31. J.P.
Rojas, M.U. Rehman, A. Hussein, et
al. Kirigami-Enabled Wearable Health and
Crowd Monitoring System.
Arab J Sci Eng (2022).
[https://doi.org/10.1007/s13369-021-06384-y]
29. H. Attia, S.
Gaya, A. Alamoudi, F. M. Alshehri, A.
Al-Suhaimi, N. Alsulaim, A. M. Al Naser, M.
Aghyad, J. Eddin, A. M. Alqahtani, J. P.
Rojas, S. Al-Dharrab, F. Al-Dirini.
“Wireless geophone sensing system for
real-time seismic data acquisition”. IEEE
Access 8, 81116 –
81128. (2020)
28. A.M. Hussain, M.T. Ghoneim, J.P. Rojas, H. Fahad. “Flexible and/or Stretchable Sensor Systems”, Journal of Sensors 1828394 (2019) [Editorial ]
27. N Qaiser, SM
Khan, M Nour, MU Rehman, JP Rojas, MM
Hussain, "Mechanical response of spiral
interconnect arrays for highly stretchable
electronics", Applied
Physics Letters 111
(21), 214102, (2017).
26. M. Rehman, J.P.
Rojas, "Optimization of Compound
Serpentine-Spiral Structure for
Ultra-Stretchable Electronics", Extreme
Mech. Lett. Accepted, DOI:
10.1016/j.eml.2017.05.004 (2017)
25. J.P. Rojas,
D. Singh, S. B. Inayat, G. A. Torres
Sevilla, H. M. Fahad, and M. M. Hussain.
“Review—Micro and Nano-Engineering Enabled
New Generation of Thermoelectric Generator
Devices and Applications”, ECS
J. Solid State Sci. Tech. 6(3);
N3036-N3044 (2017). Highlight:
Ranked TOP#5 most downloaded paper in
ECS J. Solid State Sci. Tech. in February
2017.
24 J.P.
Rojas, D. Conchouso, A. Arevalo, D.
Singh, I. G. Foulds, M. M. Hussain,
“Paper-based origami flexible and foldable
thermoelectric nanogenerator”, Nano
Energy, 31; 296-301
(2017). Highlighted in nanowerk as Spotlight: "Flexible
thermoelectric nanogenerator on paper";
Read more: http://www.nanowerk.com/spotlight/spotid=45237.php
23. J.P. Rojas,
D. Singh, D. Conchouso, A. Arevalo, I. G.
Foulds, M. M. Hussain, “Stretchable helical
architecture inorganic-organic hetero
thermoelectric generator”, Nano
Energy, 30; 691-699
(2016). Highlighted in nanowerk as Spotlight: "A
fully stretchable energy harvester for
thermal waste"; Read more: http://www.nanowerk.com/spotlight/spotid=45057.php
22. J. M. Nassar, J.
P. Rojas, A. M. Hussain, M. M.
Hussain, “From Stretchable to Reconfigurable
Inorganic Electronics”, Extreme
Mech. Lett. 9(1);
245-268 (2016).
21. M. T.
Ghoneim; H. M. Fahad; A. M. Hussain; J.
P. Rojas; G. A. Torres Sevilla; N.
Alfaraj; E. B. Lizardo; M. M. Hussain;
“Enhanced cooling in mono-crystalline
ultra-thin silicon by embedded micro-air
channels”; AIP Adv. 5(12);
127115 (2015).
20. N. Alfaraj;
A. M. Hussain; G. A. Torres Sevilla; M. T.
Ghoneim; J. P. Rojas; A. B.
Aljedaani; and M. M. Hussain; “Functional
integrity of flexible n-channel
metal─oxide─semiconductor field-effect
transistors on a reversibly bistable
platform”; Appl. Phys. Lett. 107;
174101 (2015). [Cover Article]
19. A. N. Hanna;
A. M. Hussain; M. T. Ghoneim; J. P. Rojas;
G. A. Torres Sevilla; M. M. Hussain; “Wavy
Channel TFT Architecture for High
Performance Oxide Based Displays”; ECS
Trans. 67(1);
191-198 (2015)
18. J. P.
Rojas; G. A. Torres Sevilla; N. Alfaraj;
M. T. Ghoneim; A. T. Kutbee; A.
Sridharan; M. M. Hussain; “Non-Planar
Nano-Scale Fin Field Effect Transistors on
Textile; Paper; Wood; Stone; and Vinyl via
Soft Material-Enabled Double-Transfer
Printing”; ACS Nano. 9(5);
5255–5263 (2015). Research Highlight in Nature
Middle East: “Wearable; implantable
sensors possible with flexible transistors”;
Read more: http://www.natureasia.com/en/nmiddleeast/article/10.1038/nmiddleeast.2015.92
Nanotechnology Spotlight in nanowerk:
“Nanoelectronics on textile; paper; wood and
stone”; Read more: http://www.nanowerk.com/spotlight/spotid=40717.php#
17. J. P.
Rojas; M. M. Hussain; “The Role of
Microfabrication and Nanotechnology in the
Development of Microbial Fuel Cells”; Energy
Tech. 3: 996–1006 (2015). DOI:
10.1002/ente.201500126 [Cover Article and
Invited Review Paper]
16. J.
P. Rojas; A. Carreno; I. G. Foulds
and M. M. Hussain; “Design and
Characterization of Ultra-Stretchable
Monolithic Silicon Fabric”; Appl.
Phys. Lett. 105; 154101 (2014).
Highlighted in nanowerk as Spotlight: Ultra-stretchable
silicon for flexible electronics; Read
more: http://www.nanowerk.com/spotlight/spotid=37799.php
Highlighted in nanotechweb as Technology
Update: “Silicon gets stretched”;
Read more: http://nanotechweb.org/cws/article/tech/59054
15. M. T.
Ghoneim; J. P. Rojas; C. D. Young; G.
Bersuker; and M. M. Hussain; “Electrical
analysis of high-κ/metal gate metal oxide
semiconductor capacitors on flexible bulk
mono-crystalline silicon (100)”; IEEE
Trans. Reliab. 64 (2), 579-585
(2014)
14. G. A. Torres
Sevilla‡; M. T. Ghoneim‡;
H. Fahad‡; J. P. Rojas; A.
M. Hussain and M. M. Hussain; “Flexible
Nano-Scale High-Performance FinFETs”; ACS
Nano. 8 (10); pp 9850–9856
(2014)Highlighted in nanotechweb as Technology
Update: FinFETs go flexible; Read
more: http://nanotechweb.org/cws/article/tech/58573
Highlighted in nanowerk as Spotlight: Flexible
high-performance FinFETs with a bending
radius of 0.5 mm; Read more: Flexible
high-performance FinFETs with a bending
radius of 0.5 mm http://www.nanowerk.com/spotlight/spotid=37272.php#ixzz3FvY9EDZF
13. J. P.
Rojas; G. A. Torres Sevilla; S. B.
Inayat; A. M. Hussain; M. T. Ghoneim; S.
Ahmed; M. M. Hussain; “Transformational
Silicon Electronics” ACS
Nano. 8 (2);
1468–1474 (2014)
Highlighted in Nanowerk
as Spotlight: Flexible and
semitransparent silicon electronics; Read
more: http://www.nanowerk.com/spotlight/spotid=34351.php.
Technology update in Nanotechweb: Waste
not want not: recycling silicon electronics;
Read more: http://nanotechweb.org/cws/article/tech/56259.
Latest News in C&EN: Hard Silicon
Wafers Yield Flexible Electronics; Read
more: http://cen.acs.org/articles/92/web/2014/02/Hard-Silicon-Wafers-Yield-Flexible.html
12. G. A. Torres
Sevilla; J. P. Rojas; H. M. Fahad; A.
M. Hussain; C. E. Smith; M. M. Hussain;
“Flexible and Transparent Silicon-on-Polymer
Based Sub-20 nm Non-planar 3D FinFET for
Brain-architecture Inspired Computation” Adv.
Mat. 26: 2794–2799; (2014) [Cover
Page] Highlighted in Nanowerk
as Spotlight: Flexible
silicon-on-polymer sub-20 nm FinFETs without
performance loss; Read more: http://www.nanowerk.com/spotlight/spotid=34727.php.
Materials 360 Online; Materials
Research Society (MRS): Flexible Electronics
without the Compromise; Read more: http://www.materials360online.com/newsDetails/45052;jsessionid=EA72832DF939FA057303F02180893A6B.
Nanotechweb: Brain structure inspires
FinFET; Read more: http://nanotechweb.org/cws/article/tech/56619.
Featured as Industry Buzz in Advanced
Substrate News: Industry’s first
flexible FinFET uses SOI wafers; Read more: http://www.advancedsubstratenews.com/2014/04/industrys-first-flexible-finfet-uses-soi-wafers/
11. J. P.
Rojas; W. Alqarni; M. M. Hussain; “Rapid
Evaluation of Power Degradation in Series
Connection of Single Feeding Microsized
Microbial Fuel Cells”. Energy Technology 2
(8); 673-676 (2014) [Cover Page]
10. J. M. Nassar;
A. H. Hussain; J. P. Rojas; M. M.
Hussain; “Low-Cost High Quality Crystalline
Germanium Based Flexible Devices”; Phys.
Status Solidi (RRL) 1–7; (2014)
9. M. T.
Ghoneim; J. P. Rojas; A. M. Hussain;
M. M. Hussain; “Additive advantage in
characteristics of MIMCAPs on flexible
silicon (100) fabric with release-first
process” Phys. Status Solidi (RRL) 8
(2); 163-166; (2014)
8. J. P.
Rojas; G. A. Torres Sevilla and M. M.
Hussain; “Can We Build a Truly High
Performance Computer Which is Flexible and
Transparent?”; Nature Scientific
Reports; 3; 2609 (2013)
Highlighted as research spotlight in Physicsworld: New
silicon devices are fast; flexible and
semi-transparent; Read more: http://physicsworld.com/cws/article/news/2013/sep/12/new-silicon-devices-are-fast-flexible-and-semi-transparent
Nanotechweb: On the road to
transparent; flexible computers; Read
more:
http://nanotechweb.org/cws/article/tech/54634
Nanowerk: On route to building
flexible high-performance computers ;
Read More: http://www.nanowerk.com/spotlight/spotid=32215.php EE
Journal’s feature article: Flexible;
Transparent Silicon? A New Approach from
KAUST; Read More: http://eejournal.com/archives/articles/20131209-flexible/ Laboratory
News’ feature article: How
to flex; bend and stretch; Read More:
http://www.labnews.co.uk/features/how-to-flex-bend-and-stretch/ Highlighted November
2013 in Beacon (KAUST monthly magazine)
7. J. P.
Rojas; M. T. Ghoneim; C. Young; M. M.
Hussain; “Flexible and Semi-transparent
High-k/Metal Gate Metal/Insulator/Metal
Capacitors (MIMCAPs) on Silicon (100)”. IEEE
Trans. Elect. Dev. 60(10); 3305-3309
(2013)
6. J. E. Mink; J.
P. Rojas; M. M. Hussain; “Role of
Contact Engineering in Micro-sized Microbial
Fuel Cell” physica status solidi A; 211
(3); 551-554 (2013) [Cover Page]
5. G. A. Torres
Sevilla; S. B. Inayat; J P. Rojas; A.
M. Hussain; M. M. Hussain; “Flexible and
Semi-transparent Thermoelectric Energy
Harvesters from Low Cost Bulk Silicon
(100)”; Small; 9 (23); 3916-3921
(2013) [Frontispiece] Highlighted in Nanowerk as spotlight: Flexible
thermoelectric generator from bulk silicon;
Read more: http://www.nanowerk.com/spotlight/spotid=33639.php; Nanotechweb: Flexible
TEG breaks new power record;
Read More:
http://nanotechweb.org/cws/article/tech/55664
4.
J. P. Rojas; Muhammad M. Hussain;
“Flexible Semi-transparent Silicon (100)
Fabric with High-k/Metal Gate Devices”; Phys.
Status Solidi RRL; 7; No. 3
(2013)] [Cover page]
Highlighted as spotlight in Nanowerk: http://www.nanowerk.com/spotlight/spotid=29310.php Highlighted as
Front Page Cover Story;
April 2013 in Beacon (KAUST monthly
magazine)
3. J. P.
Rojas; M. M. Hussain; “Structural and
Electrical Characteristics of High-k/Metal
Gate MOSCAPs Fabricated on Flexible;
Semi-transparent Silicon (100) Fabric”; Appl.
Phys. Lett. 102
(6); 064102-064102-4 (2013)
2. J. E. Mink§; J.
P. Rojas§; B. E. Logan; and
M. M. Hussain. “Vertically Grown Multiwalled
Carbon Nanotube Anode and Nickel Silicide
Integrated High Performance Microsized (1.25
μL) Microbial Fuel Cell”. Nano
Letters; 12 (2); 791–795 (2012) §These
authors contributed equally to this work.
1. H. M. Fahad;
C. E. Smith; J. P. Rojas; and M. M.
Hussain. “Silicon Nanotube Field Effect
Transistor with Core–Shell Gate Stacks for
Enhanced High-Performance Operation and Area
Scaling Benefits”. Nano Letters; 11
(10); 4393-4399 (2011) Highlighted as
Front Cover Page Story; October 2011 in
Beacon (KAUST monthly magazine)