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Advanced Quantum-Nano Materials & Optoelectronics Laboratory
 
 

QR code_Prof. Jihoon Lee

Kwangwoon Univ. KOR ver website

Kwangwoon Univ. Eng ver website

Kwangwoon College of Electronics and Informattion Engineering

Dept. of Electronics and Communications Engineering

 

University of Arkansas


Sam M. Walton College of Business

 

ERC 선도연구센터

BK 21 PLUS

Engineering Research Center, Holo-Digilog Human Media

Ministry of Science, ICT and Future Planning

Ministry Of Education

NIPA

KCC

Ministry of Education, Science and Technology

ITRC logo

ITRC Forum 2011

 

 

- Journal Editor -

 

3D Research

NRL cover

 

 

- Research Highlight -

 

(Journal cover, Metals) Volume 7 Issue 11 Evolution of Ternary AuAgPd Nanoparticles by the Control of Temperature, Thickness, and Tri-Layer (2017)

(Journal cover,
Metals)
Volume 7
Issue 11

(2017)

 

Journal Cover: Precise Control of Configuration, Size and Density of Self-assembled Au Nanostructures on 4H-SiC (0001) by Systematic Variation of Deposition Amount, Annealing Temperature and Duration

(Journal cover,
CrystEngComm)
Volume 18
Issue 19

(2016)

Journal cover,CrystEngComm Volume 16 Issue 21 (2014)

(Journal cover,
CrystEngComm)
Volume 16
Issue 21

(2014)

 

Physica Status Solidi (a)) Volume 209 issue 6

(Journal cover,
Physica Status Solidi (a))
Volume 209
Issue 6

(2012)

 

Journal cover, Physica Status Solidi (a) Volume 208 Issue 1 (2011)

(Journal cover,
Physica Status Solidi (a))
Volume 208
Issue 1

(2011)

 

( Journal cover, IEEE Transactions on Nanotechnology) Volume 9 Issue 2  (2010)
( Journal cover,
IEEE Transactions on Nanotechnology)
Volume 9
Issue 2

(2010)

 

Wiley's Material Science online portal, Materials Views

(Materials Views, Wiley's Material Science)
"Nano Rings and Nano Pyramids"
(2010)

 


(Journal cover, Physica Status Solidi (a)) Volume 207 Issue 2  (2010)
(Journal cover,
Physica Status Solidi (a))
Volume 207
Issue 2

(2010)

 

(Journal cover, Applied Physics Letters) Volume 89 Issue 20  (2006)
(Journal cover,
Applied Physics Letters)
Volume 89
Issue 20

(2006)

 



(2006 MRS Fall Meeting Scene)
"Self-Assembly of InGaAs Quantum Dot Molecules (QDMs)"
(2006)

 

(Journal cover, Applied Physics Letters) Volume 88 Issue 23  (2006)

(Journal cover,
Applied Physics Letters)
Volume 88
Issue 23

(2006)

 

www.nanowerk.com

(NanoWerk, Spotlight)
"Quantum dot necklaces and other QD chains"
(April 12, 2006)

 

 
Research Links

Gregory J. Salamo

Gregory J. Salamo

Department of Physics
(University of Arkansas, USA)

Solitons Optical Computing Optical Properties of Nano-Structures Electronic Properties of Nano-Structures Nano-Device Fabrication Lab Ferroelectrics, etc

 

Zhiming M. Wang

Zhiming M. Wang

(University of Electronic Science and Technology of China, China)
(Institute of Semiconductor, Chinese Academy of Science, China)

 

Compound semiconductors, epitaxial crystal growth, molecular beam epitaxy (MBE), quantum dots, surface, interface, nanostructures, nanoscience and nanotechnology

 

James S. Harris

James S. Harris

Department of Electrical Engineering
(Stanford University)

* Molecular Beam Epitaxy
* Nanofabrication
* Optoelectronics
* Non-linear Optics
* Single Electron Devices
* Quantum Computing

Research Group Home Page

Arthur C. Gossard

Arthur C. Gossard

Materials & Electrical & Computer Engineering
(University of California, Santa Barbara)

Research involves growth of artificially structured materials by molecular beam epitaxy, including growth of quantum wells, superlattices and nanostructures, and their applications to high performance electrical and optical devices.

Research Group Home Page

Pierre M. Petroff

Pierre M. Petroff

Materials Department
(University of California, Santa Barbara)

* Self-assembled nanostructures using molecular beam epitaxy.
* Self-assembled quantum wires and dots in III-V
* compounds semiconductors.

UCSB LINK

James Speck

James S. Speck

Materials Department
(University of California, Santa Barbara)

Semiconductor research emphasizes relationships between thin film electronic materials growth, microstructure and physical properties. Experimental work focuses on MOCVD or MBE growth of wide bandgap nitrides coupled with structural characterization by transmission and scanning electron microscopy, x-ray diffraction, and atomic force microscopy.
Darrell G. Schlom

Darrell G. Schlom

Department of Materials Science and Engineering
(Penn State University )

Oxide Thin Films
Electronic Materials
Ferroelectrics
Dielectrics
Epitaxial Thin Films
Molecular-Beam Epitaxy (MBE)
Pulsed-Laser Deposition (PLD)

Research Group Home Page

April Brown

April Brown

Electrical and Computer Engineering
(Duke University)

III-V semiconductor materials and devices
Control of nanostructure synthesis via strain and surface chemisry
Heterojunction and Surface Engineering for Specific Device Applications and Defect Control
GaAs-, InP-, GaSb-, and GaN- based materials
Current Device Studies in AlGaAs-InAs High Electron Mobility Transistors, AlGaN UV Emitters, Integrated InP-based Heterojunction Bipolar Transistors

Research Group Home Page

Rod Beresford

Rod Beresford

Professor of Engineering
(Brown University)

Semiconductor nanostructures, including synthesis, modeling, integration with microelectronics, and applications

Research Group Home Page

Haeyeon Yang

Haeyeon Yang


Nano Science and Engineering
(South Dakota School of Mines & Technology, USA)

Fabrication and syntheses of novel nano materials for optoelectronic devices including photovoltaics, light emitting diodes (LEDs) and lasers

Joanna Mirecki Millunchick

Joanna Mirecki Millunchick

Department of Materials Science & Engineering (University of Michigan)

Materials and surface sciences of semiconductor thin film nucleation and epitaxy

Research Group Home Page

Rachel S. Goldman

Rachel S. Goldman


Materials Science & Engineering
(University of Michigan)

Investigations of structure-property relationships in thin films and heterostructures. Of particular interest are the effects of strain relaxation (dislocations, surface and interface roughness), alloy formation (phase separation, clustering, ordering), and diffusion (and interdiffusion) on electronic and optical properties.

Research Group Home Page

Theodore Moustakas

Theodore Moustakas


Electrical and Computer Engineering
(Boston University)

Visible and UV LEDs:
UV semiconductor lasers
HVPE GaN templates
Nitrogen cluster source:
A-plane growth of GaN:

Research Group Home Page

Ya-Hong Xie

Ya-Hong Xie


Department of Materials Science and Engineering
(University of California, Los Angeles)

RF Cross-talk Isolation
Self-assembled Quantum Dot Arrays by epitaxy
Si Optical Bench

Research Group Home Page

Christopher Palmstrøm

Christopher Palmstrøm

Department of Chemical Engineering and Materials Science
(University of Minnesota)

Epitaxial growth processes and heterostructure formation, Properties of thin films

Research Group Home Page

Charles W. Tu

Charles W. Tu

Department of Electrical and Computer Engineering
(University of California, San Diego)

* Arsenide/phosphide/nitride-based heterostructures and selective-area regrowth on patterned-and-etched substrates to improve device performance * A new class of semiconductors, dilute nitrides, for optoelectronic applications
Yong-Hang Zhang

Yong-Hang Zhang

Electrical Engineering
(Arizona State University)

Molecular beam epitaxy (MBE)
Optoelectronic devices and their applications

Research Group Link

Seongshik (Sean) Oh

Seongshik (Sean) Oh

Department of Physics & Astronomy
(Rutgers, the State University of New Jersey)

Atomically-controlled Oxide-Metamaterials
Nano/micro Oxide Devices

Research Group Home Page

Diana Huffaker

Diana Huffaker

Electrical Engineering
(University of California, Los Angeles)

Directed and self-assembled nanostructure solid-state epitaxy, optoelectronic devices including solar cells and III-V/Si photonics
Pallab Bhattacharya

Pallab Bhattacharya


Electrical Engineering and Computer Science
(University of Michigan)

Bacteriorhodopsin-Semiconductor Biophotonic Integrated Circuits
High Performance Quantum Dot Lasers
Lasers and Photonic Circuits on Si CMOS
Photonic Crystal Optical Microcavities
Quantum Dot Infrared Photodetectors and Imaging Arrays
Spin-Based Optoelectronics
ZnO Growth by Plasma-Assisted Molecular Beam Epitaxy
William A Doolittle


William A Doolittle

School of Electrical and Computer Engineering
(Georgia Institute of Technology)

Wide bandgap semiconductor materials and devices
Dielectric materials growth and characterization
Electrical, optical and structural characterization and optimization of Electronic materials and devices
Microelectronic device/circuit fabrication
Radio frequency power electronic devices

Research Group Link
John Prineas

John Prineas

Department of Physics and Astronomy
University of Iowa

Nonlinear optical materials for slowing, trapping, and switching optical pulses

Mid- and long-wave optoelectronics (2-12 microns) and glucose sensing

Kang L. Wang

Kang L. Wang

Electrical Engineering
(University of California, Los Angeles)

Nanoelectronics and optoelectronics, MBE and superlattices, micro-wave and millimeter electronics/optoelectronics, and quantum computing
Charles H. Ahn

Charles H. Ahn

Department of Applied Physics
(Yale University)

Novel materials; molecular beam epitaxy; physics and technology of ferroelectric films, including nanofabrication and "writing" with atomic force microscopy; control of carrier density in superconductors and semiconductors with ferroelectric gates

Research Group Link

Eric I. Altman

Eric I. Altman

Department of Chemical Engineering
(Yale University)

Oxygen plasma molecular beam epitaxy system

Dynamics of processes at surfaces using scanning tunneling microscopy (STM) and related techniques; structure-reactivity relationships in oxide catalysts; manipulation of surface chemistry through novel routes; the nucleation and growth of thin films

Victor E. Henrich

Victor E. Henrich

Applied Physics and of Physics
(Yale University)

Oxide MBE

Solid surfaces, the interaction of surfaces with absorbed atoms and molecules, interfaces between solids, and the properties of complex oxides

Daniel Wasserman

Daniel Wasserman

Department of Physics
(University of Massachusetts Lowell)

mid-infrared (mid-IR) emitters, detectors, and photonic devices for applications in Medicine, the Environment, Homeland Defense, and Communications

William D. Goodhue

William D. Goodhue

Department of Physics
(University of Massachusetts Lowell)

Photonics Center
Director

Experimental semiconductor research, materials, fabricatio

razeghi.gif

Manijeh Razeghi

Electrical Engineering and Computer Science,
(Northwestern University)

MBE & MOCVD

Quantum optoelectronics

Research Lab

 
 
 
Shuji Nakamura

Materials Department
(University of California, Santa Barbara, USA)

Nitride LED (blue laser LD and LED)

The Solid State Lighting and Display Center at UCSB
Dream of the Blue Laser Diode (I actually thought it looked very easy to make blue LEDs

Jerry D. Tersoff

Jerry D. Tersoff

(IBM Watson Research Center, USA)

Theoretical studies of self-assembly of epitaxial nanostructures

Dieter Bimberg

Dieter Bimberg

(Technische Universitat Berlin, Germany)

Quantum Dots & QD laser

Euijoon Yoon

Euijoon Yoon

Department of Materials Science and Engineering
(Seoul National University, South Korea)

III-V compound semiconductors
Nitride QDs (MOCVD)

Department of Materials Science and Engineering at Seoul National University

Alexander Govorov

Alexander Govorov

Department of Physics and Astronomy
(Ohio University, USA)

Optics of quantum dots and rings
Theoretical studies of photo-thermal effects in nanoparticle assemblies

 

Ho Nyung Lee

Ho Nyung Lee

(Oak Ridge National Laboratory, USA)

Functional Complex Oxides (PLD)

 

Christoph Lienau

Christoph Lienau

Institute of Physics
(Carl von Ossietzky the University of Oldenburg, Germany)

- Ultra fast Nano-Optics

Shu-Shen Li

Shu-Shen Li

(Institute of Semiconductor CAS, China)

- Theoretical studies of quantum- and nano-structures

Chih-Kang (Ken) Shih

Chih-Kang (Ken) Shih

Department of Physics
(University of Texas at Austin, USA)

Nano Electronic Materials

Research Group Home Page

Oliver G. Schmidt
Oliver G. Schmidt

(Max Planck Institute for Solid State Research, Germany)

Self-assembled quantum dots

Free-standing nano-objects

Nobuyuki Koguchi
Nobuyuki Koguchi

(National Institute for Materials Science, Japan)
Droplet epitaxy
 

Karl Jacobi

(Fritz-Haber-Institut der Max-Planck-Gesellschaft, Germany)

High-index GaAs surfaces (MBE &STM)
David J. Smith

David J. Smith

Department of Physics
( Arizona State University, USA)

Tunneling Electron Microscopy (TEM)

Yasuhiko Arakawa

Yasuhiko Arakawa

(The University of Tokyo, Japan)

Quantum Dot Laser

Xiaoqin Li (Elaine)

Department of Physics
(University of Texas at Austin, USA)

Ultra fast nonlinear spectroscopy in condensed matter, quantum dynamics and control in nanostructures
Eric Stinaff

Eric Stinaff

Dept. of Physics & Astronomy
(Ohio University, USA)

Optical and electronic properties of novel semiconductor materials, nanostructures and nanostructure based devices
Sophia E. Hayes

Sophia E. Hayes

Department of Chemistry
(Washington University in St. Louis, USA)

Laser-Enhanced Solid-State Nuclear Magnetic Resonance
p

Roberto Morandotti

(INRS EMT center
University of Quebec, Canada)

iDiscrete optical solitons
Ultra fast All-Optical Signal/Pulse Processing
Ultra-Wide band (UWB) microwave signal processing

Ultra fast Optical Processing Research Group

George I. Stegeman

College of Optics and Photonics
(University of Central Florida, USA)

Nonlinear optics in waveguide structures: solitons in photonic crystals, in semiconductor optical amplifiers, in quasi-phase-matched doubling crystals and in the discrete systems

Soliton group

Arup Neogi

Arup Neogi

Department of Physics
(University of North Texas, USA)

- Ultra fast and nonlinear optical effects in nitride semiconductors, intra-sub-band device physics, organic- inorganic luminescent hetrostructure and optical sensing and bio-imaging using semiconductor quantum dots

Brian P. Gorman

Brian P. Gorman

Department of Materials Science and Engineering
(University of North Texas, USA)

- Nanostructured inorganic materials processing and characterization with a thin film emphasis
- Characterization of thin films and ceramic interfaces using HRSTEM, TED,FESEM, XRD, and optical techniques
- Low temperature processing of nanoscale fuel cells, low-k dielectrics, and optoelectronics using precursor, sol-gel, and colloidal depositions
- Interfacial studies, epitaxial growth, texturing, and grain growth in thin films
Maohai Xie

Maohai Xie

Department of Physics
(The University of Hong Kong, Hong Kong)

- Surface Science: Molecular Beam Epitaxy, Growth Kinetics, Semiconductor Surface Structures

Department directory link

Tae-Youl Choi

Tae-Youl Choi

Department of Mechanical and Energy Engineering
(University of North Texas, USA)

- Nanostructure characterization/Fabrication of nanowire sensors
- Femtosecond laser material processing
- Focused ion beam nanofabrication
Littler

Littler

Department of Physics
(University of North Texas, USA)

Eletrical and optical characterization of novel semiconductor materials
Michael Shur
- Semiconductor Materials and Devices (nitride)
SiC and Related Materials and Devices by Michael Shur
Curtis R. Taylor

Curtis R. Taylor

Mechanical Engineering
(Virginia Commonwealth University)

- Nanomechanics and Nanomechanical Patterning of Quantum Dots
- Mechanotransduction of Cells Due to Nanomechanical Perturbation
- Mechanical Signaling for Controlled Stem Cell Differentiation
Shriram Ramanathan

Shriram Ramanathan

Materials Science
(Harvad University)

- Mechanistic understanding of role of electric fields in initial oxidation kinetics of metals and alloys
- Size effects on ion conduction mechanisms in doped-fluorite oxides
- Phase transition mechanisms in rutile oxides and their active tuning
- Precise measurements of oxygen concentration and migration kinetics at oxide hetero-interfaces

Eugene A. Fitzgerald

Eugene A. Fitzgerald

Department of Materials Science Engineering
(Massachusetts Institute of Technology)

Prof. Fitzgerald's group's research activities attack the current limitations of electronic materials, especially limitations created by imperfections in materials such as point, line, and planar defects. Much of the group's efforts are focused on lattice-mismatched semiconductor systems, in which layers in electronic materials and devices have different lattice parameters.

Prof. Fitzgerald's Home Page

Xiang Zhang

Xiang Zhang

Department of Mechanical Engineering
(University of California at Berkeley)

Micro-nano scale engineering, novel 3D fabrication technologies in microelectronics and photonics, micro and nano-devices, nano-lithography and nano-instrumentation, rapid prototyping, bio-MEMS, and semiconductor manufacturing.
Jin Kyu Lee

Jin Kyu Lee

School of Chemistry and Molecular Engineering
(Seoul National university)

Organic-inorganic Nanocomposite

Dr. Zhong Lin (ZL) Wang

Zhong Lin (ZL) Wang

School of Materials Science and Engineering
(Georgia Institute of Technology)

1. Nanowires and nanobelts of semiconducting oxide: from materials, to properties and to devices (2000 - present).

2. In-situ nanomeasurements on the mechanical, electrical and field emission properties of nanostructures (1997 - present).

3. Dynamics of shape controlled nanocrystals and nanocrystals self-assembly (1995 - present).

Wong Bong Choi

Wonbong Choi

Department of Mechanical and Materials Engineering
(Florida International University)

Nanotube/ Nanowire growth
Nanoelectronics
Field emission
Nano Biosensors
Samuel S. Mao

Samuel S. Mao


Department of Mechanical Engineering
(University of California at Berkeley)

Energy transport, conversion and storage, Nano, micro and meso scale phenomena and devices, Ultrafast laser-material interactions, Materials processing, Nonlinear science.
Lionel C. Kimerling

Lionel C. Kimerling

Department of Materials Science Engineering
(Massachusetts Institute of Technology)

Materials processing and device engineering for the creation of micron and sub-micron scale device elements for vertical integration with circuit systems.
Steven P. DenBaars

Steven P. DenBaars

Materials & Electrical & Computer Engineering
(University of California, Santa Barbara)

  • Electronic Materials growth and fabrication of new semiconductor devices.
  • MOCVD of III-V compound semiconductor materials and devices (InP, GaN).
  • Special interests include the effect of materials properties on device performance Blue LEDs, Blue Lasers, and High Temperature, High Power Electronic Devices.
  • Research Group Link
  • Mark A. Reed

    Mark A. Reed

    Engineering and Applied Science
    (Yale University)

    Heterojunction and low dimensional device physics; mesoscopic physics; quantum devices; nanotechnology; molecular scale transport; plasmonics; nanoscale biosensors

    Research Group Link

    Robert J. Schoelkopf

    Robert J. Schoelkopf

    Applied Physics and Physics
    (Yale University)

    Quantum transport, single-electron devices, and charge dynamics in nanostructures. Broadly put, his research is concerned with quantum-effect and single-electron devices
    Jung Han

    Jung Han

    Electrical Engineering
    (Yale University)

    Organo-metallic vapor phase epitaxy (OMVPE)

    AlGaInN blue and ultraviolet light emitting diodes (LEDs) and laser diodes (LDs)
    III-Nitride vertical cavity surface emitting lasers and LEDs
    GaN and AlGaN Quantum Dots through Droplet Epitaxy

    Hyatt M. Gibbs

    Hyatt M. Gibbs

    Optical Sciences
    (The University of Arizona)

    Fundamental physics of semiconductor quantum-confined structures; nonlinear optical phenomena; molecular-beam-epitaxial growth of Ga,Al,ln,As heterostructures; vertical-cavity surface-emitting lasers; optical instabilities; nonlinear etalons and waveguides; optical nonlinearities.

    Research Lab

     

     
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