Showing 50 publications by Christopher Proctor
Ultra‐Thin Soft Pneumatic Actuation for Minimally Invasive Neural Interfacing
Coles L, Troughton JG, Carnicer‐Lombarte A, Malliaras GG & Proctor CM (2025), Advanced Materials Technologies
BibTeX
@article{ultrathinsoftpn-2025/12,
title={Ultra‐Thin Soft Pneumatic Actuation for Minimally Invasive Neural Interfacing},
author={Coles L, Troughton JG, Carnicer‐Lombarte A, Malliaras GG & Proctor CM},
journal={Advanced Materials Technologies},
number={e02125},
publisher={Wiley},
year = "2025"
}
Dynamically autofocused 3D pulsed laser micromachining enables advanced 3D bioelectronics
Mariello M, Troughton JG, Leng Y, Wang Z, Karam N et al. (2025), Science Advances, 11(45), eadz4084
BibTeX
@article{dynamicallyauto-2025/11,
title={Dynamically autofocused 3D pulsed laser micromachining enables advanced 3D bioelectronics},
author={Mariello M, Troughton JG, Leng Y, Wang Z, Karam N et al.},
journal={Science Advances},
volume={11},
pages={eadz4084},
publisher={American Association for the Advancement of Science},
year = "2025"
}
Laser Micromachining for Bioelectronics: Past, Present, and Future
Troughton J & Proctor C (2025), Small Methods
BibTeX
@article{lasermicromachi-2025/11,
title={Laser Micromachining for Bioelectronics: Past, Present, and Future},
author={Troughton J & Proctor C},
journal={Small Methods},
number={e01560},
publisher={Wiley},
year = "2025"
}
ID# 1906537 Origami-inspired soft fluidic actuation for minimally invasive large-area electrocorticography
Coles L, Ventrella D, Carnicer-Lombarte A, Elmi A, Troughton JG et al. (2025), Neuromodulation Technology at the Neural Interface, 28(7), s142
BibTeX
@article{idorigamiinspir-2025/10,
title={ID# 1906537 Origami-inspired soft fluidic actuation for minimally invasive large-area electrocorticography},
author={Coles L, Ventrella D, Carnicer-Lombarte A, Elmi A, Troughton JG et al.},
journal={Neuromodulation Technology at the Neural Interface},
volume={28},
pages={s142},
publisher={Elsevier},
year = "2025"
}
Thick conducting polymer films for ultra-low frequency stimulation
Ansong YO & Proctor CM (2025), APL Electronic Devices, 1(3), 036104
BibTeX
@article{thickconducting-2025/9,
title={Thick conducting polymer films for ultra-low frequency stimulation},
author={Ansong YO & Proctor CM},
journal={APL Electronic Devices},
volume={1},
pages={036104},
publisher={AIP Publishing},
year = "2025"
}
High Dynamic Range Thin‐Film Resistive Flow Sensors for Monitoring Diverse Biofluids
Almulla L, Mariello M & Proctor CM (2025), Advanced Functional Materials
BibTeX
@article{highdynamicrang-2025/8,
title={High Dynamic Range Thin‐Film Resistive Flow Sensors for Monitoring Diverse Biofluids},
author={Almulla L, Mariello M & Proctor CM},
journal={Advanced Functional Materials},
number={e10372},
publisher={Wiley},
year = "2025"
}
Disease modeling and developmental biology through microfluidic channels
Balbino TA, Proctor CM & Eş I (2025), 45-59
BibTeX
@misc{diseasemodeling-2025/1,
title={Disease modeling and developmental biology through microfluidic channels},
author={Balbino TA, Proctor CM & Eş I},
year = "2025"
}
Chapter 4 Disease modeling and developmental biology through microfluidic channels
Balbino TA, Proctor CM & Eş I (2025), 45-59
BibTeX
@misc{chapterdiseasem-2025/,
title={Chapter 4 Disease modeling and developmental biology through microfluidic channels},
author={Balbino TA, Proctor CM & Eş I},
year = "2025"
}
Stroke studies in large animals: Prospects of mitochondrial transplantation and enhancing efficiency using hydrogels and nanoparticle-assisted delivery.
Ulger O, Eş I, Proctor CM & Algin O (2024), Ageing research reviews, 100, 102469
BibTeX
@article{strokestudiesin-2024/9,
title={Stroke studies in large animals: Prospects of mitochondrial transplantation and enhancing efficiency using hydrogels and nanoparticle-assisted delivery.},
author={Ulger O, Eş I, Proctor CM & Algin O},
journal={Ageing research reviews},
volume={100},
pages={102469},
year = "2024"
}
NeuroRoots, a bio-inspired, seamless brain machine interface for long-term recording in delicate brain regions
Ferro MD, Proctor CM, Gonzalez A, Jayabal S, Zhao E et al. (2024), Aip Advances, 14(8)
BibTeX
@article{neurorootsabioi-2024/8,
title={NeuroRoots, a bio-inspired, seamless brain machine interface for long-term recording in delicate brain regions},
author={Ferro MD, Proctor CM, Gonzalez A, Jayabal S, Zhao E et al.},
journal={Aip Advances},
volume={14},
year = "2024"
}
Origami-inspired soft fluidic actuation for minimally invasive large-area electrocorticography
Coles L, Ventrella D, Carnicer-Lombarte A, Elmi A, Troughton JG et al. (2024), Nature Communications, 15(1)
BibTeX
@article{origamiinspired-2024/7,
title={Origami-inspired soft fluidic actuation for minimally invasive large-area electrocorticography},
author={Coles L, Ventrella D, Carnicer-Lombarte A, Elmi A, Troughton JG et al.},
journal={Nature Communications},
volume={15},
number={6290},
publisher={Nature Research},
year = "2024"
}
Sub-Micron Molecularly Imprinted Polymer Particles for Cortisol Detection
Summers GR, Anderson GIR, Occhipinti LG & Proctor CM (2024), 00, 1-4
BibTeX
@inproceedings{submicronmolecu-2024/7,
title={Sub-Micron Molecularly Imprinted Polymer Particles for Cortisol Detection},
author={Summers GR, Anderson GIR, Occhipinti LG & Proctor CM},
booktitle={2024 IEEE BioSensors Conference (BioSensors)},
pages={1-4},
year = "2024"
}
Soft and flexible bioelectronic micro-systems for electronically controlled drug delivery
Mariello M, Eş I & Proctor CM (2023), Advanced Healthcare Materials, 13(24)
BibTeX
@article{softandflexible-2023/11,
title={Soft and flexible bioelectronic micro-systems for electronically controlled drug delivery},
author={Mariello M, Eş I & Proctor CM},
journal={Advanced Healthcare Materials},
volume={13},
number={2302969},
publisher={Wiley},
year = "2023"
}
Soft and flexible bioelectronic micro-systems for electronically controlled drug delivery
Mariello M, Eş I & Proctor CM (2023), Advanced Healthcare Materials
BibTeX
@article{softandflexible-2023/11,
title={Soft and flexible bioelectronic micro-systems for electronically controlled drug delivery},
author={Mariello M, Eş I & Proctor CM},
journal={Advanced Healthcare Materials},
number={2302969},
publisher={Wiley},
year = "2023"
}
Finite element analysis of electric field distribution during direct current stimulation of the spinal cord: Implications for device design.
Troughton JG, Ansong YO, Duobaite N & Proctor CM (2023), APL bioengineering, 7(4), 046109
BibTeX
@article{finiteelementan-2023/11,
title={Finite element analysis of electric field distribution during direct current stimulation of the spinal cord: Implications for device design.},
author={Troughton JG, Ansong YO, Duobaite N & Proctor CM},
journal={APL bioengineering},
volume={7},
number={46109},
pages={046109},
publisher={AIP Publishing},
year = "2023"
}
3D Bioelectronics with a Remodellable Matrix for Long-Term Tissue Integration and Recording
Boys AJ, Carnicer-Lombarte A, Güemes-Gonzalez A, van Niekerk DC, Hilton S et al. (2023), Advanced Materials, 35(8)
BibTeX
@article{dbioelectronics-2023/2,
title={3D Bioelectronics with a Remodellable Matrix for Long-Term Tissue Integration and Recording},
author={Boys AJ, Carnicer-Lombarte A, Güemes-Gonzalez A, van Niekerk DC, Hilton S et al.},
journal={Advanced Materials},
volume={35},
year = "2023"
}
Diffusive drug delivery in the brain extracellular space from a cellular scale microtube
Störi M-J, Oluwasanya PW & Proctor CM (2022), MRS Communications, 12, 654-661
BibTeX
@article{diffusivedrugde-2022/9,
title={Diffusive drug delivery in the brain extracellular space from a cellular scale microtube},
author={Störi M-J, Oluwasanya PW & Proctor CM},
journal={MRS Communications},
volume={12},
pages={654-661},
publisher={Springer Nature},
year = "2022"
}
Fluidic enabled bioelectronic implants: opportunities and challenges
Coles L, Oluwasanya P, Karam N & Proctor C (2022), Journal of Materials Chemistry B: Materials for Biology and Medicine, 10(37), 7122-7131
BibTeX
@article{fluidicenabledb-2022/8,
title={Fluidic enabled bioelectronic implants: opportunities and challenges},
author={Coles L, Oluwasanya P, Karam N & Proctor C},
journal={Journal of Materials Chemistry B: Materials for Biology and Medicine},
volume={10},
pages={7122-7131},
publisher={Royal Society of Chemistry},
year = "2022"
}
Medical device
Proctor C, Barone DG, Curto V, Woodington B & Malliaras G (2022)
BibTeX
@misc{medicaldevice-2022/8,
title={Medical device},
author={Proctor C, Barone DG, Curto V, Woodington B & Malliaras G},
year = "2022"
}
ELECTRONICALLY CONTROLLED DRUG DELIVERY
Oluwasanya PW & Proctor CM (2022), 140-157
BibTeX
@misc{electronicallyc-2022/1,
title={ELECTRONICALLY CONTROLLED DRUG DELIVERY},
author={Oluwasanya PW & Proctor CM},
year = "2022"
}
Introduction to Bioelectronics: Materials, Devices, and Applications
Stavrinidou E & Proctor CM (2022), 1-337
BibTeX
@book{introductiontob-2022/1,
title={Introduction to Bioelectronics: Materials, Devices, and Applications},
author={Stavrinidou E & Proctor CM},
year = "2022"
}
INTRODUCTION
Stavrinidou E & Proctor CM (2022), 16-31
BibTeX
@misc{introduction-2022/1,
title={INTRODUCTION},
author={Stavrinidou E & Proctor CM},
year = "2022"
}
Introduction to Bioelectronics
Stavrinidou E & Proctor C (2022)
BibTeX
@misc{introductiontob-2022/,
title={Introduction to Bioelectronics},
author={Stavrinidou E & Proctor C},
year = "2022"
}
X-ray markers for thin film implants
Woodington BJ, Coles L, Rochford AE, Freeman P, Sawiak S et al. (2021), Advanced Healthcare Materials, 11(18)
BibTeX
@article{xraymarkersfort-2021/8,
title={X-ray markers for thin film implants},
author={Woodington BJ, Coles L, Rochford AE, Freeman P, Sawiak S et al.},
journal={Advanced Healthcare Materials},
volume={11},
number={2200739},
publisher={Wiley},
year = "2021"
}
Electronics with shape actuation for minimally invasive spinal cord stimulation
Woodington BJ, Curto VF, Yu Y-L, Martínez-Domínguez H, Coles L et al. (2021), Science Advances, 7, eabg7833-eabg7833
BibTeX
@article{electronicswith-2021/6,
title={Electronics with shape actuation for minimally invasive spinal cord stimulation},
author={Woodington BJ, Curto VF, Yu Y-L, Martínez-Domínguez H, Coles L et al.},
journal={Science Advances},
volume={7},
number={26},
pages={eabg7833-eabg7833},
publisher={American Association for the Advancement of Science},
year = "2021"
}
Electronics with shape actuation for minimally invasive spinal cord stimulation.
Woodington BJ, Curto VF, Yu Y-L, Martínez-Domínguez H, Coles L et al. (2021), Science advances, 7(26), eabg7833
BibTeX
@article{electronicswith-2021/6,
title={Electronics with shape actuation for minimally invasive spinal cord stimulation.},
author={Woodington BJ, Curto VF, Yu Y-L, Martínez-Domínguez H, Coles L et al.},
journal={Science advances},
volume={7},
pages={eabg7833},
year = "2021"
}
Reducing passive drug diffusion from electrophoretic drug delivery devices through co-ion engineering
Chen S-T, Renny MN, C. Tomé L, Olmedo-Martínez JL, Udabe E et al. (2021), Advanced Science, 8(12)
BibTeX
@article{reducingpassive-2021/4,
title={Reducing passive drug diffusion from electrophoretic drug delivery devices through co-ion engineering},
author={Chen S-T, Renny MN, C. Tomé L, Olmedo-Martínez JL, Udabe E et al.},
journal={Advanced Science},
volume={8},
number={2003995},
publisher={Wiley},
year = "2021"
}
Chapter 13: Polymers/PEDOT Derivatives for Bioelectronics
Donahue MJ, Proctor CM & Strakosas X (2021), 2021-January(24), 488-545
BibTeX
@misc{chapterpolymers-2021/1,
title={Chapter 13: Polymers/PEDOT Derivatives for Bioelectronics},
author={Donahue MJ, Proctor CM & Strakosas X},
year = "2021"
}
Materials and Device Considerations in Electrophoretic Drug Delivery Devices
Chen S-T, Proctor CM & Malliaras GG (2020), Scientific reports, 10, 1-7
BibTeX
@article{materialsanddev-2020/,
title={Materials and Device Considerations in Electrophoretic Drug Delivery Devices},
author={Chen S-T, Proctor CM & Malliaras GG},
journal={Scientific reports},
volume={10},
number={1},
pages={1-7},
publisher={Nature Publishing Group},
year = "2020"
}
Polymers/PEDOT Derivatives for Bioelectronics
Donahue MJ, Proctor CM & Strakosas X (2020), 488-545
BibTeX
@misc{polymerspedotde-2020/,
title={Polymers/PEDOT Derivatives for Bioelectronics},
author={Donahue MJ, Proctor CM & Strakosas X},
year = "2020"
}
Horizons Community Board Collection-Nanobiomedicine
Dixit CK & Proctor CM (2019), Materials Horizons, 6(3), 426-427
BibTeX
@article{horizonscommuni-2019/3,
title={Horizons Community Board Collection-Nanobiomedicine},
author={Dixit CK & Proctor CM},
journal={Materials Horizons},
volume={6},
pages={426-427},
year = "2019"
}
An electrocorticography device with an integrated microfluidic ion pump for simultaneous neural recording and electrophoretic drug delivery in vivo
Proctor CM, Uguz I, Slezia A, Curto V, Inal S et al. (2019), Advanced Biosystems, 3, 1800270-1800270
BibTeX
@article{anelectrocortic-2019/,
title={An electrocorticography device with an integrated microfluidic ion pump for simultaneous neural recording and electrophoretic drug delivery in vivo},
author={Proctor CM, Uguz I, Slezia A, Curto V, Inal S et al.},
journal={Advanced Biosystems},
volume={3},
number={2},
pages={1800270-1800270},
year = "2019"
}
Horizons Community Board Collection–Nanobiomedicine
Dixit CK & Proctor CM (2019), Nanoscale Horizons, 4, 256-257
BibTeX
@article{horizonscommuni-2019/,
title={Horizons Community Board Collection–Nanobiomedicine},
author={Dixit CK & Proctor CM},
journal={Nanoscale Horizons},
volume={4},
number={2},
pages={256-257},
publisher={Royal Society of Chemistry},
year = "2019"
}
Electrophoretic delivery of γ-aminobutyric acid (GABA) into epileptic focus prevents seizures in mice
Slezia A, Proctor CM, Kaszas A, Malliaras GG & Williamson A (2019), JoVE (Journal of Visualized Experiments), e59268-e59268
BibTeX
@article{electrophoretic-2019/,
title={Electrophoretic delivery of γ-aminobutyric acid (GABA) into epileptic focus prevents seizures in mice},
author={Slezia A, Proctor CM, Kaszas A, Malliaras GG & Williamson A},
journal={JoVE (Journal of Visualized Experiments)},
number={147},
pages={e59268-e59268},
year = "2019"
}
Ionic hydrogel for accelerated dopamine delivery via retrodialysis
Proctor CM, Chan CY, Porcarelli L, Udabe E, Sanchez-Sanchez A et al. (2019), Chemistry of Materials, 31, 7080-7084
BibTeX
@article{ionichydrogelfo-2019/,
title={Ionic hydrogel for accelerated dopamine delivery via retrodialysis},
author={Proctor CM, Chan CY, Porcarelli L, Udabe E, Sanchez-Sanchez A et al.},
journal={Chemistry of Materials},
volume={31},
number={17},
pages={7080-7084},
publisher={American Chemical Society},
year = "2019"
}
Monitoring intrinsic optical signals in brain tissue with organic photodetectors
Rezaei-Mazinani S, Ivanov AI, Proctor CM, Gkoupidenis P, Bernard C et al. (2018), Advanced Materials Technologies, 3, 1700333-1700333
BibTeX
@article{monitoringintri-2018/,
title={Monitoring intrinsic optical signals in brain tissue with organic photodetectors},
author={Rezaei-Mazinani S, Ivanov AI, Proctor CM, Gkoupidenis P, Bernard C et al.},
journal={Advanced Materials Technologies},
volume={3},
number={5},
pages={1700333-1700333},
year = "2018"
}
Electrophoretic drug delivery for seizure control
Proctor CM, Slézia A, Kaszas A, Ghestem A, Del Agua I et al. (2018), Science advances, 4, eaau1291-eaau1291
BibTeX
@article{electrophoretic-2018/,
title={Electrophoretic drug delivery for seizure control},
author={Proctor CM, Slézia A, Kaszas A, Ghestem A, Del Agua I et al.},
journal={Science advances},
volume={4},
number={8},
pages={eaau1291-eaau1291},
publisher={American Association for the Advancement of Science},
year = "2018"
}
Balance Between Light Absorption and Recombination Losses in Solution-Processed Small Molecule Solar Cells with Normal or Inverted Structures
Brus VV, Lee HK, Proctor CM, Ford M, Liu X et al. (2018), Advanced Energy Materials, 8, 1801807-1801807
BibTeX
@article{balancebetweenl-2018/,
title={Balance Between Light Absorption and Recombination Losses in Solution-Processed Small Molecule Solar Cells with Normal or Inverted Structures},
author={Brus VV, Lee HK, Proctor CM, Ford M, Liu X et al.},
journal={Advanced Energy Materials},
volume={8},
number={29},
pages={1801807-1801807},
year = "2018"
}
NeuroRoots, a bio-inspired, seamless Brain Machine Interface device for long-term recording
Ferro MD, Proctor CM, Gonzalez A, Zhao E, Slezia A et al. (2018), BioRxiv, 460949-460949
BibTeX
@article{neurorootsabioi-2018/,
title={NeuroRoots, a bio-inspired, seamless Brain Machine Interface device for long-term recording},
author={Ferro MD, Proctor CM, Gonzalez A, Zhao E, Slezia A et al.},
journal={BioRxiv},
pages={460949-460949},
publisher={Cold Spring Harbor Laboratory},
year = "2018"
}
A microfluidic ion pump for in vivo drug delivery
Uguz I, Proctor CM, Curto VF, Pappa A-M, Donahue MJ et al. (2017), Advanced Materials, 29, 1701217-1701217
BibTeX
@article{amicrofluidicio-2017/,
title={A microfluidic ion pump for in vivo drug delivery},
author={Uguz I, Proctor CM, Curto VF, Pappa A-M, Donahue MJ et al.},
journal={Advanced Materials},
volume={29},
number={27},
pages={1701217-1701217},
year = "2017"
}
Understanding Open-Circuit Voltage Loss through the Density of States in Organic Bulk Heterojunction Solar Cells
Collins SD, Proctor CM, Ran NA & Nguyen T-Q (2016), Advanced Energy Materials, 6, 1501721-1501721
BibTeX
@article{understandingop-2016/,
title={Understanding Open-Circuit Voltage Loss through the Density of States in Organic Bulk Heterojunction Solar Cells},
author={Collins SD, Proctor CM, Ran NA & Nguyen T-Q},
journal={Advanced Energy Materials},
volume={6},
number={4},
pages={1501721-1501721},
year = "2016"
}
Understanding volumetric capacitance in conducting polymers
Proctor CM, Rivnay J & Malliaras GG (2016), Journal of Polymer Science Part B: Polymer Physics, 54, 1433-1436
BibTeX
@misc{understandingvo-2016/,
title={Understanding volumetric capacitance in conducting polymers},
author={Proctor CM, Rivnay J & Malliaras GG},
year = "2016"
}
Capacitance spectroscopy for quantifying recombination losses in nonfullerene small-molecule bulk heterojunction solar cells
Brus VV, Proctor CM, Ran NA & Nguyen T-Q (2016), Advanced Energy Materials, 6, 1502250-1502250
BibTeX
@article{capacitancespec-2016/,
title={Capacitance spectroscopy for quantifying recombination losses in nonfullerene small-molecule bulk heterojunction solar cells},
author={Brus VV, Proctor CM, Ran NA & Nguyen T-Q},
journal={Advanced Energy Materials},
volume={6},
number={11},
pages={1502250-1502250},
year = "2016"
}
Understanding charge transport in molecular blend films in terms of structural order and connectivity of conductive pathways
Proctor CM, Kher AS, Love JA, Huang Y, Sharenko A et al. (2016), Advanced Energy Materials, 6, 1502285-1502285
BibTeX
@article{understandingch-2016/,
title={Understanding charge transport in molecular blend films in terms of structural order and connectivity of conductive pathways},
author={Proctor CM, Kher AS, Love JA, Huang Y, Sharenko A et al.},
journal={Advanced Energy Materials},
volume={6},
number={9},
pages={1502285-1502285},
year = "2016"
}
Mechanical properties of solution-processed small-molecule semiconductor films
Rodriquez D, Savagatrup S, Valle E, Proctor CM, McDowell C et al. (2016), ACS applied materials & interfaces, 8, 11649-11657
BibTeX
@article{mechanicalprope-2016/,
title={Mechanical properties of solution-processed small-molecule semiconductor films},
author={Rodriquez D, Savagatrup S, Valle E, Proctor CM, McDowell C et al.},
journal={ACS applied materials & interfaces},
volume={8},
number={18},
pages={11649-11657},
publisher={American Chemical Society},
year = "2016"
}
Orientation selectivity with organic photodetectors and an organic electrochemical transistor
Gkoupidenis P, Rezaei-Mazinani S, Proctor CM, Ismailova E & Malliaras GG (2016), AIP Advances, 6, 111307-111307
BibTeX
@article{orientationsele-2016/,
title={Orientation selectivity with organic photodetectors and an organic electrochemical transistor},
author={Gkoupidenis P, Rezaei-Mazinani S, Proctor CM, Ismailova E & Malliaras GG},
journal={AIP Advances},
volume={6},
number={11},
pages={111307-111307},
publisher={AIP Publishing LLC},
year = "2016"
}
Importance of Domain Purity and Molecular Packing in Efficient Solution-Processed Small-Molecule Solar Cells
Mukherjee S, Proctor CM, Tumbleston JR, Bazan GC, Nguyen T-Q et al. (2015), Advanced Materials, 27, 1105-1111
BibTeX
@article{importanceofdom-2015/,
title={Importance of Domain Purity and Molecular Packing in Efficient Solution-Processed Small-Molecule Solar Cells},
author={Mukherjee S, Proctor CM, Tumbleston JR, Bazan GC, Nguyen T-Q et al.},
journal={Advanced Materials},
volume={27},
number={6},
pages={1105-1111},
year = "2015"
}
Effect of leakage current and shunt resistance on the light intensity dependence of organic solar cells
Proctor CM & Nguyen T-Q (2015), Applied Physics Letters, 106, 23_1-23_1
BibTeX
@article{effectofleakage-2015/,
title={Effect of leakage current and shunt resistance on the light intensity dependence of organic solar cells},
author={Proctor CM & Nguyen T-Q},
journal={Applied Physics Letters},
volume={106},
number={8},
pages={23_1-23_1},
publisher={AIP Publishing LLC},
year = "2015"
}
Significance of Average Domain Purity and Mixed Domains on the Photovoltaic Performance of High-Efficiency Solution-Processed Small-Molecule BHJ Solar Cells
Mukherjee S, Proctor CM, Bazan GC, Nguyen T-Q & Ade H (2015), Advanced Energy Materials, 5, 1500877-1500877
BibTeX
@article{significanceofa-2015/,
title={Significance of Average Domain Purity and Mixed Domains on the Photovoltaic Performance of High-Efficiency Solution-Processed Small-Molecule BHJ Solar Cells},
author={Mukherjee S, Proctor CM, Bazan GC, Nguyen T-Q & Ade H},
journal={Advanced Energy Materials},
volume={5},
number={21},
pages={1500877-1500877},
year = "2015"
}
Loss Mechanisms in Solution-Processed Small Molecule Bulk Heterojunction Solar Cells
Proctor CM (2015)
BibTeX
@misc{lossmechanismsi-2015/,
title={Loss Mechanisms in Solution-Processed Small Molecule Bulk Heterojunction Solar Cells},
author={Proctor CM},
year = "2015"
}