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]

30. M.U. Rehman, W. Babatain, S. F. Shaikh, D. Conchouso, N. Qaiser, M. M. Hussain, J. P. Rojas. “Stress concentration analysis and fabrication of silicon (100) based ultra-stretchable structures with parylene coating”. Extreme Mechanics Letters 41, 101052 (2020).

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 Trans67(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 SpotlightUltra-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. FahadJ. P. Rojas; A. M. Hussain and M. M. Hussain; “Flexible Nano-Scale High-Performance FinFETs”; ACS Nano8 (10); pp 9850–9856 (2014)Highlighted in nanotechweb as Technology UpdateFinFETs go flexible; Read more: http://nanotechweb.org/cws/article/tech/58573 Highlighted in nanowerk as SpotlightFlexible 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 articleFlexible; Transparent Silicon? A New Approach from KAUST; Read More: http://eejournal.com/archives/articles/20131209-flexible/ Laboratory News’ feature articleHow 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 spotlightFlexible thermoelectric generator from bulk silicon; Read more: http://www.nanowerk.com/spotlight/spotid=33639.phpNanotechweb: 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 Nanowerkhttp://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. Lett102 (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)

  1. J. P. Rojas, A. Hussein, H. AlZaher and M. Mohandes, Stretchable Wearable Crowd Monitoring System, 2021 4th International Symposium on Advanced Electrical and Communication Technologies (ISAECT) (Paper Presentation)
  2. 2020
  3. J.P. Rojas, Origami and Kirigami stretchable electronics. IEEE NEMS 2020 (Invited talk)
  4. 2019
  5. J.P. Rojas, Organic-inorganic heterostructures for stretchable electronics. Proceeding of SPIE, Micro-and Nanotechnology Sensors, Systems, and Applications XI 10982, 1098215 (Invited – Session Chair)
  6. 2018
  7. J. P. Rojas, M. Rehman, M. A. Albettar, D. Conchouso, A. Arevalo, D. Singh, I. Foulds, M. M. Hussain. ‘’ Folding and Stretching a Thermoelectric Generator”, SPIE 2018: Micro- and Nanotechnology Sensors, Systems, and Applications X, Apr. 15-19, Orlando, FL, USA, 2018. (Invited and Session Chair)
  8. 2017
  9. M. Rehman, G. A. Torres Sevilla, M. Hussain, J. Rojas, “Development of Ultra-Stretchable, Fractal-Inspired, Silicon-Based Compound Structures”, The 2017 MRS Fall Meeting & Exhibit, Nov. 26-Dec 1st, Boston, MA, USA, 2017
  10. 2015
  11. M. M. Hussain; J. P. Rojas; G. A. Torres Sevilla; A. M. Hussain; M. T. Ghoneim; A. N. Hanna; A. T. Kutbee; J. M. Nassar and M. Cruz; “Free Form CMOS Electronics: Physically Flexible and Stretchable”; 61st IEEE Electron Devices Meeting (IEDM 2015); Washington DC; USA (Invited)
  12. J. P. Rojas; W. M. Alqarni; J. E. Mink; K. K. Kalantan and M. M. Hussain; “Nano-watt Power From Micro-Scale Microbial Fuel Cell Using Black Tea Waste”; 15th International Conference on Nanotechnology (IEEE NANO 2015); Rome; Italy; 27-30 July; 2015
  13. J. P. Rojas; A. M. Hussain; A. Arevalo; I. G. Foulds; G. A. Torres Sevilla; J. M. Nassar; M. M. Hussain; “Transformational Electronics Are Now Reconfiguring;” SPIE-DSS 2015; Baltimore; Apr 20-24; 2015 (Invited)
  14. 2014
  15. J. P. Rojas; G. A. T. Sevilla; M. T. Ghoneim; A. M. Hussain; S. M. Ahmed; J. M. Nassar; R. Bahabry; M. Nour; A. T. Kutbee; E. Byas; B. Al-Saif; A. M. Alamri; M. M. Hussain “Transformational electronics: a powerful way to revolutionize our information world”; Proc. SPIE 90831K-90831K-8 (2014); [doi: 10.1117/12.2050103] (Invited)
  16. 2013
  17. G. Torres Sevilla; J. P. Rojas; S. Ahmed; A. Hussain; S. B. Inayat and M. M. Hussain; “Silicon Fabric for Multi-functional Applications”; Proc. 17th Int. Conf. Solid-State Sens.; Actuators Microsyst. 2013; Barcelona; Spain; 16th to 20th Jun 2013 [talk]
  18. 2012
  19. J. P. Rojas; M. M. Hussain; “Sub-15 nm nano-pattern generation by spacer width control for high density precisely positioned self-assembled device nanomanufacturing”; IEEE NANO Conference 2012; Birmingham; UK; August 20 – 23; 2012.
  20. J. P. Rojas; M. M. Hussain; “Highly Manufacturable Fabrication Process for Mechanically Flexible Silicon Based Membranes with Adjustable Size; Pore Size and Density”. 2012 MRS Fall Meeting & Exhibit. Boston; USA; November 25 - 30; 2012. [Talk]
  21. J. P. Rojas; A. Syed and M. M. Hussain. “Mechanically Flexible Optically Transparent Porous Mono-crystalline Silicon Substrate”. 25th IEEE International Conference on Micro Electro Mechanical Systems (MEMS); Paris; France; January 29 - February 2; 2012.
  22. 2011
  23. J. Rojas; J. Mink; M. M. Hussain; “CNT-Enbled Microsized Microbial Fuel Cell”; 5th Graduate Research Seminar at King Fahd University of Petroleum and Minerals (KFUPM); Dammam; KSA [Best Presentation Award]
  24. 2010
  25. M. M. Hussain; H. Fahad; J. Rojas; M. Hasan; A. Talukdar; J. Oommen and J. Mink; "Self-powered integrated systems-on-chip (energy chip)"; Proc. SPIE 7679; 767914 (2010); doi:10.1117/12.850811 [Invited]
  1. Reconfigurable Electronics, J. P. Rojas, Handbook of Flexible and Stretchable Electronics, Taylor and Francis Ltd, p. 399-414, 2019.
  1. Flexible and foldable paper-substrate thermoelectric generator (TEG), J. P. Rojas, M. M. Hussain, US Patent App. 15/434,763.
  2. Cylindrical-Shaped Nanotube Field Effect Transistor, M. M. Hussain, H. M. Fahad, C. E. Smith, J. P. Rojas. US Patent 9,224,813.
  3. Apparatus, system, and method for on-chip thermoelectricity generation, M. M. Hussain, H. M. Fahad, J. P. Rojas. US Patent 9,224,813
  4. Integrated circuit manufacturing for low-profile and flexible devices, Muhammad M. Hussain, Jhonathan P. Rojas. US Patent 9,224,813
  5. Method for Producing Mechanically Flexible Silicon Substrate, Muhammad M. Hussain, Jhonathan P. Rojas. US Patent 9,520,293
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