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Hamna Iqbal

Ph.D. in Physics with research background in semiconductor materials and electronic devices.

Research Expertise

Organic electronics
Materials Chemistry
Mechanical Engineering
Mechanics of Materials
Condensed Matter Physics
Electrochemistry
Electronic, Optical and Magnetic Materials
Biomaterials
Industrial and Manufacturing Engineering
Surfaces, Coatings and Films
Metals and Alloys
Surfaces and Interfaces
Electrical and Electronic Engineering
Process Chemistry and Technology
Energy Engineering and Power Technology
Biomedical Engineering

About

Hamna Iqbal is a highly educated and experienced physicist with a passion for research and teaching. She completed her Ph.D. in Physics from Wake Forest University in 2021, where she focused on the study of organic semiconductor materials and electronic devices. Prior to that, she obtained her MSc in Physics from the University of Toledo in 2014 and her B.Sc. in Physics from the University of Peradeniya in 2011. Throughout her academic career, Hamna has gained valuable research experience as a Graduate Research Assistant at Wake Forest University and the University of Toledo. She has also taught undergraduate and graduate students as a Graduate Teaching Assistant at Wake Forest University and a Part-time Lecturer at North Carolina State University. After completing her Ph.D., Hamna continued to expand her research portfolio as a Postdoctoral Research Scholar at North Carolina State University. She has also gained practical industry experience through an internship at Ford Motor Company. With her strong academic background and diverse research experience, Hamna is a dedicated and knowledgeable physicist who is driven to make meaningful contributions to the field. She is excited to continue her research and teaching career in the years to come.

Publications

Charge carrier traps in organic semiconductors: a review on the underlying physics and impact on electronic devices

Journal of Materials Chemistry C / Jan 01, 2020

Haneef, H. F., Zeidell, A. M., & Jurchescu, O. D. (2020). Charge carrier traps in organic semiconductors: a review on the underlying physics and impact on electronic devices. Journal of Materials Chemistry C, 8(3), 759–787. https://doi.org/10.1039/c9tc05695e

Correlated metals as transparent conductors

Nature Materials / Dec 14, 2015

Zhang, L., Zhou, Y., Guo, L., Zhao, W., Barnes, A., Zhang, H.-T., Eaton, C., Zheng, Y., Brahlek, M., Haneef, H. F., Podraza, N. J., Chan, M. H. W., Gopalan, V., Rabe, K. M., & Engel-Herbert, R. (2015). Correlated metals as transparent conductors. Nature Materials, 15(2), 204–210. https://doi.org/10.1038/nmat4493

Tutorial: Organic field-effect transistors: Materials, structure and operation

Journal of Applied Physics / Aug 17, 2018

Lamport, Z. A., Haneef, H. F., Anand, S., Waldrip, M., & Jurchescu, O. D. (2018). Tutorial: Organic field-effect transistors: Materials, structure and operation. Journal of Applied Physics, 124(7). https://doi.org/10.1063/1.5042255

Suppressing bias stress degradation in high performance solution processed organic transistors operating in air

Nature Communications / Apr 21, 2021

Iqbal, H. F., Ai, Q., Thorley, K. J., Chen, H., McCulloch, I., Risko, C., Anthony, J. E., & Jurchescu, O. D. (2021). Suppressing bias stress degradation in high performance solution processed organic transistors operating in air. Nature Communications, 12(1). https://doi.org/10.1038/s41467-021-22683-2

Charge‐Transport Properties of F6TNAP‐Based Charge‐Transfer Cocrystals

Advanced Functional Materials / Oct 09, 2019

Dasari, R. R., Wang, X., Wiscons, R. A., Haneef, H. F., Ashokan, A., Zhang, Y., Fonari, M. S., Barlow, S., Coropceanu, V., Timofeeva, T. V., Jurchescu, O. D., Brédas, J., Matzger, A. J., & Marder, S. R. (2019). Charge‐Transport Properties of F6TNAP‐Based Charge‐Transfer Cocrystals. Advanced Functional Materials, 29(49). Portico. https://doi.org/10.1002/adfm.201904858

Optical function spectra and bandgap energy of Cu2SnSe3

Applied Physics Letters / Jan 26, 2015

Choi, S. G., Kang, J., Li, J., Haneef, H., Podraza, N. J., Beall, C., Wei, S.-H., Christensen, S. T., & Repins, I. L. (2015). Optical function spectra and bandgap energy of Cu2SnSe3. Applied Physics Letters, 106(4). https://doi.org/10.1063/1.4907202

Optical properties of single-crystal Gd3 Ga5 O12 from the infrared to ultraviolet

physica status solidi (b) / Jun 17, 2015

Ghimire, K., Haneef, H. F., Collins, R. W., & Podraza, N. J. (2015). Optical properties of single-crystal Gd3 Ga5 O12 from the infrared to ultraviolet: Optical properties of single-crystal Gd3 Ga5 O12 from IR to UV. Physica Status Solidi (b), 252(10), 2191–2198. Portico. https://doi.org/10.1002/pssb.201552115

Approach for extracting complex dielectric function spectra in weakly-absorbing regions

Thin Solid Films / Nov 01, 2014

Karki Gautam, L., Haneef, H., Junda, M. M., Saint John, D. B., & Podraza, N. J. (2014). Approach for extracting complex dielectric function spectra in weakly-absorbing regions. Thin Solid Films, 571, 548–553. https://doi.org/10.1016/j.tsf.2014.03.020

Large‐Area Uniform Polymer Transistor Arrays on Flexible Substrates: Towards High‐Throughput Sensor Fabrication

Advanced Materials Technologies / Jun 15, 2020

Zeidell, A. M., Filston, D. S., Waldrip, M., Iqbal, H. F., Chen, H., McCulloch, I., & Jurchescu, O. D. (2020). Large‐Area Uniform Polymer Transistor Arrays on Flexible Substrates: Towards High‐Throughput Sensor Fabrication. Advanced Materials Technologies, 5(8). Portico. https://doi.org/10.1002/admt.202000390

Computationally aided design of a high-performance organic semiconductor: the development of a universal crystal engineering core

Chemical Science / Jan 01, 2019

Petty, A. J., Ai, Q., Sorli, J. C., Haneef, H. F., Purdum, G. E., Boehm, A., Granger, D. B., Gu, K., Rubinger, C. P. L., Parkin, S. R., Graham, K. R., Jurchescu, O. D., Loo, Y.-L., Risko, C., & Anthony, J. E. (2019). Computationally aided design of a high-performance organic semiconductor: the development of a universal crystal engineering core. Chemical Science, 10(45), 10543–10549. https://doi.org/10.1039/c9sc02930c

Organic Field‐Effect Transistors as Flexible, Tissue‐Equivalent Radiation Dosimeters in Medical Applications

Advanced Science / Jul 30, 2020

Zeidell, A. M., Ren, T., Filston, D. S., Iqbal, H. F., Holland, E., Bourland, J. D., Anthony, J. E., & Jurchescu, O. D. (2020). Organic Field‐Effect Transistors as Flexible, Tissue‐Equivalent Radiation Dosimeters in Medical Applications. Advanced Science, 7(18). Portico. https://doi.org/10.1002/advs.202001522

Electronic properties and structure of single crystal perylene

Organic Electronics / Oct 01, 2018

Pookpanratana, S. J., Goetz, K. P., Bittle, E. G., Haneef, H., You, L., Hacker, C. A., Robey, S. W., Jurchescu, O. D., Ovsyannikov, R., & Giangrisostomi, E. (2018). Electronic properties and structure of single crystal perylene. Organic Electronics, 61, 157–163. https://doi.org/10.1016/j.orgel.2018.05.035

Influence of solvent additives on the morphology and electrical properties of diF-TES ADT organic field-effect transistors

Organic Electronics / May 01, 2019

Rubinger, C. P. L., Haneef, H. F., Hewitt, C., Carroll, D., Anthony, J. E., & Jurchescu, O. D. (2019). Influence of solvent additives on the morphology and electrical properties of diF-TES ADT organic field-effect transistors. Organic Electronics, 68, 205–211. https://doi.org/10.1016/j.orgel.2019.02.021

Optical properties of single crystal Bi4Ge3O12 from the infrared to ultraviolet

Journal of Applied Physics / Oct 24, 2014

Haneef, H. F., & Podraza, N. J. (2014). Optical properties of single crystal Bi4Ge3O12 from the infrared to ultraviolet. Journal of Applied Physics, 116(16). https://doi.org/10.1063/1.4898762

Spectroscopic Ellipsometry Studies of n-i-p Hydrogenated Amorphous Silicon Based Photovoltaic Devices

Materials / Feb 25, 2016

Karki Gautam, L., Junda, M., Haneef, H., Collins, R., & Podraza, N. (2016). Spectroscopic Ellipsometry Studies of n-i-p Hydrogenated Amorphous Silicon Based Photovoltaic Devices. Materials, 9(3), 128. https://doi.org/10.3390/ma9030128

Elucidating the Role of Water‐Related Traps in the Operation of Polymer Field‐Effect Transistors

Advanced Electronic Materials / Jun 24, 2021

Iqbal, H. F., Waldrip, M., Chen, H., McCulloch, I., & Jurchescu, O. D. (2021). Elucidating the Role of Water‐Related Traps in the Operation of Polymer Field‐Effect Transistors. Advanced Electronic Materials, 7(9). Portico. https://doi.org/10.1002/aelm.202100393

Organic single crystals of charge-transfer complexes: model systems for the study of donor/acceptor interactions

Materials Horizons / Jan 01, 2022

Goetz, K. P., Iqbal, H. F., Bittle, E. G., Hacker, C. A., Pookpanratana, S., & Jurchescu, O. D. (2022). Organic single crystals of charge-transfer complexes: model systems for the study of donor/acceptor interactions. Materials Horizons, 9(1), 271–280. https://doi.org/10.1039/d1mh01214b

Real-time monitoring of trap dynamics reveals the electronic states that limit charge transport in crystalline organic semiconductors

Materials Horizons / Jan 01, 2020

Iqbal, H. F., Holland, E. K., Anthony, J. E., & Jurchescu, O. D. (2020). Real-time monitoring of trap dynamics reveals the electronic states that limit charge transport in crystalline organic semiconductors. Materials Horizons, 7(9), 2390–2398. https://doi.org/10.1039/d0mh00706d

Optical band gap and infrared phonon modes of (La_029Sr_071)(Al_065Ta_036)O_3 (LSAT) single crystal from infrared to ultraviolet range spectroscopic ellipsometry

Optical Materials Express / Sep 22, 2016

Barnes, A., Haneef, H., Schlom, D. G., & Podraza, N. J. (2016). Optical band gap and infrared phonon modes of (La_029Sr_071)(Al_065Ta_036)O_3 (LSAT) single crystal from infrared to ultraviolet range spectroscopic ellipsometry. Optical Materials Express, 6(10), 3210. https://doi.org/10.1364/ome.6.003210

Crystal engineering of alkylethynyl fluoroanthradithiophenes

Molecular Systems Design & Engineering / Jan 01, 2022

Thorley, K. J., Dremann, D., Iqbal, H. F., Parkin, S. R., Jurchescu, O. D., & Anthony, J. E. (2022). Crystal engineering of alkylethynyl fluoroanthradithiophenes. Molecular Systems Design & Engineering, 7(4), 374–380. https://doi.org/10.1039/d1me00158b

Importance of Electric-Field-Independent Mobilities in Thick-Film Organic Solar Cells

ACS Applied Materials & Interfaces / Oct 11, 2022

Ho, C. H. Y., Pei, Y., Qin, Y., Zhang, C., Peng, Z., Angunawela, I., Jones, A. L., Yin, H., Iqbal, H. F., Reynolds, J. R., Gundogdu, K., Ade, H., So, S. K., & So, F. (2022). Importance of Electric-Field-Independent Mobilities in Thick-Film Organic Solar Cells. ACS Applied Materials & Interfaces, 14(42), 47961–47970. https://doi.org/10.1021/acsami.2c11265

Organic thin-film transistors with flame-annealed contacts

Flexible and Printed Electronics / Mar 05, 2020

Waldrip, M., Iqbal, H. F., Wadsworth, A., McCulloch, I., & Jurchescu, O. D. (2020). Organic thin-film transistors with flame-annealed contacts. Flexible and Printed Electronics, 5(1), 014015. https://doi.org/10.1088/2058-8585/ab76e1

Education

Wake Forest University

Ph.D., Physics / May, 2021

Winston-Salem, North Carolina, United States of America

University of Toledo

MSc, Physics / December, 2014

Toledo, Ohio, United States of America

University of Peradeniya

B.Sc., Physics / September, 2011

Kandy

Experience

Wake Forest University

Graduate Research Assistant / August, 2017May, 2021

• Fabricated and electrically characterized thin film and single-crystal organic field-effect transistors • Developed a quick and reliable diagnostic tool to screen for potential degradation pathways in organic field-effect transistors by accessing the trap density of states • Fabricated operationally and environmentally stable small molecule and polymer field-effect transistors with remarkable threshold voltage stability in ambient air • Mentored undergraduate and graduate students

Wake Forest University

Graduate Teaching Assistnat / August, 2016May, 2017

• Instructed introductory physics laboratory course (PHY 110L), Fall 2016 • Conducted tutorial sessions for undergraduate physics majors, Fall 2016 • Graded tutorials, Electronics lab (PHY 230L), Spring 2017

North Carolina State University

Postdoctoral Research Scholar / August, 2021July, 2023

• Fabricated and characterized organic light-emitting diodes and organic photodiodes • Developed a novel method of fabricating transparent privacy organic light-emitting diodes • Mentored graduate and undergraduate students

Part-time Lecturer / August, 2022December, 2022

• Instructed Microelectronic materials course (MSE 460), Fall 2022 • Instructed Microelectronic materials science and technology course (MSE 560), Fall 2022

University of Toledo

Graduate Research Assistant / August, 2012July, 2014

• Used spectroscopic ellipsometry to study the optical properties of various materials and solar cell devices over a wide spectral range (0.035 – 6.5 eV: 33 µm – 190 nm) • Fabricated and characterized amorphous silicon single junction solar cells in the n-i-p/p-i-n configurations • Mentored undergraduate and graduate students

Ford Motor Company

Intern / August, 2014December, 2014

• Evaluated the manufacturing viability of scratch and UV-resistant coatings for automotive body parts • Used Infrared spectroscopic ellipsometry to detect changes in the optical properties of polycarbonate samples infused with UV-absorbing molecules • Developed a new time-saving and cost-effective ellipsometry data analysis technique to determine the penetration depth of infused molecules into polycarbonate samples

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