東華大學圖書館 |

語系: 繁體中文

說明(常見問題)

回圖書館首頁

手機版館藏查詢

登入

回首頁

切換: 標籤 | MARC模式 | ISBD

Laser-triggered nanobiomaterials for...

Chu, Maoquan.

FindBook

Google Book

Amazon

博客來

Laser-triggered nanobiomaterials for inhibiting tumor growth

紀錄類型:	書目-電子資源 : Monograph/item
正題名/作者:	Laser-triggered nanobiomaterials for inhibiting tumor growth/ by Maoquan Chu.
作者:	Chu, Maoquan.
出版者:	Singapore :Springer Nature Singapore : : 2024.,
面頁冊數:	xv, 246 p. :ill. (some col.), digital ;24 cm.
內容註:	Chapter1 The photothermal conversion materials and requirements for ideal photothermal materials -- Chapter2 The advantages of magnetic iron oxide nanoparticles for cancer phothermal therapy -- Chapter3 Magnetic iron oxide nanoparticles via intratumoral injection for cancer photothermal therapy -- Chapter4 Magnetic iron oxide nanoparticles via intravenous injection for cancer photothermal therapy -- Chapter5 Laser-triggered drug-loaded magnetic iron oxide nanoparticles for cancer therapy -- Chapter6 Laser-triggered hybridize magnetic iron oxide/semiconductor nanocrystals for cancer therapy -- Chapter7 Hollow mesoporous copper sulfide nanoparticles for cancer phototherapy -- Chapter 8 Gold nanostars for cancer photothermal therapy -- Chapter 9 Laser-triggered hybridize magnetic iron oxide/gold nanoparticles for cancer therapy -- Chapter 10 Carbon nanotubes for cancer photothermal therapy -- Chapter 11 Graphic carbon nanocages for cancer photothermal therapy -- Chapter 12 Black phosphorous nanosheets for cancer photothermal therapy -- Chapter13 Organic nanoparticles for cancer photothermal therapy.
Contained By:	Springer Nature eBook
標題:	Cancer cells - Growth -
電子資源:	https://doi.org/10.1007/978-981-97-4220-2
ISBN:	9789819742202

Laser-triggered nanobiomaterials for inhibiting tumor growth
Chu, Maoquan.

Laser-triggered nanobiomaterials for inhibiting tumor growth[electronic resource] /by Maoquan Chu. - Singapore :Springer Nature Singapore :2024. - xv, 246 p. :ill. (some col.), digital ;24 cm.

Chapter1 The photothermal conversion materials and requirements for ideal photothermal materials -- Chapter2 The advantages of magnetic iron oxide nanoparticles for cancer phothermal therapy -- Chapter3 Magnetic iron oxide nanoparticles via intratumoral injection for cancer photothermal therapy -- Chapter4 Magnetic iron oxide nanoparticles via intravenous injection for cancer photothermal therapy -- Chapter5 Laser-triggered drug-loaded magnetic iron oxide nanoparticles for cancer therapy -- Chapter6 Laser-triggered hybridize magnetic iron oxide/semiconductor nanocrystals for cancer therapy -- Chapter7 Hollow mesoporous copper sulfide nanoparticles for cancer phototherapy -- Chapter 8 Gold nanostars for cancer photothermal therapy -- Chapter 9 Laser-triggered hybridize magnetic iron oxide/gold nanoparticles for cancer therapy -- Chapter 10 Carbon nanotubes for cancer photothermal therapy -- Chapter 11 Graphic carbon nanocages for cancer photothermal therapy -- Chapter 12 Black phosphorous nanosheets for cancer photothermal therapy -- Chapter13 Organic nanoparticles for cancer photothermal therapy.

This book focuses on laser-triggered nanobiomaterials for tumor inhibition. In this book, magnetic iron oxide nanoparticle-mediated cancer PTT through intratumoral or/and intravenous injection is introduced first. The benefits of intratumoral injection and the main factors affecting the retention of materials and permeability in solid tumors have been discussed. Furthermore, an attempt has been made to explore the performance of magnetic iron oxide nanoparticles after intravenous injection for tumor-targeted PTT based on several strategies. The latter part probes the gaps to improve magnetic iron oxide nanoparticle-mediated PTT through intratumoral and intravenous injection modes. This book also includes discussion on drug-loaded magnetic nanocomposites, magnetic iron oxide/Au nanocomposites, and magnetic iron oxide/semiconductor nanocrystal nanocomposites for combination cancer therapy, and enhanced cancer PTT has also been included as an integral part. This book also summarizes the most investigated photothermal agents, including noble metal nanoparticles, especially gold nanostars, hollow mesoporous copper sulfide nanoparticles, carbon-based nanoparticles, especially carbon nanotubes and graphic carbon nanocages, black phosphorous nanosheets, conjugated polymer nanoparticles, and organic dye nanoparticles. This book is useful for undergraduate and postgraduate students to better understand this research area. It may also provide useful information for technical nonspecialists whose background is in nanoscience and nanotechnology, biology, medicine, pharmacy, materials, chemistry, and physics.

ISBN: 9789819742202

Standard No.: 10.1007/978-981-97-4220-2doiSubjects--Topical Terms:

753515
Cancer cells
--Growth

LC Class. No.: RC268.5

Dewey Class. No.: 616.99406

Laser-triggered nanobiomaterials for inhibiting tumor growth
LDR:03733nmm a2200325 a 4500 001 2374709
003 DE-He213
005 20240915130224.0
006 m d
007 cr nn 008maaau
008 241231s2024 si s 0 eng d
020 $a 9789819742202 $q (electronic bk.)
020 $a 9789819742196 $q (paper)
024 7 $a 10.1007/978-981-97-4220-2 $2 doi
035 $a 978-981-97-4220-2
040 $a GP $c GP
041 0 $a eng
050 4 $a RC268.5
072 7 $a MJCL $2 bicssc
072 7 $a MED062000 $2 bisacsh
072 7 $a MJCL $2 thema
082 0 4 $a 616.99406 $2 23
090 $a RC268.5 $b .C559 2024
100 1 $a Chu, Maoquan. $3 3315458
245 1 0 $a Laser-triggered nanobiomaterials for inhibiting tumor growth $h [electronic resource] / $c by Maoquan Chu.
260 $a Singapore : $b Springer Nature Singapore : $b Imprint: Springer, $c 2024.
300 $a xv, 246 p. : $b ill. (some col.), digital ; $c 24 cm.
505 0 $a Chapter1 The photothermal conversion materials and requirements for ideal photothermal materials -- Chapter2 The advantages of magnetic iron oxide nanoparticles for cancer phothermal therapy -- Chapter3 Magnetic iron oxide nanoparticles via intratumoral injection for cancer photothermal therapy -- Chapter4 Magnetic iron oxide nanoparticles via intravenous injection for cancer photothermal therapy -- Chapter5 Laser-triggered drug-loaded magnetic iron oxide nanoparticles for cancer therapy -- Chapter6 Laser-triggered hybridize magnetic iron oxide/semiconductor nanocrystals for cancer therapy -- Chapter7 Hollow mesoporous copper sulfide nanoparticles for cancer phototherapy -- Chapter 8 Gold nanostars for cancer photothermal therapy -- Chapter 9 Laser-triggered hybridize magnetic iron oxide/gold nanoparticles for cancer therapy -- Chapter 10 Carbon nanotubes for cancer photothermal therapy -- Chapter 11 Graphic carbon nanocages for cancer photothermal therapy -- Chapter 12 Black phosphorous nanosheets for cancer photothermal therapy -- Chapter13 Organic nanoparticles for cancer photothermal therapy.
520 $a This book focuses on laser-triggered nanobiomaterials for tumor inhibition. In this book, magnetic iron oxide nanoparticle-mediated cancer PTT through intratumoral or/and intravenous injection is introduced first. The benefits of intratumoral injection and the main factors affecting the retention of materials and permeability in solid tumors have been discussed. Furthermore, an attempt has been made to explore the performance of magnetic iron oxide nanoparticles after intravenous injection for tumor-targeted PTT based on several strategies. The latter part probes the gaps to improve magnetic iron oxide nanoparticle-mediated PTT through intratumoral and intravenous injection modes. This book also includes discussion on drug-loaded magnetic nanocomposites, magnetic iron oxide/Au nanocomposites, and magnetic iron oxide/semiconductor nanocrystal nanocomposites for combination cancer therapy, and enhanced cancer PTT has also been included as an integral part. This book also summarizes the most investigated photothermal agents, including noble metal nanoparticles, especially gold nanostars, hollow mesoporous copper sulfide nanoparticles, carbon-based nanoparticles, especially carbon nanotubes and graphic carbon nanocages, black phosphorous nanosheets, conjugated polymer nanoparticles, and organic dye nanoparticles. This book is useful for undergraduate and postgraduate students to better understand this research area. It may also provide useful information for technical nonspecialists whose background is in nanoscience and nanotechnology, biology, medicine, pharmacy, materials, chemistry, and physics.
650 0 $a Cancer cells $x Growth $x Regulation. $3 753515
650 0 $a Cancer $x Phototherapy $x Technological innovations. $3 3723686
650 0 $a Tumors $x Growth. $3 895425
650 0 $a Nanostructured materials. $3 584856
650 1 4 $a Cancer Therapy. $3 3594090
650 2 4 $a Cancer Biology. $3 3594253
650 2 4 $a Nanomedicine and Nanotoxicology. $3 3531320
650 2 4 $a Biomedical Research. $3 851895
710 2 $a SpringerLink (Online service) $3 836513
773 0 $t Springer Nature eBook
856 4 0 $u https://doi.org/10.1007/978-981-97-4220-2
950 $a Biomedical and Life Sciences (SpringerNature-11642)