Page, Zachariah A
Publication with MATCHING institution:
- Ahn D, Stevens LM, Zhou K, Page ZA (2021) Additives for Ambient 3D Printing with Visible Light. Advanced Materials.
[IF=4.1, Cited=5, 34523168].
- Ju H, Zhu CN, Wang H, ..., Huang F (2021) Paper without a Trail: Time-Dependent Encryption using Pillar[5]arene-Based
Host-Guest Invisible Ink. Advanced Materials. [IF=4.1, Cited=7, 34802162].
- Allen MJ, Lien HM, Prine N, ..., Page ZA (2022) Multimorphic Materials: Spatially Tailoring Mechanical Properties via
Selective Initiation of Interpenetrating Polymer Networks. Advanced Materials. [IF=4.1, Cited=4, 36515127].
- Cater HL, Allen MJ, Linnell MI, ..., Page ZA (2024) Supersoft Norbornene-Based Thermoplastic Elastomers with High
Strength and Upper Service Temperature. Advanced Materials. [IF=4.1, Cited=0, 38718377].
- Ji X, Wang H, Wang H, ..., Sessler JL (2020) Removal of Organic Micropollutants from Water by Macrocycle-Containing
Covalent Polymer Networks. Angewandte Chemie - International Edition. [IF=2.456, Cited=6, 32717142].
- Uddin A, Allen SR, Rylski AK, ..., Page ZA (2023) Do The Twist: Efficient Heavy-Atom-Free Visible Light Polymerization
Facilitated by Spin-Orbit Charge Transfer Inter-system Crossing. Angewandte Chemie - International Edition. [IF=2.456,
Cited=2, 36988076].
- Chung KY, Halwachs KN, Lu P, ..., Page ZA (2022) Rapid hydrogel formation via tandem visible light photouncaging and
bioorthogonal ligation. Cell Reports Physical Science. [IF=1.471, Cited=1, 37496708].
- Stevens LM, Tagnon C, Page ZA (2022) "Invisible" Digital Light Processing 3D Printing with Near Infrared Light. ACS
applied materials & interfaces. [IF=1.429, Cited=2, 35080842].
- Rylski AK, Maraliga T, Wu Y, ..., Page ZA (2023) Digital Light Processing 3D Printing of Soft Semicrystalline Acrylates
with Localized Shape Memory and Stiffness Control. ACS applied materials & interfaces. [IF=1.429, Cited=0, 37418641].
- Ahn D, Stevens LM, Zhou K, Page ZA (2020) Rapid High-Resolution Visible Light 3D Printing. ACS Central Science.
[IF=2.363, Cited=37, 32999930].
- Haris U, Plank JT, Li B, ..., Lippert AR (2021) Visible Light Chemical Micropatterning Using a Digital Light Processing
Fluorescence Microscope. ACS Central Science. [IF=2.363, Cited=0, 35106374].
- O'Dea CJ, Isokuortti J, Comer EE, ..., Page ZA (2024) Triplet Upconversion under Ambient Conditions Enables Digital
Light Processing 3D Printing. ACS Central Science. [IF=2.363, Cited=2, 38435512].
- Wang H, Jones LO, Hwang I, ..., Sessler JL (2021) Selective Separation of Lithium Chloride by Organogels Containing
Strapped Calix[4]pyrroles. Journal of the American Chemical Society. [IF=2.573, Cited=4, 34812619].
- Chung KY, Page ZA (2023) Boron-Methylated Dipyrromethene as a Green Light Activated Type I Photoinitiator for Rapid
Radical Polymerizations. Journal of the American Chemical Society. [IF=2.573, Cited=4, 37540781].
- Mason KS, Huang SY, Emslie SK, ..., Page ZA (2024) 3D-Printed Porous Supramolecular Sorbents for Cobalt Recycling.
Journal of the American Chemical Society. [IF=2.573, Cited=0, 38300153].
- Kiker MT, Uddin A, Stevens LM, ..., Page ZA (2024) Onium Photocages for Visible-Light-Activated Poly(thiourethane)
Synthesis and 3D Printing. Journal of the American Chemical Society. [IF=2.573, Cited=0, 38981090].
- Corsetti S, Notaros M, Sneh T, ..., Notaros J (2024) Silicon-photonics-enabled chip-based 3D printer. Light: Science and
Applications. [IF=4.689, Cited=0, 38839804].
- Recker EA, Zhou J, Page ZA (2024) Etch A Sketch-like liquid-crystal phase patterning. Nature Materials. [IF=6.645,
Cited=0, 38834732].
- Guo C, Wang H, Ji X, ..., Sessler JL (2020) Molecular recognition of pyrazine N,N'-dioxide using aryl
extended calix[4]pyrroles. Chemical Science. [IF=1.563, Cited=3, 34094078].
- Wang H, Jones LO, Zhao T, ..., Sessler JL (2023) Fluorescent copolymer aggregate sensor for lithium chloride. Chemical
Science. [IF=1.563, Cited=0, 37063794].
- Chung KY, Uddin A, Page ZA (2023) Record release of tetramethylguanidine using a green light activated photocage for
rapid synthesis of soft materials. Chemical Science. [IF=1.563, Cited=1, 37829029].
- Rylski AK, Cater HL, Mason KS, ..., Page ZA (2022) Polymeric multimaterials by photochemical patterning of
crystallinity. Science. [IF=7.729, Cited=2, 36227995].
Publication with MISMATCHING institution:
- Liu F, Page ZA, Duzhko VV, ..., Emrick T (2013) Conjugated polymeric zwitterions as efficient interlayers in organic
solar cells. Advanced Materials. [IF=4.1, Cited=13, 24105660].
- Dolinski ND, Page ZA, Callaway EB, ..., Hawker CJ (2018) Solution Mask Liquid Lithography (SMaLL) for One-Step,
Multimaterial 3D Printing. Advanced Materials. [IF=4.1, Cited=26, 29931700].
- Lee H, Stephenson JC, Richter LJ, ..., Briseno AL (2016) The Structural Origin of Electron Injection Enhancements with
Fulleropyrrolidine Interlayers. Advanced Materials Interfaces. [IF=0.989, Cited=2, 28133591].
- Liu Y, Page ZA, Russell TP, Emrick T (2015) Finely Tuned Polymer Interlayers Enhance Solar Cell Efficiency. Angewandte
Chemie - International Edition. [IF=2.456, Cited=10, 26236017].
- Narupai B, Page ZA, Treat NJ, ..., Hawker CJ (2018) Simultaneous Preparation of Multiple Polymer Brushes under Ambient
Conditions using Microliter Volumes. Angewandte Chemie - International Edition. [IF=2.456, Cited=18, 30155954].
- Diaz YJ, Page ZA, Knight AS, ..., Read de Alaniz J (2017) A Versatile and Highly Selective Colorimetric Sensor for the
Detection of Amines. Chemistry - A European Journal. [IF=0.899, Cited=24, 28125768].
- Dolinski ND, Page ZA, Discekici EH, ..., Hawker CJ (2018) What happens in the dark? Assessing the temporal control of
photo-mediated controlled radical polymerizations. None. [IF=None, Cited=16, 31011240].
- Liu Y, Duzhko VV, Page ZA, ..., Russell TP (2016) Conjugated Polymer Zwitterions: Efficient Interlayer Materials in
Organic Electronics. Accounts of Chemical Research. [IF=3.533, Cited=9, 27783502].
- Zhang Z, Sheri M, Page ZA, ..., Russell TP (2020) Understanding Hole Extraction of Inverted Perovskite Solar Cells. ACS
applied materials & interfaces. [IF=1.429, Cited=2, 33284573].
- Dolinski ND, Callaway EB, Sample CS, ..., Hawker CJ (2021) Tough Multimaterial Interfaces through Wavelength-Selective
3D Printing. ACS applied materials & interfaces. [IF=1.429, Cited=4, 33929835].
- Liu Y, Renna LA, Bag M, ..., Russell TP (2016) High Efficiency Tandem Thin-Perovskite/Polymer Solar Cells with a Graded
Recombination Layer. ACS applied materials & interfaces. [IF=1.429, Cited=15, 26918708].
- Page ZA, Narupai B, Pester CW, ..., Hawker CJ (2017) Novel Strategy for Photopatterning Emissive Polymer Brushes for
Organic Light Emitting Diode Applications. ACS Central Science. [IF=2.363, Cited=12, 28691078].
- Liu Y, Page ZA, Zhou D, ..., Russell TP (2017) Chemical Stabilization of Perovskite Solar Cells with Functional
Fulleropyrrolidines. ACS Central Science. [IF=2.363, Cited=2, 29532021].
- Hemmer JR, Page ZA, Clark KD, ..., Read de Alaniz J (2018) Controlling Dark Equilibria and Enhancing Donor-Acceptor
Stenhouse Adduct Photoswitching Properties through Carbon Acid Design. Journal of the American Chemical Society.
[IF=2.573, Cited=27, 30074782].
- Page ZA, Liu Y, Duzhko VV, ..., Emrick T (2014) Fulleropyrrolidine interlayers: tailoring electrodes to raise organic
solar cell efficiency. Science. [IF=7.729, Cited=35, 25236470].
Publication with MISSING institution:
- Ulrich S, Hemmer JR, Page ZA, ..., Read de Alaniz J (2017) Visible Light-Responsive DASA-Polymer Conjugates. ACS Macro
Letters. [IF=1.238, Cited=6, 35650854].
- Niu J, Page ZA, Dolinski ND, ..., Hawker CJ (2017) Rapid Visible Light-Mediated Controlled Aqueous Polymerization with
In Situ Monitoring. ACS Macro Letters. [IF=1.238, Cited=12, 35650926].
- Stafford A, Ahn D, Raulerson EK, ..., Page ZA (2020) Catalyst Halogenation Enables Rapid and Efficient Polymerizations
with Visible to Far-Red Light. Journal of the American Chemical Society. [IF=2.573, Cited=8, 32786788].
- Hemmer JR, Poelma SO, Treat N, ..., Read de Alaniz J (2016) Tunable Visible and Near Infrared Photoswitches. Journal of
the American Chemical Society. [IF=2.573, Cited=40, 27700083].