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neaSNOM是目前世界上非常成熟的s-SNOM產(chǎn)品

**保護(hù)的散射式近場(chǎng)光學(xué)測(cè)量技術(shù)

—獨(dú)有的極高10 nm空間分辨率

**的高階解調(diào)背景壓縮技術(shù)

—在獲得10nm空間分辨率的同時(shí)保持極高的信噪比

專利保護(hù)的干涉式近場(chǎng)信號(hào)探測(cè)單元?**的贗外差干涉式探測(cè)技術(shù)

—能夠獲得對(duì)近場(chǎng)信號(hào)強(qiáng)度和相位的同步成像

**保護(hù)的反射式光學(xué)系統(tǒng)

—用于寬波長(zhǎng)范圍的光源：可見、紅外以至太赫茲

高穩(wěn)定性的AFM系統(tǒng)

—同時(shí)優(yōu)化了納米尺度下光學(xué)測(cè)量

雙光束設(shè)計(jì)

—極高的光學(xué)接入角：水平方向180°，垂直方向60°

操作和樣品準(zhǔn)備簡(jiǎn)單

—僅需要常規(guī)的AFM樣品準(zhǔn)備過程

Science (2017) doi:10.1126/science.aan2735

Tuning quantum nonlocal effects in graphene plasmonics

Nature Nanotechnology (2017) doi:10.1038/nnano.2016.185

Acoustic terahertz graphene plasmons revealed by photocurrent nanoscopy

Nature Photonics (2017) doi:10.1038/nphoton.2017.65

Imaging exciton–polariton transport in MoSe2 waveguides

Nature Materials (2016) doi:10.1038/nnano.2016.185

Acoustic terahertz graphene plasmons revealed by photocurrent nanoscopy

Nature Materials (2016) doi:10.1038/nmat4755

Thermoelectric detection and imaging of propagating graphene plasmons

Nat. Commun. 8， 15561(2017)

Imaging metal-like monoclinic phase stabilized by surface coordination effect in vanadium dioxide nanobeam

Adv. Mater. 29， 1606370 (2017)

The Light-Induced Field-Effect Solar Cell Concept –Perovskite Nanoparticle Coating Introduces Polarization Enhancing Silicon Cell Efficiency

Light- Sci & Appl 6， 204 (2017)

Effects of edge on graphene plasmons as revealed by infrared nanoimaging

Light- Sci & Appl，中山大學(xué)accepted (2017)

Tailoring of electromagnetic field localizations by two-dimensional graphene nanostructures

Nanoscale 9， 208 (2017)

Study of graphene plasmons in graphene–MoS2 heterostructures for optoelectronic integrated devices

Nano-Micro Lett. 9，2 (2017)

Molybdenum Nanoscrews: A Novel Non-coinage-Metal Substrate for Surface-Enhanced Raman Scattering

J. Phys. D: Appl. Phys. 50， 094002 (2017)

High performance photodetector based on 2D CH3NH3PbI3 perovskite nanosheets

ACS Sens. 2， 386 (2017)

Flexible， Transparent， and Free-Standing Silicon Nanowire SERS

Platform for in Situ Food Inspection

Semiconductor Sci. and Tech.32，074003 (2017)

PbI2 platelets for inverted planar organolead Halide Perovskite solar cells via ultrasonic spray deposition

Prof. Dmitri Basov

美國(guó) 加州大學(xué)

University of California San Diego

"The neaSNOM microscope with it’s imaging and nano-FTIR mode is the most useful research instrument in years， bringing genuinely new insights."

Dr. Jaroslaw Syzdek美國(guó) 勞倫斯伯克利國(guó)家實(shí)驗(yàn)室

Lawrence Berkeley National Laboratory

"We were looking for a flexible research tool capable of characterizing our energy storage materials at the nanoscale. neaSNOM proofed to be the system with the highest spatial resolution in infrared imaging and spectroscopy and brings us substantial new insights for our research”

陳煥君 教授 中山大學(xué)Sun Yat-sen University

"The neaSNOM microscope boosted my research in plasmonic properties of noble metal nanocrystals， optical resonances of dielectric nanostructures， and plasmon polaritons of graphene-like two dimensional nanomaterials."

Prof. Rainer HillenbrandResearch Center

Co-Founder and Scientific Advisor

"After many years of research and development in near-field microscopy， we finally made our dream come true to perform infrared imaging & spectroscopy at the nanoscale. With neaSNOM we can additionally realize Raman， fluorescence and non-linear nano-spectroscopy."

Dr. Dangyuan Lei

The Hong Kong Polytechnic University

Department of Applied Physics

Hong Kong

"We propose to establish a complete set of nano-FTIR and scattering-type SNOM in order to stay competitive in nanophotonics research as well as to maintain our state-of-the-art design and fabrication of novel nanomaterials. Only because of the unique technology from neaspec we were able to win this desirable university grant."

Prof. Dan Mittleman

Brown University

School of Engineering

USA

"The neaSNOM near-field microscope and it’s user-friendly software offer us an incredible flexibility for the realization of our unique experiments – without compromises in robustness， handling and ease-of-use."

Dr. Raul Freitas

Centro Nacional de Pesquisa em Energia e Materiais (CNPEM)

Laboratório Nacional de Luz Síncrotron (LNLS)

Brazil

"The great stability and robustness of the neaSNOM are key features for serving our diverse user’s demands. The neaSCAN software is user-friendly and intuitive allowing fresh users to quickly start measuring."

Prof. Dr. Rupert Huber

University of Regensburg

Department of Phyics

Germany

"The unique dual beam-path design of the neaSNOM near-field microscope makes neaspec the natural choice for ultrafast spectroscopy at the nanoscale."

清華大學(xué)

東南大學(xué)

中科院物理所

中科院上海技物所

香港理工大學(xué)

中山大學(xué)

蘇州大學(xué)

中科院大連化物所

中國(guó)科學(xué)技術(shù)大學(xué)

首都師范大學(xué)

四川大學(xué)

南開大學(xué)

國(guó)家納米科學(xué)中心

中科院成都光電所

北京師范大學(xué)