Skip to main navigation
Skip to search
Skip to main content
Rutgers, The State University of New Jersey Home
Help & FAQ
Home
Profiles
Research units
Core Facilities
Federal Grants
Research output
Search by expertise, name or affiliation
View Scopus Profile
Li Zhu
ASST PROFESSOR ACD YR
,
Rutgers Newark, Physics
https://orcid.org/0000-0001-8588-9379
Email
lz432
rutgers
edu
h-index
8224
Citations
28
h-index
Calculated based on number of publications stored in Pure and citations from Scopus
2010
2024
Research activity per year
Overview
Fingerprint
Network
Federal Grants
(1)
Research output
(62)
Similar Profiles
(5)
Fingerprint
Dive into the research topics where Li Zhu is active. These topic labels come from the works of this person. Together they form a unique fingerprint.
Sort by
Weight
Alphabetically
Material Science
Bismuth
22%
Boride
16%
Boron
83%
Boron Nitride
22%
Carbon Nitride
14%
Cesium
11%
Clathrate
85%
Crystal Structure
100%
Crystal Structure
11%
Crystalline Material
35%
Deformation Mechanism
11%
Density
80%
Diamond
62%
Diffraction Pattern
16%
Electronic Property
16%
Electronic Structure Calculation
14%
Ferroelectric Material
27%
Fullerene
13%
Functional Material
11%
Graphene
14%
Graphitic Carbon Nitride
11%
High-Temperature Superconductivity
22%
Hydride
35%
Infrared Spectroscopy
22%
Ionic Bonding
11%
Lanthanum
22%
Lithium
22%
Long-Range Order
25%
Molecular Bonding
11%
Monolayers
11%
Nanocrystalline Material
44%
Nitride Compound
14%
Oxynitride
22%
Photovoltaic Performance
11%
Polyacetylene
16%
Polymerization
38%
Polymorphism
36%
Raman Spectroscopy
16%
Silicon
38%
Single Crystal
22%
Solid State Polymerization
14%
Structure (Composition)
11%
Superconducting Material
28%
Superconductivity
66%
Surface Energy
25%
Synchrotron X-Ray Diffraction
11%
Thermoelectric Materials
11%
Transition Metal Carbide
11%
Vickers Hardness
11%
X-Ray Diffraction
35%
Keyphrases
Allotropic Transition
11%
Ambient Conditions
22%
Ambient Pressure
27%
Boron
55%
Boron Carbon
11%
Boron Fullerene
11%
Carbon Clathrates
15%
Cesium
11%
Chain Polymerization
11%
Chalcopyrite Structure
11%
Clathrate
52%
Clathrate Structure
15%
Configurational Entropy
11%
Covalently Bonded
14%
Crystal Structure Prediction
14%
Cubane
22%
CuGaS2
11%
Diamond-like
32%
Dicyanoacetylene
11%
Earth's Inner Core
11%
Electron-phonon Coupling
16%
Electronic States
13%
Fingerprinting
11%
First-principles Calculations
15%
Framework Materials
11%
Hexaborides
16%
Hexagonal Silicon
11%
High Pressure
44%
High-pressure Experiment
11%
High-pressure Phase
20%
High-pressure Structure
11%
High-temperature Superconductivity
22%
Metastable Phase Formation
11%
Overpressure
18%
Phase Transition
15%
Polymorph
22%
Polymorphism
11%
Pressure-induced
16%
Pressure-induced Polymerization
11%
Room Temperature
11%
Structural Optimization
13%
Structure Search
11%
Substitutional Alloy
11%
Superconductivity
24%
Superhard
22%
Superhard Materials
16%
Tetragonal
13%
Tetragonal Structure
11%
Valuable Insight
11%
Vickers Hardness
11%
Chemistry
Ambient Reaction Temperature
11%
Amidines
11%
Amm2
11%
Band Gap
20%
Cadmium Selenide
11%
Cesium
11%
Chain Growth Polymerization
11%
Chemistry
11%
Clathrate
70%
Cluster Structure
8%
Cmca
11%
Crystal Structure
30%
Cubane
11%
Cubic Space Group
17%
Density Functional Theory
20%
Density of State
9%
Diazine
11%
Dioxygen
11%
Europium
11%
Face-Centered Cubic Crystal System
12%
Fermi Level
11%
First Principle
33%
Fullerene
11%
Hydrogen
20%
I4/Mmm
11%
Lanthanum
11%
Metal Atom
11%
Metal Hydride
11%
Metastable Phase
11%
Molecular Dynamics
8%
Nanomaterial
22%
Noble Metal
11%
Octahedral Crystal
11%
Orientational Order
11%
Phase Composition
13%
Phonon
14%
Polyacetylene Polymer
16%
Polymerization
33%
Primary Structure
10%
Raman Spectroscopy
13%
Single Crystal X-Ray Diffraction
7%
Structural Phase Transition
9%
Structure
37%
Substitutional Alloy
11%
Superconducting Critical Temperature
9%
Superconductivity
33%
Thiophene
11%
Transition Element
11%
Vickers Hardness
8%
X-Ray Diffraction
11%