Additive Manufacturing Letters Impact Factor

Additive Manufacturing Letters Impact Factor – 58. M. S. Saleh, S. Ritchie, M. A. Nicholas, H. L. Gordon, C. Hu, S. Jahan, B. Yuan, R. Bezbaruah, J. W. Reddy, Z. Ahmed, M. Chamanzar, E. A. Yttri, R. P. Panat, “CMU Array: A 3D Nanoprinted, Highly Customizable Microelectrode Array Platform”, 8, eabj4853,  Science Advances (2022). DOI, log image, PDF

57. M. A. Ali, G. Fei Zhang, C. Hu, B. Yuan, S. Jahan, G. D. Kitsios, A. Morris, S.-J. Gao, R. Panat, “Ultra-Rapid and Highly Sensitive Detection of SARS-CoV-2 Antibodies in COVID-19 Patients Using a 3D-Printed Nanomaterials-Based Biosensing Platform”, Accepted, Journal of Medical Virology (2022). DOI Journal cover image PDF

Additive Manufacturing Letters Impact Factor

56. J. Brenneman, D. Z. Tansel, G. K. Fedder, and R. Panat, “High-conductivity crack-free 3D electrical junctions directly printed on soft PDMS substrates,” Advanced Materials Technologies, 2200396, 1-15 DOI PDF 2022.

Materials Research Letters

55. M. Arslanoglu, B. Ozdoganlar, and R. Panat, “Manufacturing Porous Silica with Controllable and Tunable Porosity by Freeze Casting”, Journal of the American Ceramic Society,  105 (8), 5114-5130,  2022. DOI PDF.

54. M. A. Ali, C. Hu, F. Zhang, S. Jahan, B. Yuan, M. S. Saleh, S.-J. Gao, R. Panat, “Detection of ultrasensitive SARS-CoV-2-based N-CoV-2 antibodies in seconds using 3D Nanoprinted Microarchitected Array Electrodes”, Journal of Medical Virology, 2022; 1 – 12. DOI PDF

53. M. A. Ali, C. Hu, B. Yuan, S. Jahan, M. S. Saleh, Z. Guo, A. J. Gellman, R. Panat, “Breaking the barrier to the detection limit of biomolecules using 3D printed multi-length scale coated electrodes Graphene”, Nature Communications, 12(1), 7077-1 to 7077-16, 2021. DOI PDF

52. M. A. Ali, C. Hu, E. A. Yttri, and R. Panat, “Recent Advances in 3D Printing of Biomedical Sensing Devices”, Advanced Functional Materials, 2107671, 2021. DOI. PDF. (review invited) inside cover

Additive Manufacturing (am) Adding Up Growth Opportunities For Asean

51. M. A. Ali, C. Hu, S. Jahan, B. Yuan, M. S. Saleh, E. Ju, S.-J. Gao, and R. Panat, “Sensing of COVID-19 Antibodies in Seconds through Aerosol Jet Printed Three Dimensional Electrodes”, Advanced Materials, 33(7) 2006647, 2021. PDF; DOI; Chosen for cover photo of Adv Mater

Our group achieved a test for COVID-19 antibodies in 10 seconds!! CMU News: Imagine a 10-second antibody test for COVID-19 – we’re on our way! ; Advanced Science News           Adv Mater Cover: In paper number 2006647, Rahul Panat and colleagues report the development of a 10-second antibody test for COVID-19 that represents the fastest detection of this pathogen biomarker. The test uses an electrochemical cell consisting of 3D nano-printed micropillar electrodes using an aerosol jet coated with reduced graphene oxide and viral antigens. This generic platform could be a game changer in controlling the spread of infectious diseases during pandemics.

50. P. Borade, M. A. Ali, S. Jahan, T. Sant, K. Bogle, R. Panat, S. Jejurikar, “MoS2 Nanosheet-Modified NiO Layers on Conducting Carbon Paper for Glucose Sensing”, ACS Applied Nano Materials, 4, pp. 6609-6619 (2021). PDF

49. Dr. Tybor Rahman and R. Fanat, “Aerosol Jet 3D Printing and High Temperature Characterization of Nickel Nanoparticle Films”, Manufacturing Letters, 29, pp.5 (2021). PDF doi

A Benchmark Analysis Of The Quality Of Distributed Additive Manufacturing Centers

48. J. Brenneman, D. Tansel, G. Fedder, and R. Panat, “Interfacial Delamination and Delamination Mechanism Maps for 3D Printed Flexible Electrical Interconnects”, Extreme Mechanics Letters, 43, pp. 101199 (2021). PDF doi

47. M. Sadeq Saleh§, C. Hu§, J. Brenneman, A. M. A. Mutairi, and R. Panat, “3D Printed Three-dimensional Metallic Microlattices with Controlled and Tunable Mechanical Properties via Aerosol Jet 3D Printing”, Additive Manufacturing, 39, 101856 (2021). PDF, DOI

46. ​​M. Hamid, S. Saleh, A. Afrozian, R. Panat, and H. Zbib, “Modeling Porosity and Grain Size Effects on Mechanical Behavior of Additively Manufactured Structures”, Additive Manufacturing, 28, pp. 101833, 2021 .PDF, DOI

45. P. Borade, T. Sant, A. Gokarna, K. Joshi, R. Panat, S. Jejurikar, “The role of defects in modulating the near band edge emission of submicron ZnO crystals”, Optical Materials, 109, p. 110348,  2020. PDF; DOI

Metal Am Summer 2022 By Inovar Communications

44. Y. Zhu, J. Li, M. S. Saleh, R. Panat, J. Park, “Towards High-Performance Li-ion Batteries via Optimized Three-dimensional Micro-lattice Electrode Architectures”, Journal of Power Sources, 476, 228593 , 1-18, 2020. PDF; DOI

43. D. Tansel, J. Brenneman, G. Fedder, R. Panat, “Mechanical Characterization of Polydimethylsiloxane (PDMS) Exposed to Thermal Histories up to 300°C in a Vacuum Environment”, Journal of Micromechanics and Microengineering, 30, pp . 067001, 2020. PDF

42. B., Mallesham, F. Manciu, S. Tan, R. Panat, C. V. Ramana, “Unraveling the Sintering Temperature Induced Phase Transformations in Ba(Fe0.7Ta0.3)O3-δ Ceramics”, Ceramics International, 46 ( 14), p. 23257, 2020. PDF

41. M. Sadeq Saleh, S. M. Ritchie, M. A. Nicholas, R. Bezbaruah, J. W. Reddy, M. Chamanzar, E. A. Yttri, R. P. Customer, R. P. “Array platform” sent, preprint available at BioRxiv, 742346 (2019). .

Direct Digital Manufacturing

40. Md T. Rahman, C. H. Cheng, B. Karagoz, M. Renn, M. Schrandt, A. Gellman, and R. Panat, “High Performance Flexible Temperature Sensors via Nanoparticle Printing”,  ACS Applied Nano Materials,  Vol. 2, Issue 5, pp. 3280-3291 (2019). PDF

Cu and CuNi nanoparticles were printed on flexible Kapton substrates and sintered using a low-power laser. The resulting temperature sensor has a repeatable linear response with the highest sensitivity of film-based sensors yet reported in the literature and an exceptionally high strain tolerance to 200 cycles of bending (for three radii) and torsion. The TEM work shows nanoparticles with different degrees of aggregation with connections that may act as springs to give rise to the high stress tolerance.

39. S. Manandhar, A. Battu, S. Tan, R. Panat, V. Shutthanandan, C. V. Ramana, “Effect of Ti doping on the crystallography, phase, surface/interface structure and optical band gap of Ga2O3 thin films”,  Journal of Materials Science, 54, pp. 11526–11537 (2019). PDF

38. R. Danaei, T. Varghese, M. Ahmadzadeh, J. McCloy, C. Hollar, M. Sadeq Saleh, J. Park, Y. Zhang, R. Panat, “Ultrafast Fabrication of Thermoelectric Films on by Pulsed Light Sintering of Colloidal Nanoparticles on Flexible and Rigid Substrates”, Advanced Engineering Materials, 21, pp. 1800800 (2019). PDF link: https://doi.org/10.1002/adem.201800800

Pdf) Environmental Dimensions Of Additive Manufacturing: Mapping Application Domains And Their Environmental Implications: Environmental Dimensions Of Additive Manufacturing

37. Y. Arafat, S. T. Sultana, I. Dutta, R. Panat, “Effect of Additives on the Microstructure of Electroplated Tin Films”, Journal of the Electrochemical Society, 165 (16), D816-D824 (2018). PDF

Interesting Sn structures never before achieved were realized by modifying additives to the methanesulfonic acid plating bath. See paper for full characterization including cathodic polarization plots and mechanisms of film formation.

36. R. Panat, J. Park, M. S. Saleh, and J. Li, “3D-Printed Lattice Batteries”, Homeland Defense Information Analysis Center (HDIAC) Journal, 5 (4), p. 11 (2018). PDF

35. J. Li, X. Liang, R. Panat, and J. Park, “Enhanced Battery Performance through Three-Dimension Structured Electrodes: Experimental and Modeling Study” Journal of the Electrochemical Society, 165 (14), A3566-A3573 ( 2018). PDF

A Defect Resistant Co–ni Superalloy For 3d Printing

34a. “3D Printing of Li-ion Battery Electrodes”, an article about our work in Tribology and Lubrication Technology magazine, November 2018. PDF

34. M. Sadeq Saleh, Jie Li, Jonghyun Park and Rahul Panat, “3D Printed Microlattice Electrode Materials for Ultra-High Capacity and Areal Capacity Lithium-Ion Batteries”, Additive Manufacturing, Vol.23, pp 70 -78 (2018). PDF

7- German media: New “Aerosol Jet” method relies on 3D printing for lithium-ion battery electrodes and ensures longer battery life

33. Y. Arafat, R. Panat, I. Dutta, “Highly Stretchable Metal Films on Polymer Substrates: Mechanics and Mechanisms”, IEEE ITherm2018, pp. 32-36 (2018) PDF, link

An Investigation Of The Metal Additive Manufacturing Issues And Perspective For Solutions Approach

32. M. Sadeq Saleh, Mehdi HamidVishkasougheh, H. Zbib, and R. Panat, “Plycrystalline Micropillars by a Novel 3-D Printing Method and Their Behavior under Compressive Loads”,  Scripta Materialia,  Volume 149, 144–144–149. PDF

31. M.T. Rahman, R. Moser, H. Zbib, C. V. Ramana, and R. Panat, “3D Printed High Performance High Temperature Sensors”, Journal of Applied Physics, 123, 024501, 2018. PDF

30. M. Sadeq Saleh, C. Hu, and R. Panat, “Three Dimensional Micro-architected Materials and Devices using Nanoparticle Assembly by Pointwise Spatial Printing”,  Science Advances, 3, e1601986, 2017. PDF  http://dx. doi.org/10.1126/sciadv.1601986

Media News: WSU News: https://news.wsu.edu/2017/03/03/novel-3-d-manufacturing/ The most comprehensive report was in the German media! (Use right click and translate to English): I4U Giant Nanostructures News: Lightweight But Extremely Strong 3D Printing New Material Like Wood And Bone Today: A New 3D Printing Method Rises And Drops In The Scale Of The 3D Printing Industry: ” Breakthrough Advance” in 3D Nanoparticle Printing Mimics Natural Desert Construction Science Daily: https://www.sciencedaily.com/releases/2017/03/170303143221.htm Yahoo News: https://sg.news.yahoo. com/scientists -create-ultra-light-super-190700874.html Physics.org: https://phys.org/news/2017-03-d-highly-complex-bio-like-materials.html Independent UK: http :// /www.independent.co.uk/news/science/silver-nanotechnology-material-bone-wood-nature-desert-rose-washington-state-university-a7610376.html Nanowerk: http://www.nanowerk .com/ nanotechnology-news/newsid=45999.php AZO Materials: http://www.azom.com/news.aspx?newsID=47328 New Atlas: http://newatlas.com/aerosol-jet-3d-printing /48267/ Swedish Media: http://www.svt.se/nyheter/vetenskap/ 3d-teknik-skapar-supermaterial Eurekalert: https://www.eureka lert.org/pub_releases/2017-03/wsu-n3m022317.php FactorTech: http://factor-tech.com/feature/will-fan-made-games-ever-get-the-credit-they-deserve/

Sustainable Design Guidelines For Additive Manufacturing Applications

29. J. Geng, M. T. Rahman, R. Panat, and L. Li, “Self-assembled Axisymmetric Microscale Periodic Wrinkles on Elastomer Fibers”, ASME Journal of Micro and Nano-manufacturing, Vol. 5, Issue 2, pp. 021006, 2017. PDF http://dx.doi.org/10.1115/1.4036112

28. R. Sun, H. Yang, M. Rock, R. Danaei, R. Panat, M. Kessler, and L. Li, “Manufacturing PDMS Micro Lens Array using Spin Coating under a Multiphase System”, Journal of Micromechanics and Microengineering, Vol. 27(5), p. 1, 2017. PDF

27. M. T. Rahman, J. Gomez, K. Mireles, P. Wo, J. Marcial, M. Kessler, J. McCloy, C. Ramana, and R. Panat, “High temperature physical and chemical stability and kinetics of oxidation reaction of Ni -Cr nanoparticles”, Journal of Physical Chemistry – C, Vol.121 (7), pp. 4018-4028, 2017. PDF

26. J. Li, M. Leu, R. Panat and J. Park, “A Three-Dimensional Structured Hybrid for Lithium-ion Battery via 3D Printing”, Materials and Design, Vol. 119, pp. 417-424, 2017. PDF

Integrating Structural Colors With Additive Manufacturing Using Atomic Layer Deposition

25. Brian Poole, Rahul Fanat, Christina Mastrangelo and David Kim and David Johnson “Manufacturing of Smart Products: Current Status, Future Potential and Research Recommendations”, ASME Journal of Micro and Nano-manufacturing, Vol. 4, Issue 4, pp. 044001-1 to 044001-12, 2016. PDF

24. Y. Arafat, I. Dutta, R. Panat, “On the Deformation Mechanisms and Electrical Behavior of Highly Stretchable Metallic Interconnects on Elastomer Substrates”, Journal of Applied Physics, Vol. 120, Issue 11, pp. 115103-1 to 11, 2016. PDF

23. M.T. Rahman, J. McCloy, C. V. Ramana, and R . Panat, “Structure, Electrical Properties, and High Temperature Stability of Aerosol Jet-Printed Nanoparticle Films,”