Photo-Induced Carrier Transfer in Heterostructured Semiconductor Nanocrystals for Solar Energy Conversion / 太陽光エネルギー変換を指向したヘテロ構造半導体ナノ結晶における光誘起キャリア移動プロセスの解明 / # ja-Kana

Lian, Zichao

25 September 2018

京都大学 / 0048 / 新制・課程博士 / 博士(理学) / 甲第21333号 / 理博第4429号 / 新制||理||1636(附属図書館) / 京都大学大学院理学研究科化学専攻 / (主査)教授 寺西 利治, 教授 倉田 博基, 教授 時任 宣博 / 学位規則第4条第1項該当 / Doctor of Science / Kyoto University / DGAM

Heterostructured nanocrystals

Plasmon-induced carrier transfer

Solar energy conversion

Photocatalytic Hydrogen evolution

Visible to infrared light

Transient absorption

400

The Transition From Diffuse to Dense Molecular Clouds

Rice, Johnathan Scott

January 2018

No description available.

Astronomy

Astrophysics

Diffuse Molecular Clouds

ISM

Emission

Absorption

Atomic to molecular

Diffuse interstellar gas

UV

Visible

Submillimeter

Radio lines

Structure

Tailoring Biomass for Light Active Compounds and Materials

Singathi, Ravichandranath

06 August 2020

No description available.

Chemistry

Organic Chemistry

Polymer Chemistry

Polymers

Biomass

Photodegradable polymers

Visible Light Active Photoinitiators

Photoresponsive materials

Biobased polymers

Composite Nanostructures as Effective Catalysts for Visible-Light-Driven Chemical Transformations

Rasamani, Kowsalya Devi, 0000-0002-1717-1426

January 2020

The development of nanoscale heterostructure photocatalysts for the effective, direct utilization of visible light (400-750 nm, ~44% of solar spectrum) to drive important chemical conversions is a prime research area in the field of photocatalysis. Particles at nanoscale dimensions have a large surface area-to-volume ratio, expose a high number of active surface sites, and exhibit unique electronic properties (different from bulk) that are beneficial for improving the overall catalytic activity. However, the advantages of size reduction are often overshadowed by the low optical absorption (as absorption power  size3) and colloidal instability (extensive aggregation) of particles at the nanoscale. In this dissertation, we demonstrate a strategy to improve the colloidal stability and enhance the optical absorption of nano-sized semiconductor and metal nanoparticles (NPs) that exhibit weak visible light absorption. The colloidal, free-standing NPs are placed on transparent, dielectric silica nanospheres (SiOx NSs) that act as optical antenna supports, forming SiOx/NP composite nanostructures. The spherical morphology of SiOx enables scattering resonances (Fabry Perot or Whispering Gallery Modes) which enhances the local electric field on or near the surface of the NS. The NPs placed on the surface of SiOx NS interact with the locally enhanced electric field and exhibit improved optical absorption. By varying the size of the SiOx NS, the resonance wavelengths and the intensity of the local electric field enhancement can be tuned, offering the ability of such structures to effectively utilize a wide range of energies in the visible region. Composite nanostructures comprised of various classes of nanomaterials such as metal-doped semiconductor, plasmonic, and non-plasmonic metal NPs were investigated to perform the desirable solar-to-chemical transformations. First, we employed SiOx-loaded silver-doped silver chloride (SiOx/AgCl(Ag)) photocatalyst to investigate the role of metal-induced gap states in AgCl, a wide bandgap semiconductor. SiOx/AgCl(Ag) exhibit high catalytic performance and photostability after 10 cycles of the probe reaction, methylene blue (MB) degradation under visible light irradiation. The results indicate that the visible light absorption due to metal-induced gap states can be further improved by employing the SiOx NSs as supports that act as optical nanoantenna. We then studied the influence of NP size on the catalytic activity to understand the effect of size in promoting the generation and transfer of hot electrons to surface adsorbates. Our findings indicate that upon employing Ag NPs of different particle size (<10 nm and >10 nm) and normalizing for the optical absorption and moles of surface Ag atoms, the efficient generation and transfer of photoexcited hot electrons is favored in the small-sized Ag NPs (size <10 nm) than bigger Ag NPs. Next, we investigated the selective partial hydrogenation of nitroarene to N-aryl hydroxylamine using SiOx-loaded platinum (SiOx/Pt) photocatalysts. We found that change in the surface electronic structure of the small Pt NPs (size <5 nm) due to light illumination and surface modification (by adding suitable organic ligands), minimize the adsorption of the electron-rich hydroxylamine molecules and minimize their complete conversion to aniline, resulting in high N-hydroxylamine selectivity. Overall, our work shows that well-controlled composite nanostructures comprising of active catalyst loaded on dielectric SiOx NS supports that act as optical nanoantenna are a promising class of photocatalysts for driving photon-to-chemical transformations with high activity and product selectivity. / Chemistry

Chemistry

Analytical chemistry

dielectric scattering resonances

Methylene blue degradation

Nitrobenzene hydrogenation

photocatalytic activity

Silica nanospheres

Visible light absorption

Polarimetric Imagery for Object Pose Estimation

Siefring, Matthew D.

15 May 2023

No description available.

Electrical Engineering

Optics

Polarimetric Imagery

visible-spectrum

deep-learning

object pose estimation

CNN

late-fusion

Stokes-products dataset

MENDING ON DISPLAY : Rethinking fashion culture through visible mending

Ohlsson, Allis

January 2022

MENDING ON DISPLAY is an exploration of how to involve people in mending and have it be incorporated into everyday life. This was done through mending workshops, investigative conversations and a window display exhibiting visibly mended clothes. With all the devastating news reporting on how the planet is rapidly changing for the worse, it’s important to show that there can be joy in striving towards sustainable solutions, and moving away from current fashion culture does not have to mean compromising on your personal expression. The two main collaborations in the project are with the people interacting with it, and the secondhand store Busfrö. For this type of workshop to engage people in mending it needs to regularly occur, a routine space where one can join in for example once a month in the same place. These places exist already but few know about them, we need more of these initiatives in different contexts in order to spread the engagement in the craft. In my work I invited others to join through workshops, but I also felt welcomed into a bigger context and community network where mending is the binding force.

Mending

visible mending

textile waste

fast fashion

trends

resistance

upcycling

secondhand

fashion culture

alternative fashion

Design

Design

Study of Drug Delivery Behavior Through Biomembranes Using Thermal And Bioanalytical Techniques

Venumuddala, Hareesha Reddy

January 2010

No description available.

Analytical Chemistry

Chemistry

Excipient

DSC

DEA

TGA

Polymorph

Atypical Antipsychotics

Bipolar disorder

Dielectric analysis

Ultraviolet-visible spectroscopy

Fabrication of Micropolarizer and Narrow Band-Pass Pixel Filters for Focal Plane Array

Watson, Alexander M.

January 2011

No description available.

Electrical Engineering

micropolarizer

wiregrid

pixel filter

visible wavelengths

near-IR wavelengths

deep UV

multiple orientation

Damascene Process

Exploring Preservice Science Teachers' Interpretations of Curricular Experiences While Learning to Teach in an Inquiry-Oriented Way: A Phenomenology

Sander, Scott A.

31 July 2014

No description available.

Education

Science Education

Teacher Education

Teaching

Science Education

Preservice Science Teacher Preparation

Inquiry

Constructivism

Phenomenology

Making Thinking Visible

TeachLivE

Nano-Catalyst Synthesized by Flame Spray Pyrolysis (FSP) for Visible Light Photocatalysis

Inturi, Siva Nagi Reddy

January 2017

No description available.

Chemical Engineering

Visible-Light Photocatalysis

Flame spray Pyrolysis

Doped-Titania

Photodegradation

Volatile Organic Compounds

Secondary Metal Contamination