7 research outputs found
Printed organo-functionalized graphene for biosensing applications
- Author
- A. Tuantranont
- A. Wisitsoraat
- Allen
- Allen
- Armstrong
- C. Karuwan
- C. Liewhiran
- C. Sriprachuabwong
- Cai
- Cai
- Cai
- Chang
- Chen
- Chen
- Cui
- D. Phokharatkul
- Dato
- Deng
- Dong
- Du
- Fang
- Feng
- Geim
- Georgakilas
- Georgakilas
- Ghindilis
- Gholivand
- Hui
- J. Ph. Mensing
- Jiang
- Joung
- K. Jaruwongrungsee
- Kang
- Karuwan
- Karuwan
- Kim
- Kim
- Kou
- Kuila
- Labroo
- Lawal
- Lee
- Li
- Lin
- Liu
- Lu
- Lu
- Lu
- Léger
- Mao
- Mei
- Meyer
- Mohanty
- Ohno
- Ohno
- Palanisamy
- Park
- Peng
- Pepłowski
- Pumera
- Qi
- Ratinac
- Ruecha
- Sarma
- Shan
- Shan
- Sharma
- Singh
- Sriprachuabwong
- Su
- Su
- T.M. Daniels
- Valappil
- Wang
- Wang
- Wang
- Wang
- Wang
- Wei
- Wu
- Wu
- Wu
- Wu
- Xu
- Xue
- Yan
- Yang
- Yang
- Yao
- Yu
- Zeng
- Zhong
- Zhou
- Zhou
- Zhou
- Zhu
- Publication venue
- 'Elsevier BV'
- Publication date
- Field of study
A high-performance, disposable screen-printed carbon electrode modified with multi-walled carbon nanotubes/graphene for ultratrace level electrochemical sensors
- Author
- Adisorn Tuantranont
- AF Shoukry
- AJS Ahammad
- Anurat Wisitsoraat
- B Garg
- B Pekec
- C Bao
- C Karuwan
- C Punckt
- C Sriprachuabwong
- Chanpen Karuwan
- D Zheng
- DA Scott
- Ditsayut Phokaratkul
- EP Randviir
- F Ricci
- G Darabdhara
- H Karimi-Maleh
- I Ben Rejeb
- J Ping
- J Wang
- J-Y Hu
- Johannes Philipp Mensing
- K Wu
- KSV Santhanam
- M Hosseini
- M Jiang
- M Li
- M Morita
- M Sahin
- MH Banitaba
- MM Mekawy
- N Cruys-Bagger
- NG Tsierkezos
- O-M Istrate
- Patiya Pasakon
- PR Bandaru
- R Antiochia
- R Pauliukaite
- RA Roopa
- S Cheraghi
- S Mohan
- T Zhao
- T-C Chou
- Tanom Lomas
- TH Costa da
- X Zhang
- Publication venue
- 'Springer Science and Business Media LLC'
- Publication date
- Field of study
Investigation of Laplace Barriers for Arrayed Electrowetting Lab-on-a-Chip
- Author
- A. Schultz
- Abdelgawad M.
- Banerjee A.
- Banerjee A.
- Bardin D.
- Bavière R.
- Berry S.
- Bhattacharjee B.
- Bogojevic D.
- Boles D. J.
- Chatterjee D.
- Chevalliot S.
- Choi K.
- Delattre C.
- Dhindsa M.
- Fair R.
- Fouillet Y.
- Gong J.
- Hadwen B.
- Hoshino T.
- I. Papautsky
- J. Heikenfeld
- Jebrail M. J.
- Jebrail M. J.
- Jokerst J. C.
- Karuwan C.
- Keng P. Y.
- Kreit E.
- Kreit E.
- Lin L.
- Mao X.
- Miller E. M.
- Mugele F.
- Ng A. H.
- Noh J. H.
- Paul Y.
- Pollack M. G.
- Ren H.
- Rivet C.
- Sadeghi S.
- Schell W. A.
- Scullion M. G.
- Shih S. C. C.
- Sista R. S.
- Vasudev A.
- Walker S. W.
- Watson M. W. L.
- Yoon J.-Y.
- Zeng X.
- Publication venue
- 'American Chemical Society (ACS)'
- Publication date
- Field of study
Inkjet Printing of Silver Nanowire Networks
- Author
- Beecher P.
- Bharathan J.
- Chen P. C.
- Crowley K.
- David J. Finn
- De S.
- De S.
- De S.
- Del Mauro A. D.
- Derby B.
- Dua V.
- Faddoul R.
- Finn D. J.
- Garnett E. C.
- Gracia-Espino E.
- Gysling H. J.
- Hecht D.
- Hoth C. N.
- Hsien-Hsueh L.
- Hu L.
- Huang D.
- Huang L.
- Hutchings I. M.
- Jonathan N. Coleman
- Kamyshny A.
- Kang B.
- Karuwan C.
- Kim T.
- Kong D.
- Kossyrev P.
- Langley D.
- Layani M.
- Le L. T.
- Lee H. H.
- Lee J. Y.
- Lee P.
- Lee S. J.
- Leem D.-S.
- Li J.
- Li J.
- Lim S.
- Lu H.
- Madaria A. R.
- Mire C. A.
- Monereo O.
- Mustafa Lotya
- Perelaer J.
- Polzinger B.
- Sajed F.
- Scardaci V.
- Secor E. B.
- Sepulveda-Mora S. B.
- Shimoni A.
- Shin K. Y.
- Shin K. Y.
- Sirringhaus H.
- Small W. R.
- Song J.-W.
- Sorel S.
- Sorel S.
- Stauffer D. S.
- Stegen J.
- Takagi Y.
- Torrisi F.
- Torrisi F.
- Wood V.
- Wu J.-T.
- Yan H.
- Yao Y.
- Zhang J.
- Zheng J.
- Publication venue
- 'American Chemical Society (ACS)'
- Publication date
- Field of study
Functional inks and printing of two-dimensional materials
- Author
- Abdelkader
- Acerce
- Agarwal
- Ambrosi
- Amjadi
- Anasori
- Anasori
- Annabi-Bergaya
- Arapov
- Arapov
- Aricò
- Arora
- Artel
- Ausman
- Bachilo
- Backes
- Bae
- Baker
- Bali
- Bandurin
- Barnes
- Beeby
- Beecher
- Bianchi
- Bodenmann
- Bonaccorso
- Bonaccorso
- Bonaccorso
- Bridgman
- Capasso
- Carey
- Carroll
- Carvalho
- Casiraghi
- Castillo
- Castro Neto
- Chambers
- Chen
- Chen
- Cho
- Christopher G. Jones
- Chung
- Ciesielski
- Ciesielski
- Coleman
- Coleman
- Coleman
- Cui
- Cunningham
- Dall'Agnese
- Das
- de Gans
- Dean
- Deegan
- Derby
- Dikin
- Dodoo-Arhin
- Dolley
- Doraiswamy
- Dresselhaus
- Dua
- Eda
- El-Kady
- El-Kady
- Eswaraiah
- Ferrari
- Finn
- Fisher
- Flick
- Flick
- Foster
- Frindt
- Fromm
- Fu
- Fukuda
- Garašanin
- García-Tuñon
- Geim
- George
- Ghidiu
- Ghosh
- Giordani
- Goldschmidt
- Goldschmidt
- Graham
- Green
- Guardia
- Guohua Hu
- Hanlon
- Hao
- Harvey
- Hasan
- Hasan
- Hasan
- Haupt Mosbach
- He
- Hempel
- Hernandez
- Hernandez
- Hong
- Hossain
- Howe
- Howe
- Hu
- Huang
- Hui
- Hwang
- Hyun
- Hyun
- Hyun
- Ibrahem
- Island
- Jacobs-Gedrim
- Jakus
- Jang
- Jiang
- Jo
- Joensen
- Joohoon Kang
- Joseph
- Juntunen
- Kang
- Kang
- Kang
- Kang
- Kang
- Kang
- Karagiannidis
- Karim
- Karuwan
- Keller
- Kelly
- Kennedy
- Khan
- Kong
- Krebs
- Kuhr
- Kurra
- Lahti
- Larson
- Le
- Lee
- Leonard W. T. Ng
- Li
- Li
- Li
- Li
- Li
- Li
- Li
- Li
- Li
- Li
- Liang
- Liem
- Lievens
- Lin
- Ling
- Lipp
- Liu
- Liu
- Lotya
- Lu
- Luo
- Ma
- Mannoor
- Manthiram
- Mark C. Hersam
- Marom
- Mas-Ballesté
- Mathiazhagan
- May
- McClure
- McManus
- Michel
- Miettinen
- Mishra
- Montemor
- Moon
- Mortazavi Zanjani
- Naguib
- Naguib
- Nair
- Nazarpour
- Ng
- Nguyen
- Nguyen
- Nicolosi
- Novoselov
- Novoselov
- Novoselov
- Owczarek
- Pangalos
- Papakonstantinou
- Park
- Park
- Parkin
- Paton
- Peigney
- Phillips
- Pinnavaia
- Raccichini
- Radisavljevic
- Ramanathan
- Riaz
- Richard C. T. Howe
- Robertson
- Rowley-Neale
- Santra
- Santra
- Schedin
- Schwierz
- Secor
- Secor
- Secor
- Secor
- Secor
- Secor
- Shao
- Shavanova
- Shehzad
- Simon
- Singh
- Sirringhaus
- Slonczewski
- Smith
- Soltman
- Son
- Sotor
- Splendiani
- Spree
- Sriprachuabwong
- Stankovich
- Stenzel
- Suganuma
- Sun
- Sun
- Sundaram
- Tawfique Hasan
- Tiller
- Torrisi
- Tracton
- Valles
- Varrla
- Vena
- Voiry
- Vuorinen
- Wallace
- Wang
- Wang
- Withers
- Wood
- Woodward
- Woodward
- Xia
- Xiao
- Xiaoxi Zhu
- Xu
- Xu
- Xu
- Xu
- Yan
- Yang
- Yao
- Yao
- Yasaei
- Yavari
- Yeo
- Yi
- Yilmaz
- Yoo
- Youngblood
- Zang
- Zeng
- Zhang
- Zhang
- Zhang
- Zhang
- Zhang
- Zhao
- Zheng
- Zheng
- Zhou
- Zhu
- Zhu
- Zhu
- Zisman
- Zou
- Publication venue
- 'Royal Society of Chemistry (RSC)'
- Publication date
- 01/01/2018
- Field of study
Graphene and related two-dimensional materials provide an ideal platform for next generation disruptive technologies and applications. Exploiting these solution-processed two-dimensional materials in printing can accelerate this development by allowing additive patterning on both rigid and conformable substrates for flexible device design and large-scale, high-speed, cost-effective manufacturing. In this review, we summarise the current progress on ink formulation of two-dimensional materials and the printable applications enabled by them. We also present our perspectives on their research and technological future prospects
Advances and challenges in biosensor-based diagnosis of infectious diseases
- Author
- Ahmad F
- Al-Zamel FA
- Amasia M
- Arlett JL
- Bauer M
- Bayliss J
- Bergeron MG
- Bourlet T
- Brault ND
- Bryan T
- Cao X
- Cattamanchi A
- Chauhan N
- Chen CH
- Cheng CI
- Chin CD
- Chiu ML
- Chua AL
- Chung HJ
- Citartan M
- Clarke JR
- Corey L
- D'orazio P
- Daniels JS
- Dimaio MA
- Dimov IK
- Fan R
- Fauci AS
- Feeney SA
- Foudeh AM
- Fournier PE
- Franca RF
- Fu E
- Gao J
- Gao J
- Graseck AS
- Guerrant RL
- Guo X
- Guo X
- Gurkan UA
- Halford C
- Haun JB
- Hawkes M
- Hiatt LA
- Hodges EN
- Hooton TM
- Huang JL
- Hunt HK
- Ioannidis P
- Ishikawa FN
- Joseph C Liao
- Ju H
- Kalashnikov M
- Karuwan C
- Kathleen E Mach
- Katz JM
- Kaufman E
- Kim J
- Kim KP
- Kimmel DW
- Kirk JT
- Koncki R
- Kotsaki A
- Kussrow A
- Kussrow A
- Lam B
- Laxminarayan R
- Lee BS
- Lee H
- Li B
- Liang RP
- Lien KY
- Lin M
- Liu Y
- Lu CH
- Lu Y
- Luo X
- Luong JH
- Mabey D
- Mach AJ
- Mach KE
- Mach KE
- Mader A
- Mahalanabis M
- Mahilum-Tapay L
- Mairiang D
- Mandy LY Sin
- Marshall LA
- Martinez AW
- Mohan R
- Moody A
- Moore DA
- Mulvaney SP
- Munson E
- Nainan OV
- Nam JM
- Nam JM
- Ngom B
- O'Ryan M
- Oblath EA
- Omiatek DM
- Oz Y
- Pak Kin Wong
- Pan Y
- Park S
- Park S
- Patel P
- Peduru Hewa TM
- Pejcic B
- Peman J
- Peruski AH
- Pulido MR
- Qiu J-D
- Rapp BE
- Reboud J
- Rodriguez-Villarreal AI
- Ryan C
- Sapsford KE
- Scanvic A
- Schmiemann G
- Shafiee H
- Shi WT
- Siegrist J
- Sin ML
- Sin ML
- Sin ML
- Soelberg SD
- Song S
- Sorger PK
- Statz AR
- Stevens DL
- Tamayo J
- Tang KF
- Tang SX
- Tang Y
- Tawil N
- Tawil N
- Thanyani ST
- Tokonami S
- Van Rie A
- Villamizar RA
- Wang C-H
- Wang EC
- Whitesides GM
- Wiwanitkit V
- Wongsrichanalai C
- Yager P
- Yang S
- Yang X
- Yanik AA
- Zhang GJ
- Zhang JY
- Zuo BL
- Publication venue
- 'Informa UK Limited'
- Publication date
- Field of study
Electrochemical Sensors and Biosensors
- Author
- Abbaspour A.
- Abdelwahab A. A.
- Abounassif A.
- Abu Salah K.
- Ahirwal G. K.
- Ahmad M.
- Akyilmaz E.
- Akyilmaz E.
- Aladag N.
- Alessio P.
- Alghamdi A. H.
- Alizadeh T.
- Alizadeh T.
- Alvarez M.
- Amatore C.
- Ambrosi A.
- Apetrei C.
- Atta N. F.
- Baby T. T.
- Bard A. J.
- Bo X.
- Bratov A.
- Brownson D. A. C.
- Bustos E.
- Chang J.-L.
- Che X.
- Chen X.-m.
- Colombo E.
- Cui L.
- Cunha C. O.
- Danielle W. Kimmel
- David E. Cliffel
- Di Fusco M.
- Ding Y.
- Dogan-Topal B.
- Dohn S.
- Du D.
- Du D.
- Du M.
- El Khatib K. M.
- Ensafi A. A.
- Fan H.
- Fan Y.
- Faridbod F.
- Faridbod F.
- Gabriel LeBlanc
- Gallaway J. W.
- Gamero M.
- Ganjali M. R.
- Ganjali M. R.
- Ganjali M. R.
- Garcia-Martinez G.
- Gholivand M. B.
- Ghorbani-Bidkorbeh F.
- Giannetto M.
- Gil L.
- Gomez-Caballero A.
- Gong J.
- Gu B.
- Guell A. G.
- Guo C. X.
- Guo C. X.
- Guo Y.
- Gupta V. K.
- Habibi B.
- Haghighi B.
- Hahm J.-i.
- Harper A.
- Hartwell S. K.
- Hillman A. R.
- Hosseini M.
- Hruškar M.
- Hu Y.
- Huang H.
- Huang J.
- Huo Z.
- Idegami K.
- Jacobs C. B.
- Ji S. R.
- Jiang L.-C.
- Jiang Y.
- Jie G.
- Jin J.-H.
- Joshi A. Y.
- Kafi A. K. M.
- Kalimuthu P.
- Kang Y.
- Karuwan C.
- Khairy M.
- Khaled E.
- Komathi S.
- Kopylovich M. N.
- Kumar K. G.
- Laboria N.
- Lee S.
- Li J.
- Li Q.
- Li Z.
- Liang R. N.
- Liao Y.
- Lim C. X.
- Lin C.-Y.
- Lin Y. H.
- Lin Y.-Y.
- Liu K.-K.
- Liu S.
- Liu T.
- Liu Y.
- Liu Z. B.
- Livak-Dahl E.
- Loyprasert S.
- Lu L.
- Madunić-Čačić D.
- Malhotra R.
- Malic L.
- Malk R.
- Marks R. S.
- Mashhadizadeh M. H.
- Melli M.
- Meng F.
- Mika E. Meschievitz
- Mirri G.
- Miura N.
- Motlagh M. G.
- Mu Y.
- Muralidharan S.
- Murphy-Perez E.
- Ndangili P. M.
- Noh J.
- Noroozifar M.
- Norouzi P.
- Ogi H.
- Olive-Monllau R.
- Pal R.
- Park B. W.
- Park J. Y.
- Park K.
- Park W. J.
- Parkin J. D.
- Pavinatto F. J.
- Peres A. M.
- Petković B. B.
- Polshin E.
- Pournaghi-Azar M. H.
- Privett B. J.
- Privett B. J.
- Rastakhiz N.
- Rezaei B.
- Riul A.
- Rius-Ruiz F. X.
- Romero M. R.
- Safavi A.
- Sakač N.
- Salazar P.
- Salimi A.
- Sattarahmady N.
- Schmid S.
- Seo B.
- Serafín V.
- Shan X.
- Shao Y.
- Sheng Q.-L.
- Shibata M.
- Siddiquee S.
- Silveira C. M.
- Singh R. P.
- Siqueira J. R.
- Song Z.
- Spijkman M. J.
- Sripirom J.
- Su B.
- Su L.
- Su S.
- Sun W.
- Tang D.
- Tang H.
- Tang J.
- Tang X.
- Tang Y.
- Tao B.
- Toghill K. E.
- Tuantranont A.
- Ulubay S.
- Urbanová V.
- Valle M. D.
- Velmurugan J.
- Vlascici D.
- Vojtisek M.
- Vonau W.
- Vyskocil V.
- Wan D.
- Wan Y.
- Wan Y.
- Wang G.
- Wang J.
- Wang L.
- Wang M. W.
- Wang X.
- Wang X. F.
- Wang Y.
- Wang Y.
- Wang Y.
- Wang Y.
- Washe A. P.
- Wei Q.
- Windmiller J. R.
- Won Y.-H.
- Xie C.
- Xu B.
- Xu L.
- Yang J.
- Yang J.
- Yang M.
- Yang M.
- Yang S.
- Yang Y.
- Yao C.
- Yao H.
- Yashina E. I.
- Yin Z.
- Yue R.
- Zahran E. M.
- Zamani H. A.
- Zeng R.
- Zhang D.
- Zhang F.
- Zhang J.
- Zhang J.
- Zhang Z. B.
- Zhao Z.
- Zhong Z.
- Zhou J.
- Zhuiykov S.
- Zou C.
- Álvarez-Romero G. A.
- Publication venue
- 'American Chemical Society (ACS)'
- Publication date
- Field of study