, F.; Molesa, S.; Redinger, D.; Subramanian, V. Plastic-Compatible Low Resistance Printable Gold Nanoparticle Conductors for Flexible Electronics J. Electrochem. Soc. 2003, 150, G412-G417
-
(2003)
J. Electrochem. Soc.
, vol.150
, pp. 412-G417
-
-
Huang, D.1
Liao, F.2
Molesa, S.3
Redinger, D.4
Subramanian, V.5
-
46
-
-
84901049628
-
Transparent Conductors Composed of Nanomaterials
-
Layani, M.; Kamyshny, A.; Magdassi, S. Transparent Conductors Composed of Nanomaterials Nanoscale 2014, 6, 5581-5591
-
(2014)
Nanoscale
, vol.6
, pp. 5581-5591
-
-
Layani, M.1
Kamyshny, A.2
Magdassi, S.3
-
47
-
-
84885708183
-
Flexible Transparent Conductive Materials Based on Silver Nanowire Networks: A Review
-
Langley, D.; Giusti, G.; Mayousse, C.; Celle, C.; Bellet, D.; Simonato, J. P. Flexible Transparent Conductive Materials Based on Silver Nanowire Networks: A Review Nanotechnology 2013, 24, 452001
-
(2013)
Nanotechnology
, vol.24
, pp. 452001
-
-
Langley, D.1
Giusti, G.2
Mayousse, C.3
Celle, C.4
Bellet, D.5
Simonato, J.P.6
-
48
-
-
68749098686
-
Silver Nanowire Networks as Flexible, Transparent, Conducting Films: Extremely High DC to Optical Conductivity Ratios
-
De, S.; Higgins, T.; Lyons, P. E.; Doherty, E. M.; Nirmalraj, P. N.; Blau, W. J.; Boland, J. J.; Coleman, J. N. Silver Nanowire Networks as Flexible, Transparent, Conducting Films: Extremely High DC to Optical Conductivity Ratios ACS Nano 2009, 3, 1767-1774
-
(2009)
ACS Nano
, vol.3
, pp. 1767-1774
-
-
De, S.1
Higgins, T.2
Lyons, P.E.3
Doherty, E.M.4
Nirmalraj, P.N.5
Blau, W.J.6
Boland, J.J.7
Coleman, J.N.8
-
49
-
-
80052766875
-
Spray Deposition of Highly Transparent, Low-Resistance Networks of Silver Nanowires over Large Areas
-
Scardaci, V.; Coull, R.; Lyons, P. E.; Rickard, D.; Coleman, J. N. Spray Deposition of Highly Transparent, Low-Resistance Networks of Silver Nanowires over Large Areas Small 2011, 7, 2621-2628
-
(2011)
Small
, vol.7
, pp. 2621-2628
-
-
Scardaci, V.1
Coull, R.2
Lyons, P.E.3
Rickard, D.4
Coleman, J.N.5
-
50
-
-
84907549659
-
A Roll-to-Roll Welding Process for Planarized Silver Nanowire Electrodes
-
Lee, S. J.; Kim, Y.-H.; Kim, J. K.; Baik, H.; Park, J. H.; Lee, J.; Nam, J.; Park, J. H.; Lee, T.-W.; Yi, G.-R.; Cho, J. H. A Roll-to-Roll Welding Process for Planarized Silver Nanowire Electrodes Nanoscale 2014, 6, 11828-34
-
(2014)
Nanoscale
, vol.6
, pp. 11828-11834
-
-
Lee, S.J.1
Kim, Y.-H.2
Kim, J.K.3
Baik, H.4
Park, J.H.5
Lee, J.6
Nam, J.7
Park, J.H.8
Lee, T.-W.9
Yi, G.-R.10
Cho, J.H.11
-
51
-
-
77952936230
-
Scalable Coating and Properties of Transparent, Flexible, Silver Nanowire Electrodes
-
Hu, L.; Kim, H. S.; Lee, J.-Y.; Peumans, P.; Cui, Y. Scalable Coating and Properties of Transparent, Flexible, Silver Nanowire Electrodes ACS Nano 2010, 4, 2955-2963
-
(2010)
ACS Nano
, vol.4
, pp. 2955-2963
-
-
Hu, L.1
Kim, H.S.2
Lee, J.-Y.3
Peumans, P.4
Cui, Y.5
-
52
-
-
40449106707
-
Solution-Processed Metal Nanowire Mesh Transparent Electrodes
-
Lee, J. Y.; Connor, S. T.; Cui, Y.; Peumans, P. Solution-Processed Metal Nanowire Mesh Transparent Electrodes Nano Lett. 2008, 8, 689-692
-
(2008)
Nano Lett.
, vol.8
, pp. 689-692
-
-
Lee, J.Y.1
Connor, S.T.2
Cui, Y.3
Peumans, P.4
-
53
-
-
77955578110
-
Uniform, Highly Conductive, and Patterned Transparent Films of a Percolating Silver Nanowire Network on Rigid and Flexible Substrates Using a Dry Transfer Technique
-
Madaria, A. R.; Kumar, A.; Ishikawa, F. N.; Zhou, C. W. Uniform, Highly Conductive, and Patterned Transparent Films of a Percolating Silver Nanowire Network on Rigid and Flexible Substrates Using a Dry Transfer Technique Nano Res. 2010, 3, 564-573
-
(2010)
Nano Res.
, vol.3
, pp. 564-573
-
-
Madaria, A.R.1
Kumar, A.2
Ishikawa, F.N.3
Zhou, C.W.4
-
54
-
-
84901660481
-
Relationship between Material Properties and Transparent Heater Performance for Both Bulk-like and Percolative Nanostructured Networks
-
Sorel, S.; Bellet, D.; Coleman, J. N. Relationship between Material Properties and Transparent Heater Performance for Both Bulk-like and Percolative Nanostructured Networks ACS Nano 2014, 8, 4805-4814
-
(2014)
ACS Nano
, vol.8
, pp. 4805-4814
-
-
Sorel, S.1
Bellet, D.2
Coleman, J.N.3
-
55
-
-
84867874827
-
Figures of Merit for High-Performance Transparent Electrodes Using Dip-Coated Silver Nanowire Networks
-
Sepulveda-Mora, S. B.; Cloutier, S. G. Figures of Merit for High-Performance Transparent Electrodes Using Dip-Coated Silver Nanowire Networks J. Nanomater. 2012, 2012, 286104
-
(2012)
J. Nanomater.
, vol.2012
, pp. 286104
-
-
Sepulveda-Mora, S.B.1
Cloutier, S.G.2
-
56
-
-
84901988922
-
Nanoinks in Inkjet Metallization - Evolution of Simple Additive-Type Metal Patterning
-
Gysling, H. J. Nanoinks in Inkjet Metallization - Evolution of Simple Additive-Type Metal Patterning Curr. Opin. Colloid Interface Sci. 2014, 19, 155-162
-
(2014)
Curr. Opin. Colloid Interface Sci.
, vol.19
, pp. 155-162
-
-
Gysling, H.J.1
-
57
-
-
84863925304
-
Direct Ink-Jet Printing of Silver Nitrate-Silver Nanowire Hybrid Inks to Fabricate Silver Conductive Lines
-
Wu, J.-T.; Hsu, S. L.-C.; Tsai, M.-H.; Liu, Y.-F.; Hwang, W.-S. Direct Ink-Jet Printing of Silver Nitrate-Silver Nanowire Hybrid Inks To Fabricate Silver Conductive Lines J. Mater. Chem. 2012, 22, 15599-15605
-
(2012)
J. Mater. Chem.
, vol.22
, pp. 15599-15605
-
-
Wu, J.-T.1
Hsu, S.L.-C.2
Tsai, M.-H.3
Liu, Y.-F.4
Hwang, W.-S.5
-
58
-
-
84924269680
-
Inkjet Printed Silver Nanowire Network as Top Electrode for Semi-Transparent Organic Photovoltaic Devices
-
Lu, H.; Lin, J.; Wu, N.; Nie, S.; Luo, Q.; Ma, C.-Q.; Cui, Z. Inkjet Printed Silver Nanowire Network as Top Electrode for Semi-Transparent Organic Photovoltaic Devices Appl. Phys. Lett. 2015, 106, 093302
-
(2015)
Appl. Phys. Lett.
, vol.106
, pp. 093302
-
-
Lu, H.1
Lin, J.2
Wu, N.3
Nie, S.4
Luo, Q.5
Ma, C.-Q.6
Cui, Z.7
-
59
-
-
84903709742
-
Mechanics of Carbon Nanotube Scission under Sonication
-
Stegen, J. Mechanics of Carbon Nanotube Scission under Sonication J. Chem. Phys. 2014, 140, 244908
-
(2014)
J. Chem. Phys.
, vol.140
, pp. 244908
-
-
Stegen, J.1
-
60
-
-
0344897134
-
Inkjet Printing of Highly Loaded Particulate Suspensions
-
Derby, B.; Reis, N. Inkjet Printing of Highly Loaded Particulate Suspensions MRS Bull. 2003, 28, 815-818
-
(2003)
MRS Bull.
, vol.28
, pp. 815-818
-
-
Derby, B.1
Reis, N.2
-
64
-
-
80054945840
-
The Effects of Percolation in Nanostructured Transparent Conductors
-
De, S.; Coleman, J. N. The Effects of Percolation in Nanostructured Transparent Conductors MRS Bull. 2011, 36, 774-781
-
(2011)
MRS Bull.
, vol.36
, pp. 774-781
-
-
De, S.1
Coleman, J.N.2
-
65
-
-
78650745650
-
Size Effects and the Problem with Percolation in Nanostructured Transparent Conductors
-
De, S.; King, P. J.; Lyons, P. E.; Khan, U.; Coleman, J. N. Size Effects and the Problem with Percolation in Nanostructured Transparent Conductors ACS Nano 2010, 4, 7064-7072
-
(2010)
ACS Nano
, vol.4
, pp. 7064-7072
-
-
De, S.1
King, P.J.2
Lyons, P.E.3
Khan, U.4
Coleman, J.N.5
-
66
-
-
80053488453
-
Efficient Organic Solar Cells with Solution-Processed Silver Nanowire Electrodes
-
Leem, D.-S.; Edwards, A.; Faist, M.; Nelson, J.; Bradley, D. D. C.; de Mello, J. C. Efficient Organic Solar Cells with Solution-Processed Silver Nanowire Electrodes Adv. Mater. 2011, 23, 4371-4375
-
(2011)
Adv. Mater.
, vol.23
, pp. 4371-4375
-
-
Leem, D.-S.1
Edwards, A.2
Faist, M.3
Nelson, J.4
Bradley, D.D.C.5
De Mello, J.C.6
-
67
-
-
84859806592
-
The Dependence of the Optoelectrical Properties of Silver Nanowire Networks on Nanowire Length and Diameter
-
Sorel, S.; Lyons, P. E.; De, S.; Dickerson, J. C.; Coleman, J. N. The Dependence of the Optoelectrical Properties of Silver Nanowire Networks on Nanowire Length and Diameter Nanotechnology 2012, 23, 185201
-
(2012)
Nanotechnology
, vol.23
, pp. 185201
-
-
Sorel, S.1
Lyons, P.E.2
De, S.3
Dickerson, J.C.4
Coleman, J.N.5
-
68
-
-
33749345766
-
Conductivity Scaling with Bundle Length and Diameter in Single Walled Carbon Nanotube Networks
-
Hecht, D.; Hu, L. B.; Gruner, G., Conductivity Scaling with Bundle Length and Diameter in Single Walled Carbon Nanotube Networks. Appl. Phys. Lett. 2006, 89.
-
(2006)
Appl. Phys. Lett.
, vol.89
-
-
Hecht, D.1
Hu, L.B.2
Gruner, G.3
-
69
-
-
84862744614
-
Highly Stretchable and Highly Conductive Metal Electrode by Very Long Metal Nanowire Percolation Network
-
Lee, P.; Lee, J.; Lee, H.; Yeo, J.; Hong, S.; Nam, K. H.; Lee, D.; Lee, S. S.; Ko, S. H. Highly Stretchable and Highly Conductive Metal Electrode by Very Long Metal Nanowire Percolation Network Adv. Mater. 2012, 24, 3326-3332
-
(2012)
Adv. Mater.
, vol.24
, pp. 3326-3332
-
-
Lee, P.1
Lee, J.2
Lee, H.3
Yeo, J.4
Hong, S.5
Nam, K.H.6
Lee, D.7
Lee, S.S.8
Ko, S.H.9
-
70
-
-
84857373567
-
Self-Limited Plasmonic Welding of Silver Nanowire Junctions
-
Garnett, E. C.; Cai, W.; Cha, J. J.; Mahmood, F.; Connor, S. T.; Christoforo, M. G.; Cui, Y.; McGehee, M. D.; Brongersma, M. L. Self-Limited Plasmonic Welding of Silver Nanowire Junctions Nat. Mater. 2012, 11, 241-249
-
(2012)
Nat. Mater.
, vol.11
, pp. 241-249
-
-
Garnett, E.C.1
Cai, W.2
Cha, J.J.3
Mahmood, F.4
Connor, S.T.5
Christoforo, M.G.6
Cui, Y.7
McGehee, M.D.8
Brongersma, M.L.9
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