Chen, W. et al. Cibiyar sadarwa ta phononic mai iya daidaitawa da shirye-shirye tare da ions masu tarko. Nat. Jiki. 19, 877-883 (2023).
Zhong, H.-S. da al. Amfanin lissafin ƙididdiga ta amfani da photons. Science 370, 1460-1463 (2020).
Kannan, B. et al. Akan buƙatuwar jagorar buƙatun microwave photon watsi ta amfani da waveguide quantum electrodynamics. Nat. Jiki. 19, 394-400 (2023).
Degen, CL, Reinhard, F. & Cappellaro, P. Quantum sensing. Rev. Mod. Jiki. 89, 035002 (2017).
Atatüre, M., Englund, D., Vamivakas, N., Lee, S.-Y. & Wrachtrup, J. Kamfanonin kayan aiki don fasahar ƙirar ƙira ta tushen juzu'i. Nat. Rev. Mater. 3, 38-51 (2018).
Kurtsiefer, C., Mayer, S., Zarda, P. & Weinfurter, H. Stable m-jihar tushen photons guda ɗaya. Jiki. Rev. Lett. 85, 290-293 (2000).
Hausmann, BJM Nanophotonics a cikin Diamond (Jami'ar Harvard, 2013).
Blinov, BB, Moehring, DL, Duan, L.-M. & Monroe, C. Lura da haɗaɗɗiyar atom ɗin guda ɗaya da photon guda ɗaya. Nature 428, 153-157 (2004).
Darquié, B. et al. Sarrafa fitar da hoto guda ɗaya daga zarra guda biyu da aka kama. Science 309, 454-456 (2005).
Stute, A. et al. Makullin ion-hoton da za a iya kunnawa a cikin rami na gani. Nature 485, 482-485 (2012).
Gupta, S., Wu, W., Huang, S. & Yakobson, BI Fitowar hoto guda ɗaya daga kayan sassa biyu, zuwa kyakkyawar makoma. J. Likita. Chem. Lett. 14, 3274-3284 (2023).
Tran, TT, Bray, K., Ford, MJ, Toth, M. & Aharonovich, I. Quantum fitarwa daga hexagonal boron nitride monolayers. Nat. Nanotechnol. 11, 37-41 (2016).
Gaither-Ganim, MB, Newlon, SA, Anderson, MG & Lee, B. Kwayoyin kwayoyin halittar hoto guda daya. Oxf. Bude Mater. Sci. 3, itac017 (2023).
Kask, P., Piksarv, P. & Mets, Ü. Hasken haske mai haske a cikin kewayon lokacin nanosecond: antibunching photon a cikin rini. Yuro. Biophys. J. 12, 163-166 (1985).
Arakawa, Y. & Holmes, MJ Ci gaban a cikin ƙididdiga-dot tushen photon guda ɗaya don fasahar bayanan ƙididdiga: babban bayyani. App. Physi. Rev. 7, 021309 (2020).
Pelton, M. et al. Ingantacciyar tushen photon guda ɗaya: digo guda ɗaya a cikin maƙallan micropost. Jiki. Rev. Lett. 89, 233602 (2002).
Aharonovich, I., Englund, D. & Toth, M. Masu fitar da hoto guda ɗaya mai ƙarfi. Nat. Foton. 10, 631-641 (2016).
Große, J., von Helversen, M., Koulas-Simos, A., Hermann, M. & Reitzenstein, S. Haɓaka tsararrun ɗigo masu sarrafa rukunin yanar gizon da ke aiki azaman madaidaitan tushen tushen photon da ba za a iya bambanta su ba. APL Photon. 5, 096107 (2020).
Zadeh, IE et al. Ƙaddamar da haɗin kai na tushen photon guda ɗaya a cikin da'irar photonic tushen silicon. Nano Lett. 16, 2289-2294 (2016).
Schnauber, P. et al. Hotunan da ba za a iya bambanta su da ɗigon ƙididdiga guda ɗaya na ƙayyadaddun ƙididdigewa a cikin GaAs/Si iri-iri.3N4 jimlar photonic. Nano Lett. 19, 7164-7172 (2019).
Kim, J.-H., Aghaeimeibodi, S., Carolan, J., Englund, D. & Waks, E. Hanyoyin haɗin kai don kan-chip quantum photonics. Optica 7, 291-308 (2020).
Larocque, H. et al. Ƙididdigar ƙididdige ƙididdige ƙididdigewa a kan manyan sikelin fotin ɗin siliki. Preprint a https://arxiv.org/abs/2306.06460 (2023).
Elshaari, AW, Pernice, W., Srinivasan, K., Benson, O. & Zwiller, V. Hybrid hadedde quantum photonic circuits. Nat. Foton. 14, 285-298 (2020).
Talapin, DV, Lee, J.-S., Kovalenko, MV & Shevchenko, EV Abubuwan da ake bukata na colloidal nanocrystals don aikace-aikacen lantarki da na optoelectronic. Chem. Rev. 110, 389-458 (2010).
Boles, MA, Ling, D., Hyeon, T. & Talapin, DV Kimiyyar saman nanocrystals. Nat. Matar. 15, 141-153 (2016).
Kagan, CR, Bassett, LC, Murray, CB & Thompson, SM Colloidal quantum dige a matsayin dandamali na kimiyyar bayanai na adadi. Chem. Rev. 121, 3186-3233 (2020).
Saboktakin, M. et al. Haɓakawa na Plasmonic na nanophosphor haɓakawar haske a cikin tsararrun Au nanohole. ACS Nano 7, 7186-7192 (2013).
Upu, R. et al. Haɗaɗɗen tushen hoto ɗaya mai ƙima. Sci. Adv. 6, eabc8268 (2020).
Kang, C. & Honciuc, A. Haɗin kai na Janus nanoparticles zuwa abubuwan da ake iya canzawa. J. Likita. Chem. Lett. 9, 1415-1421 (2018).
Hao, Q., Lv, H., Ma, H., Tang, X. & Chen, M. Haɓaka hanyoyin haɗin kai akan ɗigon ƙima. Materials 16, 1317 (2023).
Ahn, N. et al. Na'urar lasing mai ban sha'awa ta gani a cikin tushen rami, babban na'urar ɗigon ƙima mai ƙima. Shawara Mater. 35, 2206613 (2023).
Bao, J. & Bawendi, MG A colloidal quantum dot spectrometer. Nature 523, 67-70 (2015).
Livache, C. et al. Ƙididdigar ƙididdiga na infrared photodetector da amfani da shi don gano intraband. Nat. Sadarwa. 10, 2125 (2019).
Klimov. Science 287, 1011-1014 (2000).
Chandrasekaran, V. et al. Kusan mara kyalkyali, tsaftataccen haske mai fitar da hoto guda ta hanyar ɗigon inP/ZnSe colloidal. Nano Lett. 17, 6104-6109 (2017).
Micheler, P. et al. Daidaita ƙididdigewa tsakanin photons daga dige ƙididdigewa ɗaya a yanayin zafin ɗaki. Nature 406, 968-970 (2000).
Hu, F. et al. Mafi kyawun kaddarorin gani na perovskite nanocrystals azaman masu fitar da photon guda ɗaya. ACS Nano 9, 12410-12416 (2015).
Zhu, C. et al. Zazzabi-ɗaki, maɓuɓɓugar hoto guda mai tsafta daga dukkan ɗigon gubar da ba a taɓa gani ba. Nano Lett. 22, 3751-3760 (2022).
Becker, MA et al. Haske mai haske sau uku a cikin cesium gubar halide perovskites. Nature 553, 189-193 (2018).
Utzat, H. et al. Haɗaɗɗen iska-photon mai haɗuwa daga colloidal lead halide perovskite jimla ɗigo-dige. Science 363, 1068-1072 (2019).
Kaplan, AEK et al. Tsangwama Hong-Ou-Mandel a cikin colloidal CsPbBr3 perovskite nanocrystals. Nat. Foton. 17, 775-780 (2023).
Proppe, AH et al. Ingantacciyar kwanciyar hankali da tsabtataccen fitowar hoto guda ɗaya tare da lokutan haɗin kai 250ps a cikin ɗigon ƙididdiga na InP colloidal. Nat. Nanotechnol. 18, 993-999 (2023).
Balasubramanian, G. et al. Ultralong juyi juzu'i lokaci a cikin isotopically injin lu'u-lu'u. Nat. Matar. 8, 383-387 (2009).
Hanson, R. et al. Zeeman kuzari da jujjuya shakatawa a cikin ɗigon lantarki guda ɗaya. Jiki. Rev. Lett. 91, 196802 (2003).
Furdyna, JK Diluted Magnetic semiconductors. J. App. Physi. 64, R29-R64 (1988).
Elzerman, JM et al. Fitar da-harbi guda ɗaya daga cikin na'urar lantarki guda ɗaya a cikin ɗigon ƙima. Nature 430, 431-435 (2004).
Burkard, G., Ladd, TD, Pan, A., Nichol, JM & Petta, JR Semiconductor spin qubits. Rev. Mod. Jiki. 95, 025003 (2023).
Zhang, X. et al. Ƙididdigar ƙididdiga ta Semiconductor. Natl Sci. Rev. 6, 32-54 (2019).
Piot, N. et al. Ramin rami ɗaya yana jujjuya tare da ingantacciyar daidaituwa a cikin siliki na halitta. Nat. Nanotechnol. 17, 1072-1077 (2022).
Beaulac, R., Archer, PI, Ochsenbein, ST & Gamelin, DR Mn2+-doped CdSe jimlar dige-dige: sabbin kayan inorganic don injin-lantarki da na'urar daukar hoto. Adv. Aiki. Mater. 18, 3873-3891 (2008).
Archer, PI, Santangelo, SA & Gamelin, DR kai tsaye lura na sp-d musayar mu'amala a cikin colloidal Mn2+- da kuma Co2+-doped CdSe quantum dige. Nano Lett. 7, 1037-1043 (2007).
Barrows, CJ, Fainblat, R. & Gamelin, DR Excitonic Zeeman rarrabuwar kawuna a cikin ɗigon CdSe na colloidal wanda aka yi da ƙazanta guda ɗaya. J. Matar. Chem. 5, 5232-5238 (2017).
Neumann, T. et al. Manganese doping don ingantattun haske na maganadisu da ikon sarrafa polarization na madauwari masu duhu a cikin paramagnetic Layered hybrid metal-halide perovskites. Nat. Sadarwa. 12, 3489 (2021).
Lohmann, S.-H., Cai, T., Morrow, DJ, Chen, O. & Ma, X. Hasken jahohi masu duhu a cikin CsPbBr3 ɗigon ƙididdiga waɗanda ke haifar da magnetism mai haifar da haske. Small 17, 2101527 (2021).
Lee, C. et al. Indefinite kuma bidirectional kusa-infrared nanocrystal photoswitching. Nature 618, 951-958 (2023).
Tran, NM, Palluel, M., Daro, N., Chastanet, G. & Freysz, E. Binciken da aka warware na lokaci-lokaci game da hotunan hotunan nanorods na zinariya wanda aka lullube da harsashi-crossover fili. J. Likita. Chem. C 125, 22611-22621 (2021).
Zhang, L. et al. Juyawa mai jujjuyawa na haɗakar haske mai ƙarfi-lamurra ta amfani da kayan kaɗa-crossover. J. Likita. Chem. Lett. 14, 6840-6849 (2023).
Fernandez-Gonzalvo, X., Chen, Y.-H., Yin, C., Rogge, S. & Longdell, JJ Coherent mita sama-canza microwaves zuwa na'urar sadarwa ta gani a cikin Er: YSO crystal. Physi. Rev. A 92, 062313 (2015).
Kolesov, R. et al. Gano gani na ion na duniya da ba kasafai ba a cikin crystal. Nat. Sadarwa. 3, 1029 (2012).
Hedges, MP, Longdell, JJ, Li, Y. & Sellars, MJ Ingantacciyar ƙwaƙwalwar ƙididdiga don haske. Nature 465, 1052-1056 (2010).
Ulanowski, A., Merkel, B. & Reiserer, A. Spectral multiplexing na sadarwa emitters tare da barga mika mulki mita. Sci. Adv. 8, abo4538 (2022).
Kindem, JM et al. Sarrafa da karantawa-harbi guda na ion da aka saka a cikin kogon nanophotonic. Nature 580, 201-204 (2020).
Zhong, T. et al. Magana da gani guda ɗaya da ba kasafai ba a cikin kogon nanophotonic. Jiki. Rev. Lett. 121, 183603 (2018).
Dibos, AM, Raha, M., Phenicie, CM & Thompson, JD Atomic tushen photon guda ɗaya a cikin rukunin tarho. Jiki. Rev. Lett. 120, 243601 (2018).
Lin, X., Han, Y., Zhu, J. & Wu, K. Daki-zazzabi daidaitaccen manipulation na gani na ramuka a cikin ɗigon perovskite jimlar bayani. Nat. Nanotechnol. 18, 124-130 (2023).
Viitaniemi, MLK et al. Shiri mai daidaituwa na indium mai ba da gudummawa qubits a cikin ZnO nanowires guda ɗaya. Nano Lett. 22, 2134-2139 (2022).
Saeedi, K. et al. Ma'ajiyar ƙididdige yawan zafin jiki da ke wuce mintuna 39 ta amfani da masu ba da gudummawar ionized a cikin silicon-28. Science 342, 830-832 (2013).
Wolf, T. et al. Subpicotesla lu'u-lu'u magnetometry. Jiki. Rev. X 5, 041001 (2015).
Grinolds, MS et al. Ƙaddamarwar Subnanometer a cikin hoto mai girman maganadisu mai girma uku na kowane duhun juyi. Nat. Nanotechnol. 9, 279-284 (2014).
Ishii, A. & Miyasaka, T. Upconverting kusa-infrared haske gano haske a gubar halide perovskite tare da core-harsashi lanthanide nanoparticles. Adv. Photon. Res. 4, 2200222 (2023).
Gong, J., Steinsultz, N. & Ouyang, M. Nanodiamond tushen nanostructures don hadawa nitrogen-vacance cibiyoyin zuwa karfe nanoparticles da semiconductor jimla dige. Nat. Sadarwa. 7, 11820 (2016).
Vamivakas, AN et al. Nanoscale Optical Electrometer. Jiki. Rev. Lett. 107, 166802 (2011).
Solntsev, A.S., Agarwal, G.S. & Kivshar, Y.S. Metasurfaces don kididdigar photonics. Nat. Foton. 15, 327-336 (2021).
Aslam, N. et al. Na'urori masu auna firikwensin don aikace-aikacen ilimin halitta. Nat. Rev. Phys. 5, 157-169 (2023).
Mok, W.-K., Bharti, K., Kwek, L.-C. & Bayat, A. Mafi kyawun bincike don ma'aunin zafin jiki na duniya. Jama'a. Physi. 4, 62 (2021).
Kucsko, G. et al. Ma'aunin thermometry na Nanometer a cikin tantanin halitta mai rai. Nature 500, 54-58 (2013).
Toyli, DM, de las Casas, CF, Christle, DJ, Dobrovitski, VV & Awschalom, DD Fluorescence ma'aunin zafi da sanyio ya inganta ta hanyar jimlar juzu'i na juzu'i guda a cikin lu'u-lu'u. Shaida. Natl Acad. Sci. Amurka 110, 8417-8421 (2013).
Segawa, TF & Igarashi, R. Nanoscale quantum sensing tare da nitrogen-vacancy centers in nanodiamonds — a Magnetic resonance hangen zaman gaba. Prog. Nucle. Magn. Reson. Spectrosc. 134-135, 20-38 (2023).
Rondin, L. et al. Magnetometry tare da lahani-rabuwar nitrogen a cikin lu'u-lu'u. Wakilin Prog. Physi. 77, 056503 (2014).
Taylor, JM et al. Magnetometer lu'u-lu'u mai girman hankali tare da ƙudurin nanoscale. Nat. Jiki. 4, 810-816 (2008).
Vafaeezadeh, M. & Thiel, Kayan aikin Janus na musamman na WR a cikin nau'ikan catalysis. Angew. Chem. Int. Ed. 61, e202206403 (2022).
Zehavi, M., Sofer, D., Miloh, T., Velev, OD & Yossifon, G. Ƙwararren gyare-gyaren da aka yi amfani da shi na kayan aikin lantarki mai amfani da wutar lantarki na Janus. Physi. Rev. App. 18, 024060 (2022).
Dong, R., Zhang, Q., Gao, W., Pei, A. & Ren, B. TiO mai haske sosai2-Au Janus micromotors. ACS Nano 10, 839-844 (2016).
Jang, B. et al. Multiwavelength haske mai amsawa Au/B–TiO2 Janus micromotors. ACS Nano 11, 6146-6154 (2017).
Xuan, M. et al. Kusa da infrared mai ƙarfi Janus mesoporous silica nanoparticle Motors. J. Am. Chem. Soc. 138, 6492-6497 (2016).
Kink, F., Collado, MP, Wiedbrauk, S., Mayer, P. & Dube, H. Bistable photoswitching na hemithioindigo tare da kore da ja haske: shigarwa batu zuwa ci-gaba kwayoyin dijital bayanai sarrafa. Chem. Yuro. J. 23, 6237-6243 (2017).
Erbas-Cakmak, S. et al. Ƙofofin dabaru na ƙwayoyin cuta: abubuwan da suka gabata, yanzu da nan gaba. Chem. Soc Rev. 47, 2228-2248 (2018).
Ding, H. & Ma, Y. Ma'amala tsakanin Janus barbashi da membranes. Nanoscale 4, 1116-1122 (2012).
Huhnstock, R. et al. Fassara da jujjuyawar motsi na musanya-bangaranci ya rufe ɓangarorin Janus da ke sarrafa su ta hanyar shimfidar fili mai ƙarfi. Sci. Rep. 11, 21794 (2021).
Claussen, JC, Franklin, AD, Ul Haque, A., Porterfield, DM & Fisher, TS Electrochemical biosensor na nanocube-augmented carbon nanotube cibiyoyin sadarwa. ACS Nano 3, 37-44 (2009).
Xia, Y. et al. Haɓaka-ingantacciyar gani na gani. Nat. Foton. 17, 470-477 (2023).
Zhou, H. et al. Ƙididdigar ƙididdiga tare da tsarin mu'amala mai ƙarfi. Jiki. Rev. X 10, 031003 (2020).
Greenberger, DM, Horne, MA & Zeilinger, A. Ya wuce ka'idar Bell. Preprint a https://arxiv.org/abs/0712.0921 (2007).
Browaeys, A. & Lahaye, T. Physics da yawa tare da nau'ikan zarra na Rydberg guda ɗaya. Nat. Jiki. 16, 132-142 (2020).
Kai, R. et al. Sifili-filin ƙididdige ƙididdigewa da jujjuya hanyoyin daidaitawa a cikin CsPbBr3 perovskite nanocrystals. Nat. Sadarwa. 14, 2472 (2023).
Udvarhelyi, P. et al. Tabbatacce tabbataccen lahani qubits ba tare da jujjuya juzu'i don ƙaƙƙarfan mu'amalar hoto zuwa hoto ba. Physi. Rev. App. 11, 044022 (2019).
Pelucchi, E. et al. Mahimmanci da hangen nesa na duniya na haɗe-haɗe na photonics don fasahar ƙididdiga. Nat. Rev. Phys. 4, 194-208 (2021).
Xu, Q. et al. Haɗe-haɗe iri-iri na inks ɗin ƙididdiga na colloidal a kan silicon yana ba da damar ingantacciyar infrared na hoto mai inganci. Farashin ACS Photon. 9, 2792-2801 (2022).
Yun, HJ et al. Haɗe-haɗe-haɗe-haɗe-haɗe-haɗe-haɗe-haɗe-haɗewar hanyoyin CMOS dangane da colloidal CuInSe2 ɗigon ƙididdiga. Nat. Sadarwa. 11, 5280 (2020).
Dong, M. et al. Da'irar photonic mai saurin shirye-shirye a cikin mai dacewa da cryogenically, bayyane-kusa da infrared 200 mm CMOS gine. Nat. Foton. 16, 59-65 (2022).
Crane, MJ et al. Matsakaicin juzu'i na juzu'i da iyakance iyakacin rayuwa a cikin CsPbBr3 perovskite nanocrystals. Nano Lett. 20, 8626-8633 (2020).
Kuwahata, A. et al. Magnetometer tare da cibiyar sarari-nitrogen a cikin babban lu'u-lu'u don gano abubuwan nanoparticles na maganadisu a aikace-aikacen ilimin halitta. Sci. Rep. 10, 2483 (2020).
Bromberg, Y., Lahini, Y., Small, E. & Silberberg, Y. Hanbury Brown da Twiss interferometry tare da mu'amala da photons. Nat. Foton. 4, 721-726 (2010).
Lin, X. et al. Maɓuɓɓugan hoto guda-ɗayan da ke sarrafa wutar lantarki dangane da ɗigon ƙididdiga na colloidal tare da ingantacciyar rigakafin bunch a ɗaki. Nat. Sadarwa. 8, 1132 (2017).
Lounis, B. & Moerner, WE Single photon akan buƙata daga kwayoyin halitta guda a zafin jiki. Nature 407, 491-493 (2000).
Buckley, S., Rivoire, K. & Vučković, J. Injiniya ƙididdige madogaran hoto guda ɗaya. Wakilin Prog. Physi. 75, 126503 (2012).
Yakubu, Z., Smolyaninov, II & Narimanov, EE Broadband Purcell sakamako: radiative lalata injiniya tare da metamaterials. Appl. Jiki. Lett. 100, 181105 (2012).
Varoutsis, S. et al. Maido da rashin bambance-bambancen photon a cikin fitar da ɗigo na semiconductor quantum. Jiki. Rev. B 72, 041303 (2005).
Bockelmann, U., Heller, W. & Abstreiter, G. Microphotoluminescence nazarin ɗigon ƙididdiga guda ɗaya. II. Gwaje-gwajen filin Magnetic. Jiki. Rev. B 55, 4469-4472 (1997).
Saxena, A. et al. Haɓaka rashin bambancewa na photon guda ɗaya daga ɗigon ƙididdiga na colloidal ta amfani da nanocavities. Farashin ACS Photon. 6, 3166-3173 (2019).
Gaponenko, SV Kayayyakin gani na Semiconductor Nanocrystals (Jami'ar Cambridge, 1998); https://doi.org/10.1017/CBO9780511524141
Klimov, VI Nanocrystal Quantum Dots (CRC Press, 2017); https://doi.org/10.1201/9781420079272
Shamsi, J., Urban, AS, Imran, M., Trizio, LD & Manna, L. Metal halide perovskite nanocrystals: kira, post-kirki gyare-gyare, da na gani Properties. Chem. Rev. 119, 3296-3348 (2019).
Murray, CB, Kagan, CR & Bawendi, MG Synthesis da sifa na monodisperse nanocrystals da kuma kusa-cushe nanocrystal majalisai. Annu. Rev. Mater. Sci. 30, 545-610 (2000).
Harris, DK & Bawendi, MG Ingantattun sinadarai na farko don haɗa ɗigo uku-V. J. Am. Chem. Soc. 134, 20211-20213 (2012).
Cherniukh, I. et al. Nau'in nau'in perovskite daga gubar halide perovskite nanocubes. Nature 593, 535-542 (2021).
Abudayeh, H. et al. Maɓuɓɓugan photon guda ɗaya tare da ingantattun abubuwan tattara haɗin kai ta hanyar ƙayyadaddun jeri na adadin dige-dige a nanoantennas. APL Photon. 6, 036109 (2021).
Ratchford, D., Shafiei, F., Kim, S., Grey, SK & Li, X. Yin amfani da haɗin gwiwa tsakanin digon semiconductor guda ɗaya da nanoparticle na gwal ɗaya. Nano Lett. 11, 1049-1054 (2011).
Chen, O. et al. Karamin babban ingancin CdSe–CdS babban harsashi nanocrystals tare da ƙunƙuntaccen saƙon layi da ƙyalli. Nat. Matar. 12, 445-451 (2013).
Efros, AL & Nesbitt, DJ Asalin da sarrafa kiftawa a cikin ɗigon ƙididdiga. Nat. Nanotechnol. 11, 661-671 (2016).
Fan, F. et al. Ci gaba da lasing lasing a cikin colloidal quantum ɗigo daskararrun wanda aka kunna ta hanyar zaɓaɓɓen epitaxy na facet. Nature 544, 75-79 (2017).
Xia, P. et al. Haɗin kai na jere a cikin inas colloidal quantum dot daskararrun yana ba da damar ingantattun na'urorin gano hoto na kusa-infrared. Shawara Mater. 35, 2301842 (2023).
Xiao, P. et al. Ƙunƙarar sararin samaniya na luminescent duk-inorganic nanocrystals da tsarinsu na gani kai tsaye. Nat. Sadarwa. 14, 49 (2023).
Krieg, F. et al. Colloidal CsPbX3 (X = Cl, Br, I) nanocrystals 2.0: zwitterionic capping ligands don ingantaccen dorewa da kwanciyar hankali. Abubuwan da aka bayar na ACS Energy Lett. 3, 641-646 (2018).
Mir, WJ et al. Lecithin capping ligands yana ba da damar ultrastable perovskite-phase CsPbI3 ɗigon ƙididdiga don Rec. 2020 mai haske-ja mai haske mai fitar da diode. J. Am. Chem. Soc. 144, 13302-13310 (2022).
Liu, Y. et al. Diodes masu haske da tsayayye masu fitar da haske dangane da ɗigon ƙididdiga na perovskite a cikin matrix perovskite. J. Am. Chem. Soc. 143, 15606-15615 (2021).
Mi, C. et al. Biexciton-kamar Auger yana lumshe ido a cikin CsPbBr mai ƙarfi3 perovskite jimla dige. J. Likita. Chem. Lett. 14, 5466-5474 (2023).
Zhao, T. et al. Emulsion-daidaitacce taro ga Janus biyu-spherical mesoporous nanoparticles a matsayin nazarin halittu dabaru ƙofofin. Nat. Chem. 15, 832-840 (2023).
Yi, Y., Sanchez, L., Gao, Y. & Yu, Y. Janus barbashi don nazarin halittu da ji. Analyst 141, 3526-3539 (2016).
Safaie, N. & Ferrier, RC Jr. Janus nanoparticle kira: bayyani, abubuwan da suka faru kwanan nan, da aikace-aikace. J. App. Physi. 127, 170902 (2020).
Xie, W. et al. Ƙididdigar ƙididdiga masu yawa waɗanda ke ba da damar madaidaitan hanyoyin haske don haɗaɗɗun hotunan silicon-nitride. IEEE J. Sel. Sama. Quantum Electron. 23, 1-13 (2017).
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- PlatoESG. Carbon, CleanTech, Kuzari, Muhalli, Solar, Gudanar da Sharar gida. Shiga Nan.
- PlatoHealth. Biotech da Clinical Trials Intelligence. Shiga Nan.
- Source: https://www.nature.com/articles/s41565-024-01606-4
