Chemistry Reference
In-Depth Information
146. Chandler J, Gurmin T, Robinson N (2000) The place of gold in rapid tests. IVD Technol 6
(2):37
-
59
147. Fu E, Liang T, Houghtaling J, Ramachandran S, Ramsey SA, Lutz B, Yager P (2011)
Enhanced sensitivity of lateral
fl
flow tests using a two-dimensional paper network format.
7946. doi:
10.1021/Ac201950g
148. Wang S, Ge L, Song X, Yu J, Ge S, Huang J, Zeng F (2012) Paper-based chemiluminescence
ELISA: lab-on-paper based on chitosan modified paper device and wax-screen-printing.
Biosens Bioelectron 31(1):212
Anal Chem 83(20):7941
-
218. doi:
10.1016/j.bios.2011.10.019
149. Xue LL, Guo LH, Qiu B, Lin ZY, Chen GN (2009) Mechanism for inhibition of Ru(bpy)(3)
(2 +)/DBAE electrochemiluminescence system by dopamine. Electrochem Commun 11
(8):1579
-
1582. doi:
10.1016/j.elecom.2009.05.059
150. Dieterich K (1902) Testing-paper and method of making same. US Patent 691,249
151. Yagoda H (1937) Applications of con
ned spot tests in analytical chemistry: preliminary
152. Herman Y (1938) Test paper. US Patent 2,129,754 A
153. Johnson JL (1967) Microchemical techniques in solving industrial problems. Microchim
154. Deng S, Yetisen AK, Jiang K, Butt H (2014) Computational modelling of a graphene Fresnel
155. Kong X-T, Butt H, Yetisen AK, Kangwanwatana C, Montelongo Y, Deng S, Cruz
Vasconcellos FD, Qasim MM, Wilkinson TD, Dai Q (2014) Enhanced re
-
ection from
inverse tapered nanocone arrays. Appl Phys Lett 105(5):053108. doi:
10.1063/1.4892580
156. Kong XT, Khan AA, Kidambi PR, Deng S, Yetisen AK, Dlubak B, Hiralal P, Montelongo Y,
Bowen J, Xavier S, Jiang K, Amaratunga GAJ, Hofmann S, Wilkinson TD, Dai Q, Butt H
(2014) Graphene based ultra-thin
fl
flat lenses. (under review)
157. Vasconcellos FD, Yetisen AK, Montelongo Y, Butt H, Grigore A, Davidson CAB, Blyth J,
Monteiro MJ, Wilkinson TD, Lowe CR (2014) Printable surface holograms via laser
ablation. ACS Photonics 1(6):489
fl
495. doi:
10.1021/Ph400149m
158. Montelongo Y, Tenorio-Pearl JO, Williams C, Zhang S, Milne WI, Wilkinson TD (2014)
Plasmonic nanoparticle scattering for color holograms. Proc Natl Acad Sci U S A 111
(35):12679
-
12683. doi:
10.1073/pnas.1405262111
159. Montelongo Y, Tenorio-Pearl JO, Milne WI, Wilkinson TD (2014) Polarization switchable
diffraction based on subwavelength plasmonic nanoantennas. Nano Lett 14(1):294
-
298.
doi:
10.1021/nl4039967
160. Yetisen AK, Naydenova I, Vasconcellos FC, Blyth J, Lowe CR (2014) Holographic sensors:
three-dimensional analyte-sensitive nanostructures and their applications. Chem Rev 114
161. Tsangarides CP, Yetisen AK, da Cruz Vasconcellos F, Montelongo Y, Qasim MM,
Wilkinson TD, Lowe CR, Butt H (2014) Computational modelling and characterisation of
nanoparticle-based tuneable photonic crystal sensors. RSC Adv 4(21):10454
-
10461. doi:
10.
-
162. Yetisen AK, Butt H, da Cruz Vasconcellos F, Montelongo Y, Davidson CAB, Blyth J, Chan
L, Carmody JB, Vignolini S, Steiner U, Baumberg JJ, Wilkinson TD, Lowe CR (2014)
Light-directed writing of chemically tunable narrow-band holographic sensors. Adv Opt
Mater 2(3):250
254. doi:
10.1002/adom.201300375
163. Yetisen AK, Qasim MM, Nosheen S, Wilkinson TD, Lowe CR (2014) Pulsed laser writing
of holographic nanosensors. J Mater Chem C 2(18):3569
-
3576. doi:
10.1039/C3tc32507e
164. Yetisen AK, Montelongo Y, da Cruz Vasconcellos F, Martinez-Hurtado JL, Neupane S, Butt
H, Qasim MM, Blyth J, Burling K, Carmody JB, Evans M, Wilkinson TD, Kubota LT,
Monteiro MJ, Lowe CR (2014) Reusable, robust, and accurate laser-generated photonic
-
