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Maria "Masha" Kamenetska

Maria "Masha" Kamenetska

Boston University

H-index: 18

North America-United States

Contact Maria "Masha" Kamenetska

About Maria "Masha" Kamenetska

Maria "Masha" Kamenetska, With an exceptional h-index of 18 and a recent h-index of 14 (since 2020), a distinguished researcher at Boston University, specializes in the field of Single molecule techniques, nanotechnology, biophysics.

His recent articles reflect a diverse array of research interests and contributions to the field:

Topological insulator single molecule circuits formed with neutral organic radicals.

Extreme anti-ohmic conductance enhancement in neutral diradical acene-like molecular junctions

Tunable growth of a single high-density ZIF nanoshell on a gold nanoparticle isolated in an optical trap

Phenol is a pH-activated linker to gold: a single molecule conductance study

Single-Molecule Conductance of Intramolecular Hydrogen Bonding in Histamine on Gold

Manipulating Quantum Interference between σ and π Orbitals in Single-Molecule Junctions via Chemical Substitution and Environmental Control

Cooperative Self-Assembly of Dimer Junctions Driven by π Stacking Leads to Conductance Enhancement

Simultaneous Force and Darkfield Measurements Reveal Solvent-Dependent Axial Control of Optically Trapped Gold Nanoparticles

Maria "Masha" Kamenetska Information

University

Position

Assistant Professor Departments of Chemistry and Physics

Citations(all)

3093

Citations(since 2020)

1083

Cited By

2471

hIndex(all)

18

hIndex(since 2020)

14

i10Index(all)

23

i10Index(since 2020)

19

Email

University Profile Page

Google Scholar

Maria "Masha" Kamenetska Skills & Research Interests

Single molecule techniques

nanotechnology

biophysics

Top articles of Maria "Masha" Kamenetska

Topological insulator single molecule circuits formed with neutral organic radicals.

Bulletin of the American Physical Society

2024/3/8

Extreme anti-ohmic conductance enhancement in neutral diradical acene-like molecular junctions

arXiv preprint arXiv:2403.04906

2024/3/7

Tunable growth of a single high-density ZIF nanoshell on a gold nanoparticle isolated in an optical trap

Nanoscale

2024

Daniel Jackson
Daniel Jackson

H-Index: 24

Phenol is a pH-activated linker to gold: a single molecule conductance study

Nanoscale

2024

Single-Molecule Conductance of Intramolecular Hydrogen Bonding in Histamine on Gold

The Journal of Physical Chemistry Letters

2023/9/11

Xiaoyun Pan
Xiaoyun Pan

H-Index: 2

Manipulating Quantum Interference between σ and π Orbitals in Single-Molecule Junctions via Chemical Substitution and Environmental Control

ACS nano

2023/8/4

Xiaoyun Pan
Xiaoyun Pan

H-Index: 2

Cooperative Self-Assembly of Dimer Junctions Driven by π Stacking Leads to Conductance Enhancement

Nano Letters

2023/7/24

Xiaoyun Pan
Xiaoyun Pan

H-Index: 2

Enrique Montes
Enrique Montes

H-Index: 13

Simultaneous Force and Darkfield Measurements Reveal Solvent-Dependent Axial Control of Optically Trapped Gold Nanoparticles

The Journal of Physical Chemistry Letters

2023/3/13

Atomically precise binding conformations of adenine and its variants on gold using single molecule conductance signatures

The Journal of Chemical Physics

2022/12/21

Xiaoyun Pan
Xiaoyun Pan

H-Index: 2

Cheng Qian
Cheng Qian

H-Index: 10

Lu Wang
Lu Wang

H-Index: 6

Formation and evolution of metallocene single-molecule circuits with direct gold-π links

Journal of the American Chemical Society

2022/3/30

Single molecule force spectroscopy of telomeric H3. 3 variant nucleosomes

APS March Meeting Abstracts

2022

Daniel Jackson
Daniel Jackson

H-Index: 24

Rachel Flynn
Rachel Flynn

H-Index: 11

Self-Assembled Organometallic Molecular Wires in Single Molecule Circuits

2021/12/12

Hard–soft chemistry design principles for predictive assembly of single molecule-metal junctions

Journal of the American Chemical Society

2021/9/28

Local Defects in Colloidal Quantum Dot Thin Films Measured via Spatially Resolved Multi‐Modal Optoelectronic Spectroscopy

Advanced Materials

2020/3

Yida Lin
Yida Lin

H-Index: 2

Xiaoyun Pan
Xiaoyun Pan

H-Index: 2

Angstrom-scale ruler using single molecule conductance signatures

The Journal of Physical Chemistry C

2020/5/27

Xiaoyun Pan
Xiaoyun Pan

H-Index: 2

pH-activated single molecule conductance and binding mechanism of imidazole on gold

Nano Letters

2020/5/4

Xiaoyun Pan
Xiaoyun Pan

H-Index: 2

See List of Professors in Maria "Masha" Kamenetska University(Boston University)