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Items: 18

1.

Hierarchical spidroin micellar nanoparticles as the fundamental precursors of spider silks.

Parent LR, Onofrei D, Xu D, Stengel D, Roehling JD, Addison JB, Forman C, Amin SA, Cherry BR, Yarger JL, Gianneschi NC, Holland GP.

Proc Natl Acad Sci U S A. 2018 Nov 6;115(45):11507-11512. doi: 10.1073/pnas.1810203115. Epub 2018 Oct 22.

PMID:
30348773
2.

Seeded growth of single-crystal two-dimensional covalent organic frameworks.

Evans AM, Parent LR, Flanders NC, Bisbey RP, Vitaku E, Kirschner MS, Schaller RD, Chen LX, Gianneschi NC, Dichtel WR.

Science. 2018 Jul 6;361(6397):52-57. doi: 10.1126/science.aar7883. Epub 2018 Jun 21.

PMID:
29930093
3.

Transmission Electron Microscopy Reveals Deposition of Metal Oxide Coatings onto Metal-Organic Frameworks.

Denny MS Jr, Parent LR, Patterson JP, Meena SK, Pham H, Abellan P, Ramasse QM, Paesani F, Gianneschi NC, Cohen SM.

J Am Chem Soc. 2018 Jan 31;140(4):1348-1357. doi: 10.1021/jacs.7b10453. Epub 2018 Jan 18.

PMID:
29268603
4.

Tackling the Challenges of Dynamic Experiments Using Liquid-Cell Transmission Electron Microscopy.

Parent LR, Bakalis E, Proetto M, Li Y, Park C, Zerbetto F, Gianneschi NC.

Acc Chem Res. 2018 Jan 16;51(1):3-11. doi: 10.1021/acs.accounts.7b00331. Epub 2017 Dec 11.

PMID:
29227618
5.

Directly Observing Micelle Fusion and Growth in Solution by Liquid-Cell Transmission Electron Microscopy.

Parent LR, Bakalis E, Ramírez-Hernández A, Kammeyer JK, Park C, de Pablo J, Zerbetto F, Patterson JP, Gianneschi NC.

J Am Chem Soc. 2017 Nov 29;139(47):17140-17151. doi: 10.1021/jacs.7b09060. Epub 2017 Nov 17.

PMID:
29145727
6.

Pore Breathing of Metal-Organic Frameworks by Environmental Transmission Electron Microscopy.

Parent LR, Pham CH, Patterson JP, Denny MS Jr, Cohen SM, Gianneschi NC, Paesani F.

J Am Chem Soc. 2017 Oct 11;139(40):13973-13976. doi: 10.1021/jacs.7b06585. Epub 2017 Sep 27.

PMID:
28942647
7.

Colloidal Covalent Organic Frameworks.

Smith BJ, Parent LR, Overholts AC, Beaucage PA, Bisbey RP, Chavez AD, Hwang N, Park C, Evans AM, Gianneschi NC, Dichtel WR.

ACS Cent Sci. 2017 Jan 25;3(1):58-65. doi: 10.1021/acscentsci.6b00331. Epub 2017 Jan 12.

8.

Structure and Function of Iron-Loaded Synthetic Melanin.

Li Y, Xie Y, Wang Z, Zang N, Carniato F, Huang Y, Andolina CM, Parent LR, Ditri TB, Walter ED, Botta M, Rinehart JD, Gianneschi NC.

ACS Nano. 2016 Nov 22;10(11):10186-10194. Epub 2016 Nov 1.

9.

Picoliter Drop-On-Demand Dispensing for Multiplex Liquid Cell Transmission Electron Microscopy.

Patterson JP, Parent LR, Cantlon J, Eickhoff H, Bared G, Evans JE, Gianneschi NC.

Microsc Microanal. 2016 Jun;22(3):507-14. doi: 10.1017/S1431927616000659. Epub 2016 May 3.

10.

Gaining Control over Radiolytic Synthesis of Uniform Sub-3-nanometer Palladium Nanoparticles: Use of Aromatic Liquids in the Electron Microscope.

Abellan P, Parent LR, Al Hasan N, Park C, Arslan I, Karim AM, Evans JE, Browning ND.

Langmuir. 2016 Feb 16;32(6):1468-77. doi: 10.1021/acs.langmuir.5b04200. Epub 2016 Feb 1.

PMID:
26741639
11.

Interface Promoted Reversible Mg Insertion in Nanostructured Tin-Antimony Alloys.

Cheng Y, Shao Y, Parent LR, Sushko ML, Li G, Sushko PV, Browning ND, Wang C, Liu J.

Adv Mater. 2015 Nov;27(42):6598-605. doi: 10.1002/adma.201502378. Epub 2015 Sep 30.

PMID:
26421524
12.

Realizing the full potential of insertion anodes for Mg-ion batteries through the nanostructuring of Sn.

Parent LR, Cheng Y, Sushko PV, Shao Y, Liu J, Wang CM, Browning ND.

Nano Lett. 2015 Feb 11;15(2):1177-82. doi: 10.1021/nl5042534. Epub 2015 Jan 7.

PMID:
25531653
13.

In-situ electrochemical transmission electron microscopy for battery research.

Mehdi BL, Gu M, Parent LR, Xu W, Nasybulin EN, Chen X, Unocic RR, Xu P, Welch DA, Abellan P, Zhang JG, Liu J, Wang CM, Arslan I, Evans J, Browning ND.

Microsc Microanal. 2014 Apr;20(2):484-92. doi: 10.1017/S1431927614000488.

PMID:
24755142
14.

Factors influencing quantitative liquid (scanning) transmission electron microscopy.

Abellan P, Woehl TJ, Parent LR, Browning ND, Evans JE, Arslan I.

Chem Commun (Camb). 2014 May 18;50(38):4873-80. doi: 10.1039/c3cc48479c.

PMID:
24643324
15.

Probing the degradation mechanisms in electrolyte solutions for Li-ion batteries by in situ transmission electron microscopy.

Abellan P, Mehdi BL, Parent LR, Gu M, Park C, Xu W, Zhang Y, Arslan I, Zhang JG, Wang CM, Evans JE, Browning ND.

Nano Lett. 2014 Mar 12;14(3):1293-9. doi: 10.1021/nl404271k. Epub 2014 Feb 27.

PMID:
24559146
16.

Direct visualization of initial SEI morphology and growth kinetics during lithium deposition by in situ electrochemical transmission electron microscopy.

Sacci RL, Dudney NJ, More KL, Parent LR, Arslan I, Browning ND, Unocic RR.

Chem Commun (Camb). 2014 Feb 28;50(17):2104-7. doi: 10.1039/c3cc49029g. Epub 2014 Jan 13.

PMID:
24413070
17.

Demonstration of an electrochemical liquid cell for operando transmission electron microscopy observation of the lithiation/delithiation behavior of Si nanowire battery anodes.

Gu M, Parent LR, Mehdi BL, Unocic RR, McDowell MT, Sacci RL, Xu W, Connell JG, Xu P, Abellan P, Chen X, Zhang Y, Perea DE, Evans JE, Lauhon LJ, Zhang JG, Liu J, Browning ND, Cui Y, Arslan I, Wang CM.

Nano Lett. 2013;13(12):6106-12. doi: 10.1021/nl403402q. Epub 2013 Nov 15.

PMID:
24224495
18.

Direct in situ observation of nanoparticle synthesis in a liquid crystal surfactant template.

Parent LR, Robinson DB, Woehl TJ, Ristenpart WD, Evans JE, Browning ND, Arslan I.

ACS Nano. 2012 Apr 24;6(4):3589-96. doi: 10.1021/nn300671g. Epub 2012 Apr 2.

PMID:
22439964

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