Chemistry Reference
In-Depth Information
58. Wang XD, Wolfbeis OS (2013) Fiber-optic chemical sensors and biosensors (2008
-
2012).
60. Lin J, Liu D (2000) An optical pH sensor with a linear response over a broad range. Anal
Chim Acta 408(1
55. doi:
10.1016/S0003-2670(99)00840-5
61. Dong S, Luo M, Peng G, Cheng W (2008) Broad range pH sensor based on sol
2):49
-
-
gel entrapped
-
indicators on fibre optic. Sens Actuators B 129(1):94
98. doi:
10.1016/j.snb.2007.07.078
-
62. Chauhan VM, Burnett GR, Aylott JW (2011) Dual-
uorophore ratiometric pH nanosensor
with tuneable pKa and extended dynamic range. Analyst 136(9):1799
fl
1801. doi:
10.1039/
-
63. Suah FBM, Ahmad M, Taib MN (2003) Applications of arti
cial neural network on signal
processing of optical
fibre pH sensor based on bromophenol blue doped with sol
gel
lm.
-
Sens Actuators B 90(1
3):182
188. doi:
10.1016/S0925-4005(03)00026-1
-
-
64. Capel-Cuevas S, Cu
n-Vallvey LF (2010) Full-
range optical pH sensor based on imaging techniques. Anal Chim Acta 681(1
-
2):71
-
81.
65. Capel-Cuevas S, Cu
é
llar MP, de Orbe-Pay
á
I, Pegalajar MC, Capit
á
n-Vallvey LF (2011) Full-
66. Deng S, Yetisen AK, Jiang K, Butt H (2014) Computational modelling of a graphene Fresnel
67. Kong X-T, Butt H, Yetisen AK, Kangwanwatana C, Montelongo Y, Deng S, Fd Cruz
Vasconcellos, Qasim MM, Wilkinson TD, Dai Q (2014) Enhanced re
é
llar MP, de Orbe-Pay
á
I, Pegalajar MC, Capit
á
ection from inverse
tapered nanocone arrays. Appl Phys Lett 105(5):053108. doi:
10.1063/1.4892580
68. Yetisen AK, Naydenova I, Vasconcellos FC, Blyth J, Lowe CR (2014) Holographic sensors:
three-dimensional analyte-sensitive nanostructures and their applications. Chem Rev 114
(20):10654
fl
10696. doi:
10.1021/cr500116a
69. Yetisen AK, Akram MS, Lowe CR (2013) Paper-based micro
-
fl
uidic point-of-care diagnostic
2251. doi:
10.1039/c3lc50169h
70. Yetisen AK, Volpatti LR (2014) Patent protection and licensing in micro
devices. Lab Chip 13(12):2210
-
fl
uidics. Lab Chip 14
2225. doi:
10.1039/c4lc00399c
71. Volpatti LR, Yetisen AK (2014) Commercialization of microfluidic devices. Trends
72. Akram MS, Daly R, Vasconcellos FC, Yetisen AK, Hutchings I, Hall EAH (2015)
Applications of paper-based diagnostics. In: Castillo-Leon J, Svendsen WE (eds) Lab-on-a-
chip devices and micro-total analysis systems. Springer, Berlin
73. Farandos NM, Yetisen AK, Monteiro MJ, Lowe CR, Yun SH (2014) Contact lens sensors in
ocular diagnostics. Adv Healthc Mater. doi:
10.1002/adhm.201400504
74. Yetisen AK, Jiang L, Cooper JR, Qin Y, Palanivelu R, Zohar Y (2011) A microsystem-based
assay for studying pollen tube guidance in plant reproduction. J Micromech Microeng 21
(5):054018. doi:
10.1088/0960-1317/21/5/054018
75. Yetisen AK, Martinez-Hurtado JL, Garcia-Melendrez A, Vasconcellos FC, Lowe CR (2014) A
smartphone algorithm with inter-phone repeatability for the analysis of colorimetric tests. Sens
Actuators B 196:156
(13):2217
-
160. doi:
10.1016/j.snb.2014.01.077
76. Yetisen AK, Martinez-Hurtado JL, da Cruz Vasconcellos F, Simsekler MC, Akram MS, Lowe
CR (2014) The regulation of mobile medical applications. Lab Chip 14 (5):833
-
840. doi:
10.
-